Histamine (BioDeep_00000001677)
Secondary id: BioDeep_00000398719, BioDeep_00000860582
natural product human metabolite PANOMIX_OTCML-2023 Endogenous blood metabolite BioNovoGene_Lab2019
代谢物信息卡片
化学式: C5H9N3 (111.0796)
中文名称: 组胺 二盐酸盐, 组胺, 2-(3H-咪唑-4-基)-乙胺
谱图信息:
最多检出来源 Homo sapiens(feces) 8.99%
Last reviewed on 2024-07-03.
Cite this Page
Histamine. BioDeep Database v3. PANOMIX ltd, a top metabolomics service provider from China.
https://query.biodeep.cn/s/histamine (retrieved
2024-12-22) (BioDeep RN: BioDeep_00000001677). Licensed
under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).
分子结构信息
SMILES: C(CN)C1=CN=CN1
InChI: InChI=1S/C5H9N3/c6-2-1-5-3-7-4-8-5/h3-4H,1-2,6H2,(H,7,8)
描述信息
An amine derived by enzymatic decarboxylation of histidine. It is a powerful stimulant of gastric secretion, a constrictor of bronchial smooth muscle, a vasodilator, and also a centrally acting neurotransmitter.; Histamine is a biogenic amine involved in local immune responses as well as regulating physiological function in the gut and acting as a neurotransmitter. Histamine triggers the inflammatory response. As part of an immune response to foreign pathogens, histamine is produced by basophils and by mast cells found in nearby connective tissues. Histamine increases the permeability of the capillaries to white blood cells and other proteins, in order to allow them to engage foreign invaders in the affected tissues. It is found in virtually all animal body cells.[citation needed]; Histamine is derived from the decarboxylation of the amino acid histidine, a reaction catalyzed by the enzyme L-histidine decarboxylase. It is a hydrophilic vasoactive amine.
Histamine is an amine derived by enzymatic decarboxylation of histidine. It is a powerful stimulant of gastric secretion, a constrictor of bronchial smooth muscle, a vasodilator, and also a centrally acting neurotransmitter. Histamine can be found in Photobacterium phosphoreum and Lactobacillus (PMID:17066936). Histamine belongs to the class of organic compounds known as 2-arylethylamines. These are primary amines that have the general formula RCCNH2, where R is an organic group. High amounts of histamine have been found in spinach, oats and ryes. Another foods such as green beans, broccoli, and beetroots also contain histamine but in lower concentrations. Histamine has also been detected but not quantified in several different foods, such as groundcherries, carobs, bok choy, biscuits, and longans.
D018377 - Neurotransmitter Agents > D018494 - Histamine Agents > D017442 - Histamine Agonists
Histamine. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=51-45-6 (retrieved 2024-07-03) (CAS RN: 51-45-6). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).
Histamine is an organic nitrogenous compound involved in local immune responses as well as regulating physiological function in the gut and acting as a neurotransmitter.
Histamine is an organic nitrogenous compound involved in local immune responses as well as regulating physiological function in the gut and acting as a neurotransmitter.
Histamine is an organic nitrogenous compound involved in local immune responses as well as regulating physiological function in the gut and acting as a neurotransmitter.
同义名列表
31 个代谢物同义名
2-(1H-imidazol-4-yl)ethan-1-amine; 2-(1H-Imidazol-5-yl)ethylamine; 2-(1H-Imidazol-4-yl)ethylamine; 2-(1H-imidazol-5-yl)ethanamine; 2-(1H-Imidazol-4-yl)ethanamine; 2-(3H-Imidazol-4-yl)ethylamine; 4-(2-Aminoethyl)-1H-imidazole; beta-Imidazolyl-4-ethylamine; beta-Aminothethylglyoxaline; 2-Imidazol-4-yl-ethylamine; 2-(4-Imidazolyl)ethanamine; 2-(4-Imidazolyl)ethylamine; 4-(2-Aminoethyl)imidazole; Β-imidazolyl-4-ethylamine; 1H-Imidazole-4-ethanamine; beta-Aminoethylglyoxaline; 2-Imidazol-4-ylethylamine; b-Imidazolyl-4-ethylamine; beta-Aminoethylimidazole; Imidazole-4-ethylamine; 4-Imidazoleethylamine; 5-Imidazoleethylamine; Ergotidine; Theramine; Histamine; Ergamine; Eramin; HSM; Histamine; Histamine; Histamine
数据库引用编号
34 个数据库交叉引用编号
- ChEBI: CHEBI:18295
- KEGG: C00388
- KEGGdrug: D08040
- PubChem: 774
- HMDB: HMDB0000870
- Metlin: METLIN68
- DrugBank: DB05381
- ChEMBL: CHEMBL90
- Wikipedia: Histamine
- MeSH: Histamine
- MetaCyc: HISTAMINE
- KNApSAcK: C00001414
- foodb: FDB012596
- chemspider: 753
- CAS: 51-45-6
- MoNA: KO003131
- MoNA: PS012601
- MoNA: KO003128
- MoNA: KO003129
- MoNA: PR100071
- MoNA: PS012602
- MoNA: PS012603
- MoNA: KO003132
- MoNA: KO003130
- PMhub: MS000000965
- PubChem: 3678
- PDB-CCD: HSM
- 3DMET: B00101
- NIKKAJI: J4.117C
- RefMet: Histamine
- medchemexpress: HY-B1204
- BioNovoGene_Lab2019: BioNovoGene_Lab2019-262
- BioNovoGene_Lab2019: BioNovoGene_Lab2019-873
- KNApSAcK: 18295
分类词条
相关代谢途径
BioCyc(0)
PlantCyc(0)
代谢反应
134 个相关的代谢反应过程信息。
Reactome(35)
- Signaling Pathways:
AMP + p-AMPK heterotrimer ⟶ p-AMPK heterotrimer:AMP
- Signaling by GPCR:
H2O + cAMP ⟶ AMP
- GPCR downstream signalling:
H2O + cAMP ⟶ AMP
- G alpha (q) signalling events:
Heterotrimeric G-protein Gq/11 (inactive) + Ligand:GPCR complexes that activate Gq/11 ⟶ Ligand:GPCR complexes that activate Gq/11:Heterotrimeric G-protein Gq (inactive)
- G alpha (i) signalling events:
H2O + cAMP ⟶ AMP
- Histidine, lysine, phenylalanine, tyrosine, proline and tryptophan catabolism:
L-Trp + Oxygen ⟶ NFK
- Metabolism:
1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
- Amino acid and derivative metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Histidine, lysine, phenylalanine, tyrosine, proline and tryptophan catabolism:
L-Trp + Oxygen ⟶ NFK
- Histidine catabolism:
CARN + SAM ⟶ Anserine + SAH
- GPCR ligand binding:
Ade-Rib + H0YT13 ⟶ ADORA1,3:Ade-Rib
- Class A/1 (Rhodopsin-like receptors):
Ade-Rib + H0YT13 ⟶ ADORA1,3:Ade-Rib
- Amine ligand-binding receptors:
H0ZMX8 + PEA ⟶ Trace amine-associated receptor:PEA
- Histamine receptors:
H0Z158 + Hist ⟶ HRH1:Histamine
- Metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Amino acid and derivative metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Histidine, lysine, phenylalanine, tyrosine, proline and tryptophan catabolism:
CARN + SAM ⟶ Anserine + SAH
- Histidine catabolism:
CARN + SAM ⟶ Anserine + SAH
- Biological oxidations:
H+ + Oxygen + TPNH + aflatoxin B1 ⟶ AFXBO + H2O + TPN
- Phase I - Functionalization of compounds:
H+ + Oxygen + TPNH + aflatoxin B1 ⟶ AFXBO + H2O + TPN
- Histidine, lysine, phenylalanine, tyrosine, proline and tryptophan catabolism:
L-Trp + Oxygen ⟶ NFK
- Histidine, lysine, phenylalanine, tyrosine, proline and tryptophan catabolism:
L-Trp + Oxygen ⟶ NFK
- Histidine, lysine, phenylalanine, tyrosine, proline and tryptophan catabolism:
L-Trp + Oxygen ⟶ NFK
- Histidine, lysine, phenylalanine, tyrosine, proline and tryptophan catabolism:
L-Trp + Oxygen ⟶ NFK
- Histidine, lysine, phenylalanine, tyrosine, proline and tryptophan catabolism:
L-Trp + Oxygen ⟶ NFK
- Histidine, lysine, phenylalanine, tyrosine, proline and tryptophan catabolism:
L-Trp + Oxygen ⟶ NFK
- Metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Amino acid and derivative metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Histidine, lysine, phenylalanine, tyrosine, proline and tryptophan catabolism:
CARN + SAM ⟶ Anserine + SAH
- Histidine catabolism:
CARN + SAM ⟶ Anserine + SAH
- Biological oxidations:
H+ + Oxygen + TPNH + aflatoxin B1 ⟶ AFXBO + H2O + TPN
- Phase I - Functionalization of compounds:
H+ + Oxygen + TPNH + aflatoxin B1 ⟶ AFXBO + H2O + TPN
- Histidine, lysine, phenylalanine, tyrosine, proline and tryptophan catabolism:
L-Trp + Oxygen ⟶ NFK
- Histidine, lysine, phenylalanine, tyrosine, proline and tryptophan catabolism:
L-Trp + Oxygen ⟶ NFK
- Histidine, lysine, phenylalanine, tyrosine, proline and tryptophan catabolism:
L-Trp + Oxygen ⟶ NFK
BioCyc(0)
Plant Reactome(0)
INOH(1)
- Histidine degradation ( Histidine degradation ):
H2O + L-Carnosine ⟶ L-Histidine + beta-Alanine
PlantCyc(0)
COVID-19 Disease Map(0)
PathBank(97)
