5-Hydroxyindoleacetic acid (BioDeep_00000001263)
Secondary id: BioDeep_00000397977, BioDeep_00000400111, BioDeep_00000405361
natural product human metabolite PANOMIX_OTCML-2023 Endogenous blood metabolite BioNovoGene_Lab2019 Volatile Flavor Compounds
代谢物信息卡片
化学式: C10H9NO3 (191.0582404)
中文名称: 5-羟吲哚乙酸, (5-羟基-1H-吲哚-3-基)乙酸, 5-羟基吲哚-3-乙酸, 5-羟吲哚乙酸(5-HIAA)
谱图信息:
最多检出来源 Homo sapiens(feces) 0.66%
Last reviewed on 2024-07-17.
Cite this Page
5-Hydroxyindoleacetic acid. BioDeep Database v3. PANOMIX ltd, a top metabolomics service provider from China.
https://query.biodeep.cn/s/5-hydroxyindoleacetic_acid (retrieved
2024-11-22) (BioDeep RN: BioDeep_00000001263). Licensed
under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).
分子结构信息
SMILES: c1(ccc2c(c1)c(c[nH]2)CC(=O)O)O
InChI: InChI=1S/C10H9NO3/c12-7-1-2-9-8(4-7)6(5-11-9)3-10(13)14/h1-2,4-5,11-12H,3H2,(H,13,14)
描述信息
5-Hydroxyindoleacetic acid, also known as 5-hydroxyindole-3-acetate or 5-HIAA, belongs to the class of organic compounds known as indole-3-acetic acid derivatives. Indole-3-acetic acid derivatives are compounds containing an acetic acid (or a derivative) linked to the C3 carbon atom of an indole. 5-Hydroxyindoleacetic acid exists in all living organisms, ranging from bacteria to humans. In humans, 5-hydroxyindoleacetic acid is a breakdown product of serotonin that is excreted in the urine and it also participates in a number of enzymatic reactions. 5-hydroxyindoleacetic acid can be biosynthesized from 5-hydroxyindoleacetaldehyde; which is catalyzed by the mitochondrial enzyme aldehyde dehydrogenase. In addition, 5-hydroxyindoleacetic acid and S-adenosylmethionine can be converted into 5-methoxyindoleacetate and S-adenosylhomocysteine through its interaction with the enzyme acetylserotonin O-methyltransferase. 5-Hydroxyindoleacetic acid is also involved in the metabolism of tryptophan. 5-Hydroxyindoleacetic acid has been found to be associated with several human diseases such as brunner syndrome, friedreichs ataxia, schizophrenia, and olivopontocerebral atrophy; 5-hydroxyindoleacetic acid has also been linked to the inborn metabolic disorder sepiapterin reductase deficiency. Elevated levels of 5-hydroxyindoleacetic acid in urine (>20 uM) are indicative of appendicitis and gastroenteritis (PMID: 11462886). Serotonin and 5-Hydroxyindoleacetic acid are produced in excess amounts by carcinoid tumors, and levels of these substances may be measured in the urine to test for carcinoid tumors (NCI). 5-Hydroxyindoleacetic acid has also been found to be a product of human gut microbiota.
5-Hydroxyindoleacetic acid (5-HIAA) is the main metabolite of serotonin in the human body. In chemical analysis of urine samples, 5-HIAA is used to determine the bodys levels of serotonin. 5-Hydroxyindole-3-acetic acid is found in many foods, some of which are pitanga, dandelion, coconut, and white cabbage.
5-Hydroxyindole-3-acetic acid is the main metabolite of serotonin or metanephrines, which can be used as a biomarker of neuroendocrine tumors.
