Thromboxane A2 (BioDeep_00000019510)

 

Secondary id: BioDeep_00000004866

human metabolite Endogenous blood metabolite natural product


代谢物信息卡片


7-[3-(3-Hydroxy-1-octenyl)-2,6-dioxabicyclo[3.1.1]hept-4-yl]-[1S-[1alpha,3alpha(1E,3R*),4beta(Z),5alpha]]-5-heptenoic acid

化学式: C20H32O5 (352.225)
中文名称:
谱图信息: 最多检出来源 Homo sapiens(blood) 28.18%

分子结构信息

SMILES: CCCCCC(C=CC1C(C2CC(O2)O1)CC=CCCCC(=O)O)O
InChI: InChI=1S/C20H32O5/c1-2-3-6-9-15(21)12-13-17-16(18-14-20(24-17)25-18)10-7-4-5-8-11-19(22)23/h4,7,12-13,15-18,20-21H,2-3,5-6,8-11,14H2,1H3,(H,22,23)/b7-4-,13-12+/t15-,16+,17+,18-,20+/m0/s1

描述信息

Thromboxane A2 is an unstable intermediate between the prostaglandin endoperoxides and thromboxane B2. The compound has a bicyclic oxaneoxetane structure. It is a potent inducer of platelet aggregation and causes vasoconstriction. It is the principal component of rabbit aorta contracting substance (RCS).Thromboxanes are eicosanoids. The eicosanoids consist of the prostaglandins (PGs), thromboxanes (TXs), leukotrienes (LTs), and lipoxins (LXs). The PGs and TXs are collectively identified as prostanoids. Prostaglandins were originally shown to be synthesized in the prostate gland, thromboxanes from platelets (thrombocytes), and leukotrienes from leukocytes, hence the derivation of their names. All mammalian cells except erythrocytes synthesize eicosanoids. These molecules are extremely potent, able to cause profound physiological effects at very dilute concentrations. All eicosanoids function locally at the site of synthesis, through receptor-mediated G-protein linked signalling pathways.