- Chlorphenamine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Pheniramine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Dexchlorpheniramine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Brompheniramine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Dexbrompheniramine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Triprolidine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Dimetindene H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Mepyramine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Antazoline H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Chloropyramine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Talastine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Tripelennamine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Histapyrrodine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Methapyrilene H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Thonzylamine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Diphenhydramine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Carbinoxamine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Doxylamine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Orphenadrine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Bromodiphenhydramine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Clemastine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Chlorphenoxamine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Diphenylpyraline H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Phenyltoloxamine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Cyclizine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Chlorcyclizine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Hydroxyzine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Meclizine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Buclizine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Oxatomide H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Cetirizine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Cinnarizine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Levocetirizine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Promethazine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Alimemazine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Cyproheptadine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Phenbenzamine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Fenethazine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Hydroxyethylpromethazine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Isothipendyl H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Mequitazine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Methdilazine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Oxomemazine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Azatadine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Ketotifen H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Doxepin H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Acrivastine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Astemizole H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Bepotastine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Bilastine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Loratadine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Desloratadine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Ebastine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Terfenadine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Fexofenadine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Levocabastine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Mizolastine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Rupatadine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Olopatadine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Azelastine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Thiazinamium H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Quifenadine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Betahistine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Emedastine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Flunarizine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Mebhydrolin H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Phenindamine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Epinastine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Tolpropamine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Embramine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Latrepirdine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Thenyldiamine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Propiomazine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Clocinizine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Homochlorcyclizine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Temelastine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Alcaftadine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Bamipine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Deptropine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Quetiapine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Mirtazapine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Pimethixene H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Pyrrobutamine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Thenalidine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Tritoqualine H1-Antihistamine Action:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Histamine H1 Receptor Activation:
Histamine H1 receptor (Homo sapiens)_G q (Homo sapiens)_Guanosine diphosphate_G (Homo sapiens) ⟶ G + Guanosine triphosphate_G q (Homo sapiens) + Histamine_Histamine H1 receptor (Homo sapiens)
- Histamine H1 Receptor Activation:
Histamine H1 receptor (Mus musculus)_G q (Mus musculus)_Guanosine diphosphate_G (Mus musculus) ⟶ G + Guanosine triphosphate_G q (Mus musculus) + Histamine_Histamine H1 receptor (Mus musculus)
- Histamine H1 Receptor Activation:
Histamine H1 receptor (Bos taurus)_G q (Bos taurus)_Guanosine diphosphate_G (Bos taurus) ⟶ G + Guanosine triphosphate_G q (Bos taurus) + Histamine_Histamine H1 receptor (Bos taurus)
- Histamine H1 Receptor Activation:
Histamine H1 receptor (Rattus norvegicus)_G q (Rattus norvegicus)_Guanosine diphosphate_G (Rattus norvegicus) ⟶ G + Guanosine triphosphate_G q (Rattus norvegicus) + Histamine_Histamine H1 receptor (Rattus norvegicus)
- Histidine Metabolism:
-Alanine + Adenosine triphosphate + L-Histidine ⟶ Adenosine diphosphate + Carnosine + Phosphate
- Histidinemia:
-Alanine + Adenosine triphosphate + L-Histidine ⟶ Adenosine diphosphate + Carnosine + Phosphate
- Histidine Metabolism:
Imidazole acetol-phosphate + L-Glutamic acid ⟶ L-histidinol phosphate + Oxoglutaric acid
- Histidine Metabolism:
Carnosine + Water ⟶ -Alanine + L-Histidine
- Histidinemia:
Carnosine + Water ⟶ -Alanine + L-Histidine
- Histidine Metabolism:
Carnosine + Water ⟶ -Alanine + L-Histidine
- Histidine Metabolism:
Carnosine + Water ⟶ -Alanine + L-Histidine
- Histidinemia:
Carnosine + Water ⟶ -Alanine + L-Histidine
PharmGKB(0)
33 个相关的物种来源信息
- 8296 - Ambystoma mexicanum: 10.3389/FCELL.2020.562940
- 6500 - Aplysia californica: 10.21236/ADA010137
- 182803 - Araneus ventricosus: 10.1016/0305-0491(91)90393-R
- 270544 - Arripis trutta: 10.1300/J030V04N02_04
- 3483 - Cannabis sativa: 10.1021/NP50008A001
- 71251 - Chelidonium majus: 10.1016/J.PHYMED.2014.07.012
- 71251 - Chelidonium majus L.: -
- 6148 - Chrysaora quinquecirrha: 10.1016/0091-6749(90)90162-W
- 2907091 - Cnidoscolus texanus: 10.1007/BF00993737
- 34814 - Coryphaena hippurus: 10.1021/JF020148X
- 228708 - Cynanchum caudatum: 10.1021/NP50006A015
- 55634 - Dioscorea communis: 10.1111/J.1600-0536.1983.TB04435.X
- 7227 - Drosophila melanogaster: 10.1038/S41467-019-11933-Z
- 336123 - Echinocereus triglochidiatus: 10.1016/0378-8741(82)90017-4
- 3039 - Euglena gracilis: 10.3389/FBIOE.2021.662655
- 519541 - Geodia barretti: 10.1021/NP50060A041
- 4232 - Helianthus annuus: 10.1055/S-0028-1097324
- 119431 - Hippospongia communis: 10.1515/BCHM2.1960.322.1.198
- 9606 - Homo sapiens:
- 9606 - Homo sapiens: -
- 3528 - Phytolacca acinosa Roxb.: -
- 3527 - Phytolacca americana: 10.1021/NP50006A015
- 3527 - Phytolacca americana L.: -
- 2547673 - Phytolacca japonica: 10.1021/NP50006A015
- 3888 - Pisum sativum: 10.1007/BF00574236
- 157169 - Ramalina fraxinea: 10.5586/ASBP.1979.002
- 4896 - Schizosaccharomyces pombe: 10.1039/C4MB00346B
- 4081 - Solanum lycopersicum: 10.1093/JAOAC/83.1.89
- 3501 - Urtica dioica: 10.1034/J.1398-9995.2000.00635.X
- 473050 - Urtica urens: 10.1159/000235087
- 30212 - Vespula germanica: 10.1016/0091-6749(90)90162-W
- 29760 - Vitis vinifera: 10.1111/J.1365-2621.2000.TB10254.X
- 569774 - 金线莲: -
在这里通过桑基图来展示出与当前的这个代谢物在我们的BioDeep知识库中具有相关联信息的其他代谢物。在这里进行关联的信息来源主要有:
- PubMed: 来源于PubMed文献库中的文献信息,我们通过自然语言数据挖掘得到的在同一篇文献中被同时提及的相关代谢物列表,这个列表按照代谢物同时出现的文献数量降序排序,取前10个代谢物作为相关研究中关联性很高的代谢物集合展示在桑基图中。
- NCBI Taxonomy: 通过文献数据挖掘,得到的代谢物物种来源信息关联。这个关联信息同样按照出现的次数降序排序,取前10个代谢物作为高关联度的代谢物集合展示在桑吉图上。
- Chemical Taxonomy: 在物质分类上处于同一个分类集合中的其他代谢物
- Chemical Reaction: 在化学反应过程中,存在为当前代谢物相关联的生化反应过程中的反应底物或者反应产物的关联代谢物信息。
点击图上的相关代谢物的名称,可以跳转到相关代谢物的信息页面。
文献列表
- Mengze Ding, Xiaohan Wei, Changshun Liu, Xiaomei Tan. Mahuang Fuzi Xixin decoction alleviates allergic rhinitis by inhibiting NLRP3/Caspase-1/GSDMD-N-mediated pyroptosis.