同义名列表
32 个代谢物同义名
2-(5-hydroxy-1H-indol-3-yl)acetic acid; 5-Hydroxy-1H-indole-3-acetic acid; Acid, 5-hydroxyindolamine acetic; Acetic acid, 5-hydroxyindolamine; 5 Hydroxyindolamine acetic acid; 5-Hydroxyindolamine acetic acid; 5-Hydroxy-indole-3-acetic acid; 5-Hydroxyindol-3-ylacetic acid; Acid, 5-hydroxy-3-indoleacetic; 5-Hydroxy-3-indoleacetic acid; 5 Hydroxy 3 indoleacetic acid; 5-Hydroxy-1H-indole-3-acetate; 5-Hydroxyindole-3-acetic acid; 5-Hydroxy-3-indoleaceacetate; 5-Hydroxy-indole-3-acetate; 5-Hydroxyindoleacetic acid; 5-Hydroxy-3-indolylacetate; 5-Hydroxyindol-3-ylacetate; Acid, hydroxyindoleacetic; 5-Hydroxyindole-3-acetate; Hydroxyindoleacetic acid; 5-Hydroxyindole acetate; 5-Oxyindoleacetic acid; 5-Hydroxyindoleacetate; 5-Hydroxyheteroauxin; Hydroxyindoleacetate; 5-Oxyindoleacetate; 5-Hydroxy-iaa; 5-HIAA; 5HIAA; 5-Hydroxyindole-3-acetic Acid; Heptadecacyclo[54.16.0.02,19.03,16.06,15.07,12.020,37.021,34.024,33.025,30.038,55.039,52.042,51.043,48.057,70.060,69.061,66]doheptaconta-1(56),2(19),3(16),4,6(15),7,9,11,13,17,20(37),21(34),22,24(33),25,27,29,31,35,38(55),39(52),40,42(51),43,45,47,49,53,57(70),58,60(69),61,63,65,67,71-hexatriacontaene
数据库引用编号
44 个数据库交叉引用编号
- ChEBI: CHEBI:27823
- KEGG: C05635
- PubChem: 1826
- HMDB: HMDB0000763
- Metlin: METLIN2975
- ChEMBL: CHEMBL395915
- Wikipedia: 5-Hydroxyindoleacetic_acid
- MeSH: Hydroxyindoleacetic Acid
- MetaCyc: 5-HYDROXYINDOLE_ACETATE
- KNApSAcK: C00000104
- foodb: FDB001403
- chemspider: 1760
- CAS: 54-16-0
- MoNA: KO003127
- MoNA: AU279505
- MoNA: KO003124
- MoNA: PS096807
- MoNA: PS096803
- MoNA: KO003125
- MoNA: KO001069
- MoNA: KO001067
- MoNA: KO003123
- MoNA: KO001070
- MoNA: PS096809
- MoNA: AU279506
- MoNA: AU279501
- MoNA: KO001068
- MoNA: PS096801
- MoNA: KO001066
- MoNA: KO003126
- MoNA: PS096804
- MoNA: AU279504
- MoNA: AU279503
- MoNA: PS096802
- PMhub: MS000000228
- PDB-CCD: HID
- 3DMET: B00815
- NIKKAJI: J11.030B
- RefMet: 5-Hydroxyindoleacetic acid
- RefMet: Hydroxyindoleacetic acid
- medchemexpress: HY-W008253
- BioNovoGene_Lab2019: BioNovoGene_Lab2019-527
- BioNovoGene_Lab2019: BioNovoGene_Lab2019-879
- LOTUS: LTS0188576
分类词条
相关代谢途径
Reactome(5)
BioCyc(0)
PlantCyc(0)
代谢反应
94 个相关的代谢反应过程信息。
Reactome(85)
- Neuronal System:
PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
- Neuronal System:
ATP + L-Glu + NH4+ ⟶ ADP + L-Gln + Pi
- Transmission across Chemical Synapses:
ATP + L-Glu + NH4+ ⟶ ADP + L-Gln + Pi
- Neurotransmitter clearance:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Clearance of seratonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Metabolism of serotonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Neuronal System:
DA + SAM ⟶ 3MT + SAH
- Transmission across Chemical Synapses:
DA + SAM ⟶ 3MT + SAH
- Neurotransmitter clearance:
DA + SAM ⟶ 3MT + SAH
- Clearance of seratonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Metabolism of serotonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Transmission across Chemical Synapses:
DA + SAM ⟶ 3MT + SAH
- Transmission across Chemical Synapses:
PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
- Neurotransmitter clearance:
AcCho + H2O ⟶ Cho + acetate
- Clearance of seratonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Metabolism of serotonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Neuronal System:
DA + SAM ⟶ 3MT + SAH
- Transmission across Chemical Synapses:
DA + SAM ⟶ 3MT + SAH
- Neurotransmitter clearance:
DA + SAM ⟶ 3MT + SAH
- Clearance of seratonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Metabolism of serotonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Neuronal System:
DA + SAM ⟶ 3MT + SAH
- Metabolism of serotonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Neurotransmitter clearance:
DA + SAM ⟶ 3MT + SAH
- Clearance of seratonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Metabolism of serotonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Neuronal System:
3MT + H2O + Oxygen ⟶ H2O2 + HVA + ammonia
- Transmission across Chemical Synapses:
3MT + H2O + Oxygen ⟶ H2O2 + HVA + ammonia
- Neurotransmitter clearance:
3MT + H2O + Oxygen ⟶ H2O2 + HVA + ammonia
- Clearance of seratonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Metabolism of serotonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Neuronal System:
PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
- Transmission across Chemical Synapses:
PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
- Neurotransmitter clearance:
AcCho + H2O ⟶ Cho + acetate
- Clearance of seratonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Neuronal System:
DA + SAM ⟶ 3MT + SAH
- Transmission across Chemical Synapses:
DA + SAM ⟶ 3MT + SAH
- Neurotransmitter clearance:
DA + SAM ⟶ 3MT + SAH
- Clearance of seratonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Metabolism of serotonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Neuronal System:
DA + SAM ⟶ 3MT + SAH
- Transmission across Chemical Synapses:
DA + SAM ⟶ 3MT + SAH
- Neurotransmitter clearance:
DA + SAM ⟶ 3MT + SAH
- Clearance of seratonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Metabolism of serotonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Neuronal System:
DA + SAM ⟶ 3MT + SAH
- Transmission across Chemical Synapses:
DA + SAM ⟶ 3MT + SAH
- Neurotransmitter clearance:
DA + SAM ⟶ 3MT + SAH
- Clearance of seratonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Metabolism of serotonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Neuronal System:
HCN channels + cAMP ⟶ HCN channel bound to cAMP
- Transmission across Chemical Synapses:
ATP ⟶ ADP
- Neurotransmitter clearance:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Clearance of seratonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Metabolism of serotonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Neuronal System:
DA + SAM ⟶ 3MT + SAH
- Transmission across Chemical Synapses:
DA + SAM ⟶ 3MT + SAH
- Neurotransmitter clearance:
DA + SAM ⟶ 3MT + SAH
- Clearance of seratonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Metabolism of serotonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Neuronal System:
PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
- Transmission across Chemical Synapses:
PKA tetramer + cAMP ⟶ PKA tetramer:4xcAMP
- Neurotransmitter clearance:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Clearance of seratonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Metabolism of serotonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Neuronal System:
DA + SAM ⟶ 3MT + SAH
- Transmission across Chemical Synapses:
DA + SAM ⟶ 3MT + SAH
- Neurotransmitter clearance:
DA + SAM ⟶ 3MT + SAH
- Neuronal System:
DA + SAM ⟶ 3MT + SAH
- Transmission across Chemical Synapses:
DA + SAM ⟶ 3MT + SAH
- Neurotransmitter clearance:
DA + SAM ⟶ 3MT + SAH