同义名列表

36 个代谢物同义名

7-[3-(3-Hydroxy-1-octenyl)-2,6-dioxabicyclo[3.1.1]hept-4-yl]-[1S-[1alpha,3alpha(1E,3R*),4beta(Z),5alpha]]-5-heptenoic acid; 7-[3-(3-Hydroxy-1-octenyl)-2,6-dioxabicyclo[3.1.1]hept-4-yl]-[1S-[1alpha,3alpha(1E,3R*),4beta(Z),5alpha]]-5-heptenoate; (1S-(1alpha,3alpha,3R*),4beta(Z),5alpha)-7-(3-(3-hydroxy-1-octenyl)-2,6-dioxabicyclo(3.1.1)hept-4-yl)-5-heptenoic acid; (1S-(1alpha,3alpha,3R*),4beta(Z),5alpha)-7-(3-(3-hydroxy-1-octenyl)-2,6-dioxabicyclo(3.1.1)hept-4-yl)-5-heptenoate; (5Z)-7-[(1S,3R,4S,5S)-3-[(1E,3S)-3-hydroxyoct-1-en-1-yl]-2,6-dioxabicyclo[3.1.1]heptan-4-yl]hept-5-enoic acid; (5Z)-7-[(1S,3R,4S,5S)-3-[(1E,3S)-3-Hydroxy-1-octenyl]-2,6-dioxabicyclo[3.1.1]hept-4-yl]-5-heptenoic acid; (5Z)-7-[(1S,3R,4S,5S)-3-[(1E,3S)-3-Hydroxy-1-octenyl]-2,6-dioxabicyclo[3.1.1]hept-4-yl]-5-heptenoate; (5Z,9alpha,11alpha,13E,15S)-9,11-Epoxy-15-hydroxy-thromboxa-5,13-dien-1-Oic acid; (5Z,9alpha,11alpha,13E,15S)-9,11-Epoxy-15-hydroxythromboxa-5,13-dien-1-Oic acid; (5Z,9alpha,11alpha,13E,15S)-9,11-Epoxy-15-hydroxy-thromboxa-5,13-dien-1-Oate; (5Z,9alpha,11alpha,13E,15S)-9,11-Epoxy-15-hydroxythromboxa-5,13-dien-1-Oate; (5Z,13E)-(15S)-9-alpha,11-alpha-Epoxy-15-hydroxythromboxa-5,13-dienoic acid; (5Z,13E)-(15S)-9alpha,11alpha-Epoxy-15-hydroxythromboxa-5,13-dienoic acid; (5Z,9Α,11α,13E,15S)-9,11-epoxy-15-hydroxythromboxa-5,13-dien-1-Oic acid; (5Z,9a,11a,13E,15S)-9,11-Epoxy-15-hydroxythromboxa-5,13-dien-1-Oic acid; (5Z,13E)-(15S)-9-alpha,11-alpha-Epoxy-15-hydroxythromboxa-5,13-dienoate; (5Z,13E)-(15S)-9alpha,11alpha-Epoxy-15-hydroxythromboxa-5,13-dienoate; (5Z,9a,11a,13E,15S)-9,11-Epoxy-15-hydroxythromboxa-5,13-dien-1-Oate; (5Z,9Α,11α,13E,15S)-9,11-epoxy-15-hydroxythromboxa-5,13-dien-1-Oate; (5Z,13E)-(15S)-9a,11a-Epoxy-15-hydroxythromboxa-5,13-dienoic acid; (5Z,13E)-(15S)-9Α,11α-epoxy-15-hydroxythromboxa-5,13-dienoic acid; (5Z,13E)-(15S)-9a,11a-Epoxy-15-hydroxythromboxa-5,13-dienoate; (5Z,13E)-(15S)-9,11-Epoxy-15-hydroxythromba-5,13-dienoic acid; (5Z,13E)-(15S)-9Α,11α-epoxy-15-hydroxythromboxa-5,13-dienoate; (5Z,13E)-(15S)-9,11-Epoxy-15-hydroxythromba-5,13-dienoate; 9S,11S-epoxy,15S-hydroxy-thromboxa-5Z,13E-dien-1-oic acid; 9S,11S-Epoxy,15S-hydroxy-thromboxa-5Z,13E-dien-1-Oate; Rabbit aorta contracting substance; a2, Thromboxane; Thromboxane A2; Thromboxane; TXA-2; TXA2; RCS; Cid; Thromboxane A2