Journal of ethnopharmacology.
2024 Jun; 327(?):118041. doi:
10.1016/j.jep.2024.118041
. [PMID: 38479543] - Renata de Souza Sampaio, Anita Oliveira Brito Pereira Bezerra Martins, Lucas Yure Santos da Silva, Dra Renata Torres Pessoa, Jaime Ribeiro-Filho, Gyllyandeson de Araújo Delmondes, Cícero Francisco Bezerra Felipe, Irwin Rose Alencar de Menezes, Marta Regina Kerntopf. Topical Antiedematogenic Activity of the Essential Oil of Psidium brownianum Mart. (OEPB) in Murine Ear Edema Models.
Chemistry & biodiversity.
2024 Apr; 21(4):e202400187. doi:
10.1002/cbdv.202400187
. [PMID: 38429232] - S K Johnsy Sugitha, Raja Venkatesan, R Gladis Latha, Alexandre A Vetcher, Bandar Ali Al-Asbahi, Seong-Cheol Kim. A Study on the Antibacterial, Antispasmodic, Antipyretic, and Anti-Inflammatory Activity of ZnO Nanoparticles Using Leaf Extract from Jasminum sambac (L. Aiton).
Molecules (Basel, Switzerland).
2024 Mar; 29(7):. doi:
10.3390/molecules29071464
. [PMID: 38611744] - Arachchige Maheshika Kumari Jayasinghe, Kirinde Gedara Isuru Sandanuwan Kirindage, Sun-Hyung Kim, Seok Lee, Kil-Nam Kim, Eun-A Kim, Soo-Jin Heo, Ginnae Ahn. Leaves and pseudostems extract of Curcuma longa attenuates immunoglobulin E/bovine serum albumin-stimulated bone marrow-derived cultured mast cell activation and passive cutaneous anaphylaxis in BALB/c mice.
Journal of ethnopharmacology.
2024 Mar; 321(?):117529. doi:
10.1016/j.jep.2023.117529
. [PMID: 38042384] - Jian-Li Huang, Yi-Hua Xu, Xin-Wei Yang, Jie Wang, Yu Zhu, Xian-Bo Wu. Jiawei guomin decoction regulates the degranulation of mast cells in atopic dermatitis mice via the HIS/PAR-2 pathway.
Journal of ethnopharmacology.
2024 Mar; 321(?):117485. doi:
10.1016/j.jep.2023.117485
. [PMID: 38008276] - Zoe Köck, Kilian Schnelle, Margherita Persechino, Simon Umbach, Hannes Schihada, Dovile Januliene, Kristian Parey, Steffen Pockes, Peter Kolb, Volker Dötsch, Arne Möller, Daniel Hilger, Frank Bernhard. Cryo-EM structure of cell-free synthesized human histamine 2 receptor/Gs complex in nanodisc environment.
Nature communications.
2024 Feb; 15(1):1831. doi:
10.1038/s41467-024-46096-z
. [PMID: 38418462] - Haifeng Liu, Yaqin Chen, Yilong Hu, Wenrui Zhang, Hui Zhang, Tianli Su, Juan Wang, Zhongqiong Yin, Xinhong Zhao, Xun Zhou, Lixia Li, Yuanfeng Zou, Yuping Fu, Yingying Zhang, Xu Song. Protective effects of an alcoholic extract of Kaempferia galanga L. rhizome on ethanol-induced gastric ulcer in mice.
Journal of ethnopharmacology.
2024 Jan; ?(?):117845. doi:
10.1016/j.jep.2024.117845
. [PMID: 38307355] - Min Bai, Linna Zhao, Mengya Liu, Runfa Li, Yuping Yang, Yugui Zhang, Xiaomei Yuan, Yarong Li, Yongqiang Duan, Yaorong An, Yingxia Cheng. Deciphering the function of Xiangsha-Liujunzi-Tang in enhancing duodenal mucosal barrier by inhibiting MC/Tryptase/PAR-2 signaling pathway in functional dyspepsia rats.
Journal of ethnopharmacology.
2024 Jan; 319(Pt 1):116715. doi:
10.1016/j.jep.2023.116715
. [PMID: 37308030] - Amit Kaushik, Dewasya P Singh, Mridula Sahu, Ashish Kumar, Pratibha, Pallavi Pandey, Manish K Patel, Debabrata Chanda, Velusamy Sundaresan, Daya N Mani, Ashutosh K Shukla. Protective effect of Achyranthes aspera against compound 48/80, histamine and ovalbumin-induced allergic disorders in murine model.
Molecular biology reports.
2024 Jan; 51(1):202. doi:
10.1007/s11033-023-09137-2
. [PMID: 38270668] - Chen Yang, Jing-Wen Zhang, Jin Qi, Bo-Yang Yu. A novel method for evaluating pseudoallergy based on β-hexosaminidase and its application for traditional Chinese medicine injections.
Journal of separation science.
2024 Jan; 47(1):e2300545. doi:
10.1002/jssc.202300545
. [PMID: 38234026] - Simona Principato, Alvaro Romero, Chow-Yang Lee, Kathleen Campbell, Dong-Hwan Choe, Coby Schal, Zachary DeVries. Histamine excretion in common indoor and hematophagous arthropods.
Journal of medical entomology.
2023 11; 60(6):1269-1277. doi:
10.1093/jme/tjad103
. [PMID: 37619246] - Maria Gabriely de Lima Silva, Lucas Yure Santos da Silva, Renata Torres Pessoa, Maria Rayane Correia de Oliveira, Francisco Lucas Alves Batista, Isabel Sousa Alcantara, Anita Oliveira Brito Pereira Bezerra Martins, Jaime Ribeiro-Filho, Henrique Coutinho, Irwin Rose Alencar de Menezes. Antiedematogenic and analgesic activities of abietic acid in mice.
Chemistry & biodiversity.
2023 Oct; ?(?):e202300906. doi:
10.1002/cbdv.202300906
. [PMID: 37795905] - Doaa R I Abdel-Gawad, Marwa A Ibrahim, Usama K Moawad, Shaimaa Kamel, Hossny A El-Banna, Ahmed H El-Banna, Walid Hamdy Hassan, Fatma I Abo El-Ela. Effectiveness of natural biomaterials in the protection and healing of experimentally induced gastric mucosa Ulcer in rats.
Molecular biology reports.
2023 Sep; ?(?):. doi:
10.1007/s11033-023-08776-9
. [PMID: 37741810] - Bruno Anderson Fernandes da Silva, Renata Torres Pessoa, Roger Henrique Sousa da Costa, Maria Rayane Correia de Oliveira, Andreza Guedes Barbosa Ramos, Maria Gabriely de Lima Silva, Lucas Yure Santos da Silva, Cassio Rocha Medeiros, Sloana Giesta Lemos Florencio, Jaime Ribeiro-Filho, Henrique Douglas Melo Coutinho, António Raposo, Sunghoon Yoo, Heesup Han, Irwin Rose Alencar de Menezes, Lucindo José Quintans Júnior. Evaluation of the antiedematogenic and anti-inflammatory properties of Ximenia americana L. (Olacaceae) bark extract in experimental models of inflammation.
Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie.
2023 Aug; 166(?):115249. doi:
10.1016/j.biopha.2023.115249
. [PMID: 37597323] - Johnalyn M Gordon, Richard G Santangelo, Maria A González-Morales, Mark Menechella, Coby Schal, Zachary C DeVries. Spatial distribution of histamine in bed bug-infested homes.
The Science of the total environment.
2023 Jul; 880(?):163180. doi:
10.1016/j.scitotenv.2023.163180
. [PMID: 37001661] - Karelle Kouam Yacine Madjo, Marius Mbiantcha, Linda Zenab Njoya Fagni, Vanessa Mba Matah Marthe, Elvira Azanze Ngoufack, Gonzal Eric Tsafack, Stephanie Flore Djuichou Nguemnang, Carine Flore Adjouzem, Gilbert Ateufack. Gastroprotective and ulcer healing effects of Nauclea pobeguinii (Rubiaceae) on experimentally induced gastric ulcers in male Wistar rats.
Journal of complementary & integrative medicine.
2023 Jun; ?(?):. doi:
10.1515/jcim-2023-0024
. [PMID: 37382892] - Karen Rodríguez-Núñez, Alejandra Cortés-Monroy, Marcela Serey, Yunus Ensari, Mehdi D Davari, Claudia Bernal, Ronny Martinez. Modulating Substrate Specificity of Rhizobium sp. Histamine Dehydrogenase through Protein Engineering for Food Quality Applications.
Molecules (Basel, Switzerland).
2023 Apr; 28(9):. doi:
10.3390/molecules28093748
. [PMID: 37175158] - Si-Jia Liu, Jun-Tong Liu, Ji-Quan Li, Cheng-Cheng Wang, Miao Yu, Zhi-Qiang Guan, Lie Wang, Tie-Ming Ma. [Effect of acupuncture pretreatment of "Quchi"(LI11) and "Xuehai" (SP10) on mast cells and IL-33/ST2 in rats with urticaria].
Zhen ci yan jiu = Acupuncture research.
2023 Apr; 48(4):311-6. doi:
10.13702/j.1000-0607.20211282
. [PMID: 37186193] - Audrey Siew Foong Kow, Leng Wei Khoo, Ji Wei Tan, Faridah Abas, Ming-Tatt Lee, Daud Ahmad Israf, Khozirah Shaari, Chau Ling Tham. Clinacanthus nutans aqueous leaves extract exerts anti-allergic activity in preclinical anaphylactic models via alternative IgG pathway.
Journal of ethnopharmacology.
2023 Mar; 303(?):116003. doi:
10.1016/j.jep.2022.116003
. [PMID: 36464074] - Guizhou Hu, Lu Wang, Xinqi Li, Jin Qi. Rapidly and accurately screening histidine decarboxylase inhibitors from Radix Paeoniae alba using ultrafiltration-high performance liquid chromatography/mass spectrometry combined with enzyme channel blocking and directional enrichment technique.
Journal of chromatography. A.
2023 Feb; 1693(?):463859. doi:
10.1016/j.chroma.2023.463859
. [PMID: 36868086] - Niuniu Yang, Haifeng Shao, Jialin Deng, Yan Yang, Zongxiang Tang, Guanyi Wu, Yanqing Liu. Dictamnine ameliorates chronic itch in DNFB-induced atopic dermatitis mice via inhibiting MrgprA3.
Biochemical pharmacology.
2023 02; 208(?):115368. doi:
10.1016/j.bcp.2022.115368
. [PMID: 36493846] - Meshack Antwi-Adjei, Ernest Obese, Emmanuel Awiintig Adakudugu, Isaac Tabiri Henneh, Robert Peter Biney, Benjamin Aboagye, Benjamin Amoani, Daniel Anokwah, Elvis Ofori Ameyaw. Modulating Effects of the Hydroethanolic Leaf Extract of Persicaria lanigera R. Br. Soják (Polygonaceae) against Acute Inflammation.
TheScientificWorldJournal.
2023; 2023(?):5567410. doi:
10.1155/2023/5567410
. [PMID: 37469933] - Makoto Yasuda, Yukinori Tanaka, Kanan Bando, Shunji Sugawara, Kentaro Mizuta. Lipopolysaccharide Priming Exacerbates Anaphylatoxin C5a-Induced Anaphylaxis in Mice.
Biological & pharmaceutical bulletin.
2023; 46(3):432-439. doi:
10.1248/bpb.b22-00766
. [PMID: 36858572] - Anca D Buzoianu, Aruna Sharma, Dafin F Muresanu, Lianyuan Feng, Hongyun Huang, Lin Chen, Z Ryan Tian, Ala Nozari, José Vicente Lafuente, Lars Wiklund, Hari Shanker Sharma. Nanodelivery of Histamine H3/H4 Receptor Modulators BF-2649 and Clobenpropit with Antibodies to Amyloid Beta Peptide in Combination with Alpha Synuclein Reduces Brain Pathology in Parkinson's Disease.
Advances in neurobiology.
2023; 32(?):55-96. doi:
10.1007/978-3-031-32997-5_2
. [PMID: 37480459] - Haoyun Bai, Zhuoyin Xue, Wen Zhang, Chaohua Feng, Zhenqi Zhou, Shiling Hu, Yongjing Zhang, Qiaohong Qin, Yuanyuan Wu, Xiuzhen Sun, Yuhan Zhou, Nan Wang. α-Asarone alleviates allergic asthma by stabilizing mast cells through inhibition of ERK/JAK2-STAT3 pathway.
BioFactors (Oxford, England).
2023 Jan; 49(1):140-152. doi:
10.1002/biof.1879
. [PMID: 35861676] - Sudip Gaire, Simona Principato, Coby Schal, Zachary C DeVries. Histamine Excretion by the Common Bed Bug (Hemiptera: Cimicidae).
Journal of medical entomology.
2022 11; 59(6):1898-1904. doi:
10.1093/jme/tjac131
. [PMID: 36086827] - Jesper Säfholm, Willem Abma, Lora G Bankova, Joshua A Boyce, Mamdoh Al-Ameri, Ann-Charlotte Orre, Craig E Wheelock, Sven-Erik Dahlén, Mikael Adner. Cysteinyl-maresin 3 inhibits IL-13 induced airway hyperresponsiveness through alternative activation of the CysLT1 receptor.
European journal of pharmacology.
2022 Nov; 934(?):175257. doi:
10.1016/j.ejphar.2022.175257
. [PMID: 36116518] - Xue Mei Fang, Ying Liu, Ji Wang, Xin Zhang, Lei Wang, Li Zhang, Hong Ping Zhang, Lei Liu, Dan Huang, Dan Liu, Ke Deng, Feng Ming Luo, Hua Jing Wan, Wei Min Li, Gang Wang, Brian G Oliver. Endogenous Adenosine 5'-Monophosphate, But Not Acetylcholine or Histamine, is Associated with Asthma Control, Quality of Life, and Exacerbations.
Lung.
2022 10; 200(5):579-589. doi:
10.1007/s00408-022-00570-x
. [PMID: 36156139] - Yue Ma, Shu Li, Hongxi Yang, Yuan Zhang, Huiping Li, Lihui Zhou, Jing Lin, Yanchun Chen, Yabing Hou, Xinyu Zhang, Tong Liu, Xin Zhou, Yaogang Wang. Acid suppressants use and risk of atherosclerotic cardiovascular disease in middle-aged and older adults.
Atherosclerosis.
2022 10; 358(?):47-54. doi:
10.1016/j.atherosclerosis.2022.09.001
. [PMID: 36113328] - Menglu Yang, Haakon K Fjærvoll, Ketil A Fjærvoll, Nicholas H Wang, Tor P Utheim, Charles N Serhan, Darlene A Dartt. Sex-based differences in conjunctival goblet cell responses to pro-inflammatory and pro-resolving mediators.
Scientific reports.