- Clearance of seratonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Metabolism of serotonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Neuronal System:
DA + SAM ⟶ 3MT + SAH
- Transmission across Chemical Synapses:
DA + SAM ⟶ 3MT + SAH
- Neurotransmitter clearance:
DA + SAM ⟶ 3MT + SAH
- Clearance of seratonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Metabolism of serotonin:
5HT + H2O + Oxygen ⟶ 5HIALD + H2O2 + ammonia
- Neuronal System:
DA + SAM ⟶ 3MT + SAH
- Transmission across Chemical Synapses:
DA + SAM ⟶ 3MT + SAH
- Neurotransmitter clearance:
DA + SAM ⟶ 3MT + SAH
- Clearance of seratonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Metabolism of serotonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Clearance of seratonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
- Metabolism of serotonin:
HIALD + NAD ⟶ H+ + HIAA + NADH
BioCyc(0)
WikiPathways(3)
- Neurotransmitter disorders:
Dopamine ⟶ 3-Methoxytyramine
- Melatonin metabolism and effects:
Serotonin ⟶ 5-Hydroxyindoleacetic acid
- Biosynthesis and regeneration of tetrahydrobiopterin and catabolism of phenylalanine:
5-OH-Trp ⟶ Serotonin
Plant Reactome(0)
INOH(1)
- Tryptophan degradation ( Tryptophan degradation ):
L-Tryptophan + O2 ⟶ N-Formyl-L-kynurenine
PlantCyc(0)
COVID-19 Disease Map(0)
PathBank(5)
- Tryptophan Metabolism:
L-Tryptophan + Oxygen ⟶ N'-Formylkynurenine
- Tryptophan Metabolism:
L-Tryptophan + Oxygen ⟶ N'-Formylkynurenine
- Tryptophan Metabolism:
L-Tryptophan + Oxygen ⟶ N'-Formylkynurenine
- Tryptophan Metabolism:
L-Tryptophan + Oxygen ⟶ N'-Formylkynurenine
- Tryptophan Metabolism:
L-Tryptophan + Oxygen ⟶ N'-Formylkynurenine
PharmGKB(0)
41 个相关的物种来源信息
- 654 - Aeromonas veronii: 10.3389/FCIMB.2020.00044
- 8292 - Amphibia: LTS0188576
- 6656 - Arthropoda: LTS0188576
- 6658 - Branchiopoda: LTS0188576
- 7711 - Chordata: LTS0188576
- 6668 - Daphnia: LTS0188576
- 6669 - Daphnia pulex: 10.1038/SREP25125
- 6669 - Daphnia pulex: LTS0188576
- 77658 - Daphniidae: LTS0188576
- 3039 - Euglena gracilis: 10.3389/FBIOE.2021.662655
- 33682 - Euglenozoa: LTS0188576
- 2759 - Eukaryota: LTS0188576
- 3803 - Fabaceae: LTS0188576
- 3849 - Griffonia: LTS0188576
- 3850 - Griffonia simplicifolia: 10.1016/S0031-9422(00)85745-3
- 3850 - Griffonia simplicifolia: LTS0188576
- 9604 - Hominidae: LTS0188576
- 9605 - Homo: LTS0188576
- 9606 - Homo sapiens:
- 9606 - Homo sapiens: -
- 9606 - Homo sapiens: 10.1038/NBT.2488
- 9606 - Homo sapiens: LTS0188576
- 8418 - Hylidae: LTS0188576
- 5653 - Kinetoplastea: LTS0188576
- 8370 - Litoria: LTS0188576
- 681275 - Litoria verreauxii: 10.1038/SDATA.2018.33
- 681275 - Litoria verreauxii: LTS0188576
- 3398 - Magnoliopsida: LTS0188576
- 40674 - Mammalia: LTS0188576
- 33208 - Metazoa: LTS0188576
- 10066 - Muridae: LTS0188576
- 10088 - Mus: LTS0188576
- 10090 - Mus musculus: LTS0188576
- 10090 - Mus musculus: NA
- 35493 - Streptophyta: LTS0188576
- 58023 - Tracheophyta: LTS0188576
- 5690 - Trypanosoma: LTS0188576
- 5691 - Trypanosoma brucei: 10.1128/AAC.00044-13
- 5691 - Trypanosoma brucei: LTS0188576
- 5654 - Trypanosomatidae: LTS0188576
- 33090 - Viridiplantae: LTS0188576
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
- Minglan Wu, Qi Wang, Xiaodong Li, Songxia Yu, Fan Zhao, Xia Wu, Li Fan, Xueling Liu, Qingwei Zhao, Xuelin He, Weifen Li, Qiao Zhang, Xingjiang Hu. Gut microbiota-derived 5-hydroxyindoleacetic acid from pumpkin polysaccharides supplementation alleviates colitis via MAPKs-PPARγ/NF-κB inhibition.