2022 09; 12(1):16305. doi:
10.1038/s41598-022-20177-9
. [PMID: 36175572] - Wen Yan Huang, Sang Hoon Lee, Seong Ju Oh, Hyeock Yoon, Jeong Hoon Pan, Inhye Jeong, Mi Jeong Kim, Bok Kyung Han, Jae Kyeom Kim, Eui-Cheol Shin, Young Jun Kim. Canavalia gladiata Pod Extract Mitigates Ovalbumin-Induced Asthma Onset in Male BALB/c Mice via Suppression of MAPK.
Molecules (Basel, Switzerland).
2022 Sep; 27(19):. doi:
10.3390/molecules27196317
. [PMID: 36234854] - Lindaiane B R Dantas, Isabel S Alcântara, Cícero Pedro S Júnior, Maria Rayane C de Oliveira, Anita O B P B Martins, Ticiano M Dantas, Jaime Ribeiro-Filho, Henrique Douglas M Coutinho, Fabíolla R S Passos, Lucindo J Quintans-Júnior, Jackson Roberto G S Almeida, Natália Cruz-Martins, Bonglee Kim, Irwin Rose Alencar de Menezes. In vivo and in silico anti-inflammatory properties of the sesquiterpene valencene.
Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie.
2022 Sep; 153(?):113478. doi:
10.1016/j.biopha.2022.113478
. [PMID: 36076580] - Hye Jin Kim, Hyun-Kyung Song, Sun Haeng Park, Seol Jang, Ki-Sun Park, Kwang Hoon Song, Sang Kook Lee, Taesoo Kim. Terminalia chebula Retz. extract ameliorates the symptoms of atopic dermatitis by regulating anti-inflammatory factors in vivo and suppressing STAT1/3 and NF-ĸB signaling in vitro.
Phytomedicine : international journal of phytotherapy and phytopharmacology.
2022 Sep; 104(?):154318. doi:
10.1016/j.phymed.2022.154318
. [PMID: 35830757] - Makoto Matsushita, Kazutoshi Fujita, Koji Hatano, Takuji Hayashi, Hisako Kayama, Daisuke Motooka, Hiroaki Hase, Akinaru Yamamoto, Toshihiko Uemura, Gaku Yamamichi, Eisuke Tomiyama, Yoko Koh, Taigo Kato, Atsunari Kawashima, Motohide Uemura, Satoshi Nojima, Ryoichi Imamura, Aysha Mubeen, George J Netto, Kazutake Tsujikawa, Shota Nakamura, Kiyoshi Takeda, Eiichi Morii, Norio Nonomura. High-fat diet promotes prostate cancer growth through histamine signaling.
International journal of cancer.
2022 08; 151(4):623-636. doi:
10.1002/ijc.34028
. [PMID: 35403732] - Jing He, Wei Mao, Wenhui Chen, Wei Shen, Qiaolian Duan, Hai-Wei Shi, Li Tan, Jingyu Kuang, Hian Kee Lee, Sheng Tang. Three-Dimensional Printed Microdevice to Enhance Headspace Microextraction for Enrichment of Histamine in Milk.
Analytical chemistry.
2022 08; 94(30):10595-10600. doi:
10.1021/acs.analchem.2c01768
. [PMID: 35857349] - Ahmed A Ishola, Tanuja Joshi, Suliat I Abdulai, Habibu Tijjani, Hemlata Pundir, Subhash Chandra. Molecular basis for the repurposing of histamine H2-receptor antagonist to treat COVID-19.
Journal of biomolecular structure & dynamics.
2022 08; 40(13):5785-5802. doi:
10.1080/07391102.2021.1873191
. [PMID: 33491579] - Thomas Boehm, Marion Alix, Karin Petroczi, Serhii Vakal, Elisabeth Gludovacz, Nicole Borth, Tiina A Salminen, Bernd Jilma. Nafamostat is a Potent Human Diamine Oxidase Inhibitor Possibly Augmenting Hypersensitivity Reactions during Nafamostat Administration.
The Journal of pharmacology and experimental therapeutics.
2022 08; 382(2):113-122. doi:
10.1124/jpet.122.001248
. [PMID: 35688477] - Remo Poto, Vincenzo Patella, Gjada Criscuolo, Gianni Marone, Enrico Coscioni, Gilda Varricchi. Autoantibodies to IgE can induce the release of proinflammatory and vasoactive mediators from human cardiac mast cells.
Clinical and experimental medicine.
2022 Jul; ?(?):. doi:
10.1007/s10238-022-00861-w
. [PMID: 35879625] - Sherihan Salaheldin Abdelhamid Ibrahim, Sarah A Abd El-Aal, Ahmed M Reda, Samar El Achy, Yasmine Shahine. Anti-neoplastic action of Cimetidine/Vitamin C on histamine and the PI3K/AKT/mTOR pathway in Ehrlich breast cancer.
Scientific reports.
2022 07; 12(1):11514. doi:
10.1038/s41598-022-15551-6
. [PMID: 35798765] - Shunsuke Takahagi, Mayumi Okamoto, Kaori Ishii, Akio Tanaka, Hayato Mizuno, Naoe Harada, Nozomi Yanagida, Michihiro Hide. Clinical and histological characterization of transient dermal pain triggered by sweating stimuli.
Allergology international : official journal of the Japanese Society of Allergology.
2022 Jul; 71(3):362-372. doi:
10.1016/j.alit.2022.01.003
. [PMID: 35272957] - Mohammad Younis, Javeid Iqbal, Shafi Muhammad, Syed Umer Jan, Abdul Jabbar, - Mehjabeen, Abdul Qadir, Nagina Soomer Khan, Muhammad Arslan, Pervaiz Akhtar Shah, Zahid Khan. Evaluation of anti-inflammatory and analgesic effects of Hertia intermedia (Boiss.) Kuntze extract.
Pakistan journal of pharmaceutical sciences.
2022 Jul; 35(4(Special)):1281-1286. doi:
"
. [PMID: 36218108] - Lanfranco Pellesi, Basit Ali Chaudhry, Anne Luise Haulund Vollesen, Agneta Henriette Snoer, Katrine Baumann, Per Stahl Skov, Rigmor Højland Jensen, Messoud Ashina. PACAP38- and VIP-induced cluster headache attacks are not associated with changes of plasma CGRP or markers of mast cell activation.
Cephalalgia : an international journal of headache.
2022 07; 42(8):687-695. doi:
10.1177/03331024211056248
. [PMID: 34822741] - Kamil Mika, Małgorzata Szafarz, Monika Zadrożna, Barbara Nowak, Marek Bednarski, Katarzyna Szczepańska, Krzysztof Pociecha, Monika Kubacka, Noemi Nicosia, Izabela Juda, Katarzyna Kieć-Kononowicz, Magdalena Kotańska. KSK-74: Dual Histamine H3 and Sigma-2 Receptor Ligand with Anti-Obesity Potential.
International journal of molecular sciences.
2022 Jun; 23(13):. doi:
10.3390/ijms23137011
. [PMID: 35806019] - Siamak Beheshti, Mohammad Wasil Wesal. Anticonvulsant activity of the histamine H3 receptor inverse agonist pitolisant in an electrical kindling model of epilepsy.
Neuroscience letters.
2022 06; 782(?):136685. doi:
10.1016/j.neulet.2022.136685
. [PMID: 35598693] - Yingwei Gao, Ruining Ma, Weiji Weng, Heng Zhang, Yingping Wang, Rongjun Guo, Xiaokun Gu, Yang Yang, Fan Yang, Aiwu Zhou, Jinke Cheng, Zhe-Yu Chen, Michael X Zhu, Yong Li. TRPV1 SUMOylation suppresses itch by inhibiting TRPV1 interaction with H1 receptors.
Cell reports.
2022 06; 39(11):110972. doi:
10.1016/j.celrep.2022.110972
. [PMID: 35705043] - Lijuan Tian, Yue Liu, Yuda Fei, Hong Lv, Fuxia Yan, Lihuan Li, Jia Shi. Effect of Clemastine Fumarate on Perioperative Hemodynamic Instability Mediated by Anaphylaxis During Cardiopulmonary Bypass Surgery.
Medical science monitor : international medical journal of experimental and clinical research.
2022 Jun; 28(?):e936367. doi:
10.12659/msm.936367
. [PMID: 35651299] - Elena García-Martín, Santiago Navarro-Muñoz, Gemma Amo, Christopher Rodriguez, Mercedes Serrador, Hortensia Alonso-Navarro, Marisol Calleja, Laura Turpín-Fenoll, Marta Recio-Bermejo, Rafael García-Ruiz, Jorge Millán-Pascual, Francisco Navacerrada, José Francisco Plaza-Nieto, Esteban García-Albea, José A G Agúndez, Félix Javier Jiménez-Jiménez. Increased serum diamine oxidase activity in nonallergic patients with migraine.
European journal of clinical investigation.
2022 Jun; 52(6):e13757. doi:
10.1111/eci.13757
. [PMID: 35113457] - Wanlin Zhong, Jiaqing Zhu, Juanjuan Yi, Changcheng Zhao, Yanling Shi, Qiaozhen Kang, Jinyong Huang, Limin Hao, Jike Lu. Biochemical analysis reveals the systematic response of motion sickness mice to ginger (Zingiber officinale) extract's amelioration effect.
Journal of ethnopharmacology.
2022 May; 290(?):115077. doi:
10.1016/j.jep.2022.115077
. [PMID: 35131339] - Huan Yang, Sam J George, Dane A Thompson, Harold A Silverman, Téa Tsaava, Aisling Tynan, Valentin A Pavlov, Eric H Chang, Ulf Andersson, Michael Brines, Sangeeta S Chavan, Kevin J Tracey. Famotidine activates the vagus nerve inflammatory reflex to attenuate cytokine storm.
Molecular medicine (Cambridge, Mass.).
2022 05; 28(1):57. doi:
10.1186/s10020-022-00483-8
. [PMID: 35578169] - Wolfgang J Schnedl, Nathalie Meier-Allard, Simon Michaelis, Sonja Lackner, Dietmar Enko, Harald Mangge, Sandra J Holasek. Serum Diamine Oxidase Values, Indicating Histamine Intolerance, Influence Lactose Tolerance Breath Test Results.
Nutrients.
2022 May; 14(10):. doi:
10.3390/nu14102026
. [PMID: 35631167] - Gianluca Bini, Eli B Cohen, Ludovica Chiavaccini, Kristen M Messenger, Kate M Bailey. Intravenous dexmedetomidine, morphine, or a combination can result in gallbladder wall thickening; with no significant association with plasma histamine concentrations.
Veterinary radiology & ultrasound : the official journal of the American College of Veterinary Radiology and the International Veterinary Radiology Association.
2022 May; 63(3):319-327. doi:
10.1111/vru.13056
. [PMID: 35006624] - Philip Steiner, Elisabeth Arlt, Ingrid Boekhoff, Thomas Gudermann, Susanna Zierler. Two-Pore Channels Regulate Inter-Organellar Ca2+ Homeostasis in Immune Cells.
Cells.
2022 04; 11(9):. doi:
10.3390/cells11091465
. [PMID: 35563771] - Sònia Sánchez-Pérez, Oriol Comas-Basté, Adriana Duelo, M Teresa Veciana-Nogués, Mercedes Berlanga, M Luz Latorre-Moratalla, M Carmen Vidal-Carou. Intestinal Dysbiosis in Patients with Histamine Intolerance.
Nutrients.
2022 Apr; 14(9):. doi:
10.3390/nu14091774
. [PMID: 35565742] - Elisabeth Gludovacz, Marlene Resch, Kornelia Schuetzenberger, Karin Petroczi, Daniel Maresch, Stefan Hofbauer, Bernd Jilma, Nicole Borth, Thomas Boehm. Glycosylation site Asn168 is important for slow in vivo clearance of recombinant human diamine oxidase heparin-binding motif mutants.
Glycobiology.
2022 04; 32(5):404-413. doi:
10.1093/glycob/cwab122
. [PMID: 35088086] - Yuanfeng Shen, Entezar Mehrabi Nasab, Fatemeh Hassanpour, Seyyed Shamsadin Athari. The Effects of Combined Therapeutic Protocol on Allergic Rhinitis Symptoms and Molecular Determinants.
Iranian journal of allergy, asthma, and immunology.
2022 Apr; 21(2):141-150. doi:
10.18502/ijaai.v21i2.9222
. [PMID: 35490268] - Valentina Cucca, Giuseppe A Ramirez, Patrizia Pignatti, Chiara Asperti, Marco Russo, Emanuel Della-Torre, Daniela Breda, Samuele E Burastero, Lorenzo Dagna, Mona-Rita Yacoub. Basal Serum Diamine Oxidase Levels as a Biomarker of Histamine Intolerance: A Retrospective Cohort Study.
Nutrients.
2022 Apr; 14(7):. doi:
10.3390/nu14071513
. [PMID: 35406126] - Matthias Karer, Marlene Rager-Resch, Teresa Haider, Karin Petroczi, Elisabeth Gludovacz, Nicole Borth, Bernd Jilma, Thomas Boehm. Diamine oxidase knockout mice are not hypersensitive to orally or subcutaneously administered histamine.
Inflammation research : official journal of the European Histamine Research Society ... [et al.].
2022 Apr; 71(4):497-511. doi:
10.1007/s00011-022-01558-2
. [PMID: 35303133] - Baoming Tian, Qin Zhao, Haoyong Xing, Jing Xu, Zhenhao Li, Hua Zhu, Kai Yang, Peilong Sun, Ming Cai. Gastroprotective Effects of Ganoderma lucidum Polysaccharides with Different Molecular Weights on Ethanol-Induced Acute Gastric Injury in Rats.
Nutrients.
2022 Apr; 14(7):. doi:
10.3390/nu14071476
. [PMID: 35406089] - Lina G Mettler, Karin Brecht, Veronika Butterweck, Henriette E Meyer Zu Schwabedissen. Impact of the clinically approved Petasites hybridus extract Ze 339 on intestinal mechanisms involved in the handling of histamine.
Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie.
2022 Apr; 148(?):112698. doi:
10.1016/j.biopha.2022.112698
. [PMID: 35149385] - Qiaoqiao Luo, Ruoyu Shi, Yutong Liu, Libo Huang, Wei Chen, Chengtao Wang. Histamine Causes Pyroptosis of Liver by Regulating Gut-Liver Axis in Mice.
International journal of molecular sciences.
2022 Mar; 23(7):. doi:
10.3390/ijms23073710
. [PMID: 35409071] - Nafiseh Ghazanfari, Aren van Waarde, Janine Doorduin, Jürgen W A Sijbesma, Maria Kominia, Martin Koelewijn, Khaled Attia, Antoon T M Willemsen, Ton J Visser, André Heeres, Rudi A J O Dierckx, Erik F J de Vries, Philip H Elsinga. Pharmacokinetic Modeling of [11C]GSK-189254, PET Tracer Targeting H3 Receptors, in Rat Brain.
Molecular pharmaceutics.
2022 03; 19(3):918-928. doi:
10.1021/acs.molpharmaceut.1c00889
. [PMID: 35170965] - Anita Kohli-Pamnani, Kristen Zapata, Tiffany Gibson, Pamela L Kwittken. Coronavirus disease 2019 messenger RNA vaccine skin tests and serum histamine levels in allergic reactions.
Annals of allergy, asthma & immunology : official publication of the American College of Allergy, Asthma, & Immunology.
2022 03; 128(3):339. doi:
10.1016/j.anai.2021.12.014
. [PMID: 35216745] - Mylène Pouliot, Jeanine Bussiere, Aldo Coppi, Kristen Holbrook, Amy Shelton, Samantha Sparapani, Jonathan Maher, Tanja S Zabka, Emmanuel Boulay, Simon Authier. Polysorbate 80-Induced Anaphylactoid Reaction and the Effects on Cardiovascular Function: Dose Threshold and Species Comparison.
International journal of toxicology.