International journal of biological macromolecules.
2024 Apr; 264(Pt 1):130385. doi:
10.1016/j.ijbiomac.2024.130385
. [PMID: 38395290] - Dinara Sadykova, Razina Nigmatullina, Karina Salakhova, Evgeniia Slastnikova, Liliya Galimova, Chulpan Khaliullina, Ildaria Valeeva. Membrane Transporter of Serotonin and Hypercholesterolemia in Children.
International journal of molecular sciences.
2024 Jan; 25(2):. doi:
10.3390/ijms25020767
. [PMID: 38255840] - Zhitao Hou, Xinyu Yang, Ling Jiang, Liying Song, Yang Li, Dongdong Li, Yanning Che, Xiuling Zhang, Zhongren Sun, Hongcai Shang, Jing Chen. Active components and molecular mechanisms of Sagacious Confucius' Pillow Elixir to treat cognitive impairment based on systems pharmacology.
Aging.
2023 07; 15(14):7278-7307. doi:
10.18632/aging.204912
. [PMID: 37517091] - Mariana Silva Cardoso, Andrea Rebouças Rocha, José Antônio Souza-Júnior, José Antonio Menezes-Filho. Analytical method for urinary homovanillic acid and 5-hydroxyindoleacetic acid levels using HPLC with electrochemical detection applied to evaluate children environmentally exposed to manganese.
Biomedical chromatography : BMC.
2023 Jul; ?(?):e5699. doi:
10.1002/bmc.5699
. [PMID: 37427763] - Wei Shen, Yanlin Tao, Fang Zheng, Houyuan Zhou, Hui Wu, Hailian Shi, Fei Huang, Xiaojun Wu. The alteration of gut microbiota in venlafaxine-ameliorated chronic unpredictable mild stress-induced depression in mice.
Behavioural brain research.
2023 Mar; 446(?):114399. doi:
10.1016/j.bbr.2023.114399
. [PMID: 36963638] - Yabing Li, Brijen Miyani, Liang Zhao, Maddie Spooner, Zach Gentry, Yangyang Zou, Geoff Rhodes, Hui Li, Andrew Kaye, John Norton, Irene Xagoraraki. Surveillance of SARS-CoV-2 in nine neighborhood sewersheds in Detroit Tri-County area, United States: Assessing per capita SARS-CoV-2 estimations and COVID-19 incidence.
The Science of the total environment.
2022 Dec; 851(Pt 2):158350. doi:
10.1016/j.scitotenv.2022.158350
. [PMID: 36041621] - Ping Tian, Wei Zhang, Kai-Yan Li, Hong-Wei Li, Kai Ma, De-En Han. [Effect of Rehmanniae Radix on depression-like behavior and hippocampal monoamine neurotransmitters of chronic unpredictable mild stress model rats].
Zhongguo Zhong yao za zhi = Zhongguo zhongyao zazhi = China journal of Chinese materia medica.
2022 Sep; 47(17):4691-4697. doi:
10.19540/j.cnki.cjcmm.20220421.401
. [PMID: 36164876] - Shang Lyu, Yi Rao, Peng Liu, Shilin Yang, Wanyuan Chen, Huajie Yang, Shiwen Ke, Hui OuYang, Mingzhen He, Yulin Feng. Metabolomics analysis reveals four biomarkers associated with the gouty arthritis progression in patients with sequential stages.
Seminars in arthritis and rheumatism.