2022 Mar; 41(2):99-107. doi:
10.1177/10915818211072780
. [PMID: 35245984] - Kristen Holbrook, Dina Andrews, Wes Sutherland, Aldo Coppi, Shane Barry, Max Escamilla, Simon Authier, Loїs Miraucourt, Fang Xie, Brooke Rock, Jeanine Bussiere. Threshold for Anaphylactoid Reaction to Polysorbate 80 in Canines.
International journal of toxicology.
2022 Mar; 41(2):89-98. doi:
10.1177/10915818211063478
. [PMID: 35337210] - Jianing Li, Shuo Li, Ling Yu, Jin Wei, Hongwei Sun, Caixia Yang, Hongyu Tan. Identification of Preoperative Serum Metabolites Associated With Postoperative Opioid Consumption in Gastric Cancer Patients by Extreme Phenotype Sampling.
Pain physician.
2022 03; 25(2):E385-E396. doi:
. [PMID: 35322994]
- Angela Strain. Angioedema of the tongue due to haloperidol.
The American journal of emergency medicine.
2022 Mar; 53(?):284.e5-284.e6. doi:
10.1016/j.ajem.2021.09.039
. [PMID: 34620528] - Yasuyuki Kimura, Keisuke Takahata, Toshiharu Shimazaki, Soichiro Kitamura, Chie Seki, Yoko Ikoma, Masanori Ichise, Kazunori Kawamura, Makiko Yamada, Ming-Rong Zhang, Makoto Higuchi, Izumi Nishino, Tetsuya Suhara. Pharmacokinetic and pharmacodynamic assessment of histamine H3 receptor occupancy by enerisant: a human PET study with a novel H3 binding ligand, [11C]TASP457.
European journal of nuclear medicine and molecular imaging.
2022 03; 49(4):1127-1135. doi:
10.1007/s00259-021-05571-1
. [PMID: 34651222] - Pan Li, Binbin Zhou, Meihong Ge, Xianghong Jing, Liangbao Yang. Metal coordination induced SERS nanoprobe for sensitive and selective detection of histamine in serum.
Talanta.
2022 Jan; 237(?):122913. doi:
10.1016/j.talanta.2021.122913
. [PMID: 34736650] - Baoling Zhu, Zhiwei Zhang, Xiangfei Wang, Weiwei Zhang, Hongyu Shi, Zhifeng Song, Suling Ding, Xiangdong Yang. Abnormal histidine metabolism promotes macrophage lipid accumulation under Ox-LDL condition.
Biochemical and biophysical research communications.
2022 01; 588(?):161-167. doi:
10.1016/j.bbrc.2021.12.069
. [PMID: 34954523] - Hongzhong Li, Yi Xiao, Qin Li, Jun Yao, Xiangliang Yuan, Yuan Zhang, Xuedong Yin, Yohei Saito, Huihui Fan, Ping Li, Wen-Ling Kuo, Angela Halpin, Don L Gibbons, Hideo Yagita, Zhongming Zhao, Da Pang, Guosheng Ren, Cassian Yee, J Jack Lee, Dihua Yu. The allergy mediator histamine confers resistance to immunotherapy in cancer patients via activation of the macrophage histamine receptor H1.
Cancer cell.
2022 01; 40(1):36-52.e9. doi:
10.1016/j.ccell.2021.11.002
. [PMID: 34822775] - Remo Poto, Isabella Quinti, Gianni Marone, Maurizio Taglialatela, Amato de Paulis, Vincenzo Casolaro, Gilda Varricchi. IgG Autoantibodies Against IgE from Atopic Dermatitis Can Induce the Release of Cytokines and Proinflammatory Mediators from Basophils and Mast Cells.
Frontiers in immunology.
2022; 13(?):880412. doi:
10.3389/fimmu.2022.880412
. [PMID: 35711458] - Pablo Eliasib Martínez-Gopar, Marian Jesabel Pérez-Rodríguez, Gabriela Rodríguez-Manzo, René Garduño-Gutierrez, Luis Tristán-López, Quetzalli Denisse Angeles-López, Claudia González-Espinosa, Francisca Pérez-Severiano. Mast cells and histamine are involved in the neuronal damage observed in a quinolinic acid-induced model of Huntington's disease.
Journal of neurochemistry.
2022 01; 160(2):256-270. doi:
10.1111/jnc.15527
. [PMID: 34665461] - Lars Malm. Reduced ability to produce reflex-evoked neurogenic inflammation, a sign of decreased defense against COVID-19 infection?.
Skin research and technology : official journal of International Society for Bioengineering and the Skin (ISBS) [and] International Society for Digital Imaging of Skin (ISDIS) [and] International Society for Skin Imaging (ISSI).
2022 Jan; 28(1):54-57. doi:
10.1111/srt.13089
. [PMID: 34618975] - Paul Glynne, Natasha Tahmasebi, Vanya Gant, Rajeev Gupta. Long COVID following mild SARS-CoV-2 infection: characteristic T cell alterations and response to antihistamines.
Journal of investigative medicine : the official publication of the American Federation for Clinical Research.
2022 01; 70(1):61-67. doi:
10.1136/jim-2021-002051
. [PMID: 34611034] - Moein Mohseni, Vahid Raissi, Yasamin Sharifan, Kimia Barikro, Sasan Amiri, Maedeh Sadat Mohseni, Farid Raeisi, Kimia Masoumi, Sina Khodakarami, Omid Raiesi. Therapeutic Status of Famotidine in COVID-19 Patients: A Review.
Infectious disorders drug targets.
2022; 22(3):e070122200096. doi:
10.2174/1871526522666220107125511
. [PMID: 34994318] - Xiang Lu Zhou, Le Le Chen, Jia Feng Wang. Study on the antipruritic mechanism of Zanthoxylum bungeanum and Zanthoxylum schinifolium volatile oil on chronic eczema based on H1R and PAR-2 mediated GRPR pathway.
Allergologia et immunopathologia.
2022; 50(4):83-96. doi:
10.15586/aei.v50i4.486
. [PMID: 35789407] - Lin Lin, Alex Mabou Tagne, Erica N Squire, Hye-Lim Lee, Yannick Fotio, Jade Ramirez, Mimi Zheng, Alexa Torrens, Faizy Ahmed, Raul Ramos, Maksim V Plikus, Daniele Piomelli. Diet-Induced Obesity Disrupts Histamine-Dependent Oleoylethanolamide Signaling in the Mouse Liver.
Pharmacology.
2022; 107(7-8):423-432. doi:
10.1159/000524753
. [PMID: 35691287] - Jiamin Gao, Senlin Ma, Siyuan Xu, Mingquan Chen. The Association of Long-Term Use of Proton Pump Inhibitors and Histamine H2 Receptor Antagonists with Clinical Complications in Patients with Severe Sepsis.
Disease markers.
2022; 2022(?):4093595. doi:
10.1155/2022/4093595
. [PMID: 35801003] - Lin Yang, Yi Wang, Zhong Chen. Central histaminergic signalling, neural excitability and epilepsy.
British journal of pharmacology.
2022 01; 179(1):3-22. doi:
10.1111/bph.15692
. [PMID: 34599508] - Jin Kyeong Choi, Jun-Young Park, Soyoung Lee, Young-Ae Choi, Song Kwon, Min Jun Shin, Hui-Suk Yun, Yong Hyun Jang, Jinjoo Kang, Namkyung Kim, Dongwoo Khang, Sang-Hyun Kim. Greater Plasma Protein Adsorption on Mesoporous Silica Nanoparticles Aggravates Atopic Dermatitis.
International journal of nanomedicine.
2022; 17(?):4599-4617. doi:
10.2147/ijn.s383324
. [PMID: 36199478] - Hui-Ling Chiang, Chen-Hung Chen, Malcolm Koo, Tzung-Yi Tsai, Cheng-Han Wu. Predictors of Response to Oral Medications and Low-Histamine Diet in Patients with Chronic Urticaria.
Journal of immunology research.
2022; 2022(?):5243825. doi:
10.1155/2022/5243825
. [PMID: 35242884] - Seiya Masukane, Teruaki Matsui, Noriko Tokumo, Atsushi Makino, Katsumasa Kitamura, Yoshihiro Takasato, Shiro Sugiura, Komei Ito. [COMPARISON OF WHEAL SIZE INDUCED BY BIFURCATED NEEDLE® AND SMARTPRACTICE® PRICK LANCET].
Arerugi = [Allergy].
2022; 71(5):389-396. doi:
10.15036/arerugi.71.389
. [PMID: 35831164] - Seiji Nishino, Noriaki Sakai, Naoya Nishino, Taisuke Ono. Brain Mast Cells in Sleep and Behavioral Regulation.
Current topics in behavioral neurosciences.
2022; 59(?):427-446. doi:
10.1007/7854_2022_359
. [PMID: 35711025] - Natalia Karolina Kordulewska, Justyna Topa, Robert Stryiński, Beata Jarmołowska. Osthole Inhibits Expression of Genes Associated with Toll-like Receptor 2 Signaling Pathway in an Organotypic 3D Skin Model of Human Epidermis with Atopic Dermatitis.
Cells.
2021 12; 11(1):. doi:
10.3390/cells11010088
. [PMID: 35011650] - Zhe Zhang, Jianhao Pan, Tao Zhu, Nathalie Malewicz, Kaihe Ye, Jianhui Rong, Yong Luo, Yongli Situ, Alexei Verkhratsky, Yong Wang, Jianhao Zhao, Dan Tang, Hong Nie. Oxymatrine screened from Sophora flavescens by cell membrane immobilized chromatography relieves histamine-independent itch.
The Journal of pharmacy and pharmacology.
2021 Dec; 73(12):1617-1629. doi:
10.1093/jpp/rgab145
. [PMID: 34718677] - Thomas Boehm, Robin Ristl, Saijo Joseph, Karin Petroczi, Kristaps Klavins, Peter Valent, Bernd Jilma. Metabolome and lipidome derangements during a severe mast cell activation event in a patient with indolent systemic mastocytosis.
The Journal of allergy and clinical immunology.
2021 12; 148(6):1533-1544. doi:
10.1016/j.jaci.2021.03.043
. [PMID: 33864889] - Qian Li, Xinlei Tang, Jianghao Xu, Xingyuan Ren, Rui Wang, Songsong Jiang. Study on alleviation effect of stachyose on food allergy through TLR2/NF-κB signal pathway in a mouse model.
Life sciences.
2021 Dec; 286(?):120038. doi:
10.1016/j.lfs.2021.120038
. [PMID: 34653427] - Taylor L Curley, Douglas H Thamm, Sam W Johnson, Pedro Boscan. Effects of morphine on histamine release from two cell lines of canine mast cell tumor and on plasma histamine concentrations in dogs with cutaneous mast cell tumor.
American journal of veterinary research.
2021 Nov; 82(12):1013-1018. doi:
10.2460/ajvr.20.08.0137
. [PMID: 34714766] - Yue-Yao Feng, Yu-Jie Zhang, Yong-Sheng Chang. [Histamine stimulates thermogenesis of brown and beige fat].
Sheng li xue bao : [Acta physiologica Sinica].
2021 Oct; 73(5):821-827. doi:
"
. [PMID: 34708239] - Roberta Verta, Maura Gurrieri, Sara Borga, Elisa Benetti, Paolo Pollicino, Roberta Cavalli, Robin L Thurmond, Paul L Chazot, Alessandro Pini, Arianna Carolina Rosa, Cristina Grange. The Interplay between Histamine H4 Receptor and the Kidney Function: The Lesson from H4 Receptor Knockout Mice.
Biomolecules.
2021 10; 11(10):. doi:
10.3390/biom11101517
. [PMID: 34680152] - Yangyang Yu, Lu Li, Yujuan Xu, Kejing An, Qiao Shi, Yuanshan Yu, Zhenlin Xu. Evaluation of the Relationship among Biogenic Amines, Nitrite and Microbial Diversity in Fermented Mustard.
Molecules (Basel, Switzerland).
2021 Oct; 26(20):. doi:
10.3390/molecules26206173
. [PMID: 34684752] - Sotirios Kakavas, Dimitrios Karayiannis, Zafeiria Mastora. The Complex Interplay between Immunonutrition, Mast Cells, and Histamine Signaling in COVID-19.
Nutrients.
2021 Sep; 13(10):. doi:
10.3390/nu13103458
. [PMID: 34684460] - Carmen Herranz, Francesca Mateo, Alexandra Baiges, Gorka Ruiz de Garibay, Alexandra Junza, Simon R Johnson, Suzanne Miller, Nadia García, Jordi Capellades, Antonio Gómez, August Vidal, Luis Palomero, Roderic Espín, Ana I Extremera, Eline Blommaert, Eva Revilla-López, Berta Saez, Susana Gómez-Ollés, Julio Ancochea, Claudia Valenzuela, Tamara Alonso, Piedad Ussetti, Rosalía Laporta, Antoni Xaubet, José A Rodríguez-Portal, Ana Montes-Worboys, Carlos Machahua, Jaume Bordas, Javier A Menendez, Josep M Cruzado, Roser Guiteras, Christophe Bontoux, Concettina La Motta, Aleix Noguera-Castells, Mario Mancino, Enrique Lastra, Raúl Rigo-Bonnin, Jose C Perales, Francesc Viñals, Alvaro Lahiguera, Xiaohu Zhang, Daniel Cuadras, Coline H M van Moorsel, Joanne J van der Vis, Marian J R Quanjel, Harilaos Filippakis, Razq Hakem, Chiara Gorrini, Marc Ferrer, Aslihan Ugun-Klusek, Ellen Billett, Elżbieta Radzikowska, Álvaro Casanova, María Molina-Molina, Antonio Roman, Oscar Yanes, Miquel A Pujana. Histamine signaling and metabolism identify potential biomarkers and therapies for lymphangioleiomyomatosis.
EMBO molecular medicine.
2021 09; 13(9):e13929. doi:
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. [PMID: 34378323] - Ritsuko Kohno, David S Cannom, Brian Olshansky, Shijun Cindy Xi, Darshan Krishnappa, Wayne O Adkisson, Faye L Norby, Artur Fedorowski, David G Benditt. Mast Cell Activation Disorder and Postural Orthostatic Tachycardia Syndrome: A Clinical Association.
Journal of the American Heart Association.
2021 09; 10(17):e021002. doi:
10.1161/jaha.121.021002
. [PMID: 34398691] - Raffi Tachdjian, Douglas T Johnston. Angioedema: differential diagnosis and acute management.
Postgraduate medicine.
2021 Sep; 133(7):765-770. doi:
10.1080/00325481.2021.1945219
. [PMID: 34134576] - Satoshi Tanaka, Kazuyuki Furuta. Roles of IgE and Histamine in Mast Cell Maturation.
Cells.
2021 08; 10(8):. doi:
10.3390/cells10082170
. [PMID: 34440939] - Neha Khandelwal, Minhaj Shaikh, Amol Mhetre, Shubham Singh, Theja Sajeevan, Alaumy Joshi, Kithiganahalli Narayanaswamy Balaji, Harinath Chakrapani, Siddhesh S Kamat. Fatty acid chain length drives lysophosphatidylserine-dependent immunological outputs.
Cell chemical biology.
2021 08; 28(8):1169-1179.e6. doi:
10.1016/j.chembiol.2021.01.008
. [PMID: 33571455] - Zhanfeng Yan, Lili Liu, Jingjing Yuan, Lulu Jiao, Mo Zhou, Jinfeng Liu, Xiaohui Wen, Siming Liu, Pengpeng Hao, Jianhua Liu, Wei Wu. Yiqi Jiemin decoction alleviates allergic rhinitis in a guinea pig model by suppressing inflammation, restoring Th1/Th2 balance, and improving cellular metabolism.
Aging.
2021 07; 13(14):18423-18441. doi:
10.18632/aging.203292
. [PMID: 34315133] - Weiyue Zhang, Yan Cao, Si Chen, Feng Li, Xiaofei Chen, Yue Liu. Integrated metabolomics and network pharmacology approach to exploring the potential mechanism of tianxiang capsule for treating motion sickness.
Journal of ethnopharmacology.
2021 Jul; 275(?):114107. doi:
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