2022 08; 55(?):152022. doi:
10.1016/j.semarthrit.2022.152022
. [PMID: 35584580] - Khurshid Jalal, Faisal Khan, Shazia Nawaz, Rushda Afroz, Kanwal Khan, Sadia Basharat Ali, Liangliang Hao, Saeed Ahmad Khan, Mohsin Kazi, Reaz Uddin, Darakhshan Jabeen Haleem. Anxiolytic, anti-nociceptive and body weight reducing effects of L-lysine in rats: Relationship with brain serotonin an In-Vivo and In-Silico study.
Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie.
2022 Aug; 152(?):113235. doi:
10.1016/j.biopha.2022.113235
. [PMID: 35696944] - Ying Shen, Xia Luo, Qing Guan, Liming Cheng. Development, validation and standardization of urinary 5-hydroxyindoleacetic acid determination by LC-MS/MS for implementation in quality-controlled environments.
Journal of chromatography. B, Analytical technologies in the biomedical and life sciences.
2022 Jul; 1203(?):123315. doi:
10.1016/j.jchromb.2022.123315
. [PMID: 35665645] - David Calderón Guzmán, Norma Osnaya Brizuela, Maribel Ortiz Herrera, Hugo Juárez Olguín, Quetzalli Veloz Corona, Lulu Sanchez Reyes, Armando Valenzuela Peraza, Gerardo Barragán Mejía. Oseltamivir induces favorable response on oxidative damage in the brain of rats treated with Bezafibrate.
The International journal of neuroscience.
2022 Jun; 132(6):574-581. doi:
10.1080/00207454.2020.1828882
. [PMID: 32976735] - Nadeem, Shumaila Usman, Rehan Imad, Uzair Nisar, Irfan Khan, Ghulam Abbas. Pre-weaning fluoxetine exposure caused anti-depressant like behavior at adulthood via perturbing tryptophan metabolism in rats.
Metabolic brain disease.
2022 06; 37(5):1415-1422. doi:
10.1007/s11011-022-00951-4
. [PMID: 35303245] - Qiufen Li, Hua Zhou, Jingxin Ouyang, Shuaipeng Guo, Jun Zheng, Guanhong Li. Effects of dietary tryptophan supplementation on body temperature, hormone, and cytokine levels in broilers exposed to acute heat stress.
Tropical animal health and production.
2022 Apr; 54(3):164. doi:
10.1007/s11250-022-03161-3
. [PMID: 35435494] - Tim Meyer, Martyn Caplin, Mohid S Khan, Christos Toumpanakis, Shishir Shetty, John K Ramage, Aude Houchard, Kate Higgs, Tahir Shah. Circulating tumour cells and tumour biomarkers in functional midgut neuroendocrine tumours.
Journal of neuroendocrinology.
2022 04; 34(4):e13096. doi:
10.1111/jne.13096
. [PMID: 35132704] - Kateryna Murlanova, Netanela Cohen, Anna Pinkus, Liudmila Vinnikova, Mikhail Pletnikov, Michael Kirby, Jonathan Gorelick, Elyashiv Drori, Albert Pinhasov. Antidepressant-like effects of a chlorogenic acid- and cynarine-enriched fraction from Dittrichia viscosa root extract.
Scientific reports.
2022 03; 12(1):3647. doi:
10.1038/s41598-022-04840-9
. [PMID: 35256610] - Annelies Heylen, Yannick Vermeiren, Sophia E De Rooij, Rikie M Scholtens, Barbara C Van Munster, Debby Van Dam, Peter P De Deyn. Plasma 5-HIAA activity indicative of serotonergic disturbances in cognitively impaired, elderly patients experiencing postoperative delirium.
International journal of geriatric psychiatry.
2022 02; 37(2):. doi:
10.1002/gps.5677
. [PMID: 34985774] - Ashwani Sharma, Talever Singh, Devender Pathak, Tarun Virmani, Girish Kumar, Abdulsalam Alhalmi. Antidepressive-Like Effect of Aegle marmelos Leaf Extract in Chronic Unpredictable Mild Stress-Induced Depression-Like Behaviour in Rats.
BioMed research international.
2022; 2022(?):6479953. doi:
10.1155/2022/6479953
. [PMID: 36593774] - Jayoung Kim, Amanda De Hoedt, Emily Wiggins, Kelsey Haywood, Peng Jin, Bennett Greenwood, Niven R Narain, Vladimir Tolstikov, Valerie Bussberg, Kamil E Barbour, Michael A Kiebish, Stephen J Freedland, Jennifer T Anger. Diagnostic Utility of Serum and Urinary Metabolite Analysis in Patients with Interstitial Cystitis/Painful Bladder Syndrome.
Urology.
2021 11; 157(?):85-92. doi:
10.1016/j.urology.2021.05.005
. [PMID: 34010675] - Fatma Moncer, Nafaâ Adhoum, Darmin Catak, Lotfi Monser. Electrochemical sensor based on MIP for highly sensitive detection of 5-hydroxyindole-3-acetic acid carcinoid cancer biomarker in human biological fluids.
Analytica chimica acta.
2021 Oct; 1181(?):338925. doi:
10.1016/j.aca.2021.338925
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Comparative biochemistry and physiology. Part A, Molecular & integrative physiology.
2017 12; 214(?):58-65. doi:
10.1016/j.cbpa.2017.08.009
. [PMID: 28887162] - Claudia Francesca Gasparini, Robert Anthony Smith, Lyn Robyn Griffiths. Genetic and biochemical changes of the serotonergic system in migraine pathobiology.
The journal of headache and pain.
2017 Dec; 18(1):20. doi:
10.1186/s10194-016-0711-0
. [PMID: 28194570] - David Calderón Guzmán, Maribel Ortiz Herrera, Norma Osnaya Brizuela, Gerardo Barragán Mejía, Hugo Juárez Olguín, Armando Valenzuela Peraza. Trace elements cause oxidative damage in the brain of rats with induced hypotension.
Autonomic neuroscience : basic & clinical.
2017 12; 208(?):113-116. doi:
10.1016/j.autneu.2017.11.001
. [PMID: 29158115] - Clarissa M D Mota, Caroline Rodrigues-Santos, Rodrigo A R Fernández, Ruither O G Carolino, José Antunes-Rodrigues, Janete A Anselmo-Franci, Luiz G S Branco. Central serotonin attenuates LPS-induced systemic inflammation.
Brain, behavior, and immunity.
2017 Nov; 66(?):372-381. doi:
10.1016/j.bbi.2017.07.010
. [PMID: 28723348] - Marco A Vindas, Angelico Madaro, Thomas W K Fraser, Erik Höglund, Rolf E Olsen, Tore S Kristiansen, Øyvind Øverli. Uncontrollable chronic stress reduces growth disparities in farmed Atlantic salmon.
Physiology & behavior.
2017 Oct; 179(?):246-252. doi:
10.1016/j.physbeh.2017.06.012
. [PMID: 28668622] - Jie Liu, Yue-Wei Lv, Jin-Li Shi, Xiao-Jie Ma, Yi Chen, Zhi-Quan Zheng, Sheng-Nan Wang, Jian-You Guo. Anti-Anxiety Effect of (-)-Syringaresnol-4-O-β-d-apiofuranosyl-(1→2)-β-d-glucopyranoside from Albizzia julibrissin Durazz (Leguminosae).
Molecules (Basel, Switzerland).
2017 Aug; 22(8):. doi:
10.3390/molecules22081331
. [PMID: 28800105] - Jolanta Soltysiak, Danuta Ostalska-Nowicka, Katarzyna Zaorska, Karolina Sterzyńska, Katarzyna Derwich, Jacek Zachwieja. Atypical thymic carcinoid manifesting with nephrotic-range proteinuria in a 7-year-old boy.
Pediatric nephrology (Berlin, Germany).
2017 Aug; 32(8):1465-1468. doi:
10.1007/s00467-017-3685-5
. [PMID: 28477260] - Nico Johan Badenhorst, Linda Brand, Brian Herbert Harvey, Susanna Maria Ellis, Christiaan Beyers Brink. Long-term effects of pre-pubertal fluoxetine on behaviour and monoaminergic stress response in stress-sensitive rats.
Acta neuropsychiatrica.
2017 Aug; 29(4):222-235. doi:
10.1017/neu.2016.53
. [PMID: 27819195] - Robin L Haynes, Andrew L Frelinger, Emma K Giles, Richard D Goldstein, Hoa Tran, Harry P Kozakewich, Elisabeth A Haas, Anja J Gerrits, Othon J Mena, Felicia L Trachtenberg, David S Paterson, Gerard T Berry, Khosrow Adeli, Hannah C Kinney, Alan D Michelson. High serum serotonin in sudden infant death syndrome.
Proceedings of the National Academy of Sciences of the United States of America.
2017 07; 114(29):7695-7700. doi:
10.1073/pnas.1617374114
. [PMID: 28674018] - Diana D Shi, David P Yuppa, Trevor Dutton, Lauren K Brais, Sarah L Minden, Ilana M Braun, Matthew H Kulke, Jennifer A Chan, Fremonta L Meyer. Retrospective review of serotonergic medication tolerability in patients with neuroendocrine tumors with biochemically proven carcinoid syndrome.
Cancer.
2017 Jul; 123(14):2735-2742. doi:
10.1002/cncr.30633
. [PMID: 28267211] - Ekaterina Y Bazhenova, Nadezhda A Sinyakova, Elizabeth A Kulikova, Irina A Kazarinova, Daria V Bazovkina, Raul R Gainetdinov, Alexander V Kulikov. No effect of C1473G polymorphism in the tryptophan hydroxylase 2 gene on the response of the brain serotonin system to chronic fluoxetine treatment in mice.
Neuroscience letters.
2017 Jul; 653(?):264-268. doi:
10.1016/j.neulet.2017.05.070
. [PMID: 28579486] - Amanda Eskelund, Yan Li, David P Budac, Heidi K Müller, Maria Gulinello, Connie Sanchez, Gregers Wegener. Drugs with antidepressant properties affect tryptophan metabolites differently in rodent models with depression-like behavior.
Journal of neurochemistry.
2017 07; 142(1):118-131. doi:
10.1111/jnc.14043
. [PMID: 28407315] - Sang Gyun Jin, Min Jung Kim, So Young Park, Shi Nae Park. Stress hormonal changes in the brain and plasma after acute noise exposure in mice.
Auris, nasus, larynx.
2017 Jun; 44(3):272-276. doi:
10.1016/j.anl.2016.07.013
. [PMID: 27496010] - Zhandong Liu, Yanjue Wu, Tianhui Liu, Ren Li, Minhao Xie. Serotonin regulation in a rat model of exercise-induced chronic fatigue.
Neuroscience.
2017 05; 349(?):27-34. doi:
10.1016/j.neuroscience.2017.02.037
. [PMID: 28257895] - David L Chan, Stephen J Clarke, Connie I Diakos, Paul J Roach, Dale L Bailey, Simron Singh, Nick Pavlakis. Prognostic and predictive biomarkers in neuroendocrine tumours.
Critical reviews in oncology/hematology.
2017 May; 113(?):268-282. doi:
10.1016/j.critrevonc.2017.03.017
. [PMID: 28427516] - Amit Tirosh, Georgios Z Papadakis, Corina Millo, Samira M Sadowski, Peter Herscovitch, Karel Pacak, Stephen J Marx, Lily Yang, Pavel Nockel, Jasmine Shell, Patience Green, Xavier M Keutgen, Dhaval Patel, Naris Nilubol, Electron Kebebew. Association between neuroendocrine tumors biomarkers and primary tumor site and disease type based on total 68Ga-DOTATATE-Avid tumor volume measurements.
European journal of endocrinology.
2017 May; 176(5):575-582. doi:
10.1530/eje-16-1079
. [PMID: 28289088]