数据库引用编号

17 个数据库交叉引用编号

分类词条

17 个相关的物种来源信息

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。

亚细胞结构定位 关联基因列表
Cytoplasm 7 ALB, EDN1, PLA2G12A, PTGS1, PTGS2, TNK1, VEGFA
Peripheral membrane protein 4 AP1S2, PTGS1, PTGS2, TNK1
Endoplasmic reticulum membrane 3 PTGIS, PTGS1, PTGS2
Nucleus 4 ALB, PLCZ1, PTGIS, VEGFA
cytosol 4 ALB, AP1S2, PLCZ1, PRKCQ
centrosome 1 ALB
nucleoplasm 1 PLCZ1
Cell membrane 3 AGTR1, AGTR2, P2RY12
Cytoplasmic side 1 AP1S2
Multi-pass membrane protein 5 AGTR1, AGTR2, CACNA1I, P2RY12, RHO
cell surface 3 ITGA2B, P2RY12, VEGFA
Golgi apparatus 5 ALB, AP1S2, PTGS1, RHO, VEGFA
Golgi membrane 2 AP1S2, RHO
lysosomal membrane 1 AP1S2
plasma membrane 10 AGTR1, AGTR2, CACNA1I, ITGA2B, KNG1, P2RY12, PRKCQ, REN, RHO, TNK1
Membrane 8 AGTR1, CACNA1I, ITGA2B, P2RY12, REN, RHO, TNK1, VEGFA
caveola 2 PTGIS, PTGS2
extracellular exosome 5 ALB, ITGA2B, KNG1, PTGS1, VWF
endoplasmic reticulum 5 ALB, PTGIS, PTGS2, VEGFA, VWF
extracellular space 7 ALB, EDN1, KNG1, PTGIS, REN, VEGFA, VWF
perinuclear region of cytoplasm 1 PLCZ1
adherens junction 1 VEGFA
protein-containing complex 2 ALB, PTGS2
intracellular membrane-bounded organelle 2 AP1S2, PTGS1
Microsome membrane 2 PTGS1, PTGS2
pronucleus 1 PLCZ1
Single-pass type I membrane protein 1 ITGA2B
Secreted 6 ALB, EDN1, PLA2G12A, REN, VEGFA, VWF
extracellular region 7 ALB, EDN1, KNG1, PLA2G12A, REN, VEGFA, VWF
Single-pass membrane protein 1 PTGIS
basal part of cell 1 EDN1
anchoring junction 1 ALB
centriolar satellite 1 PRKCQ
ciliary membrane 1 RHO
photoreceptor inner segment 1 RHO
photoreceptor outer segment 2 PTGS1, RHO
external side of plasma membrane 1 ITGA2B
Secreted, extracellular space, extracellular matrix 2 VEGFA, VWF
nucleolus 1 PLCZ1
Early endosome 1 AP1S2
Membrane, clathrin-coated pit 1 AP1S2
apical part of cell 1 REN
cell-cell junction 1 RHO
clathrin-coated pit 1 AP1S2
Cytoplasm, perinuclear region 1 PLCZ1
focal adhesion 1 ITGA2B
extracellular matrix 2 VEGFA, VWF
collagen-containing extracellular matrix 2 KNG1, VWF
secretory granule 1 VEGFA
Nucleus inner membrane 1 PTGS2
Nucleus outer membrane 1 PTGS2
nuclear inner membrane 1 PTGS2
nuclear outer membrane 1 PTGS2
neuron projection 2 PTGS1, PTGS2
ciliary basal body 1 ALB
centriole 1 ALB
Cell projection, cilium, photoreceptor outer segment 1 RHO
Secreted, extracellular space 1 KNG1
spindle pole 1 ALB
blood microparticle 3 ALB, ITGA2B, KNG1
sperm midpiece 1 RHO
Endomembrane system 2 AP1S2, PTGS1
Cytoplasmic vesicle membrane 1 AP1S2
Golgi-associated vesicle membrane 1 RHO
platelet alpha granule 1 VWF
trans-Golgi network membrane 1 AP1S2
endoplasmic reticulum lumen 3 ALB, KNG1, PTGS2
platelet alpha granule lumen 4 ALB, KNG1, VEGFA, VWF
voltage-gated calcium channel complex 1 CACNA1I
Photoreceptor inner segment membrane 1 RHO
transport vesicle 1 EDN1
immunological synapse 1 PRKCQ
aggresome 1 PRKCQ
AP-type membrane coat adaptor complex 1 AP1S2
membrane coat 1 AP1S2
photoreceptor outer segment membrane 1 RHO
sperm head plasma membrane 1 RHO
AP-1 adaptor complex 1 AP1S2
platelet alpha granule membrane 1 ITGA2B
integrin complex 1 ITGA2B
photoreceptor disc membrane 1 RHO
rough endoplasmic reticulum lumen 1 EDN1
sperm head 1 PLCZ1
Weibel-Palade body 2 EDN1, VWF
integrin alphaIIb-beta3 complex 1 ITGA2B
rod photoreceptor outer segment 1 RHO
cell body membrane 1 P2RY12
cell projection membrane 1 P2RY12
[N-VEGF]: Cytoplasm 1 VEGFA
[VEGFA]: Secreted 1 VEGFA
[Isoform L-VEGF189]: Endoplasmic reticulum 1 VEGFA
[Isoform VEGF121]: Secreted 1 VEGFA
[Isoform VEGF165]: Secreted 1 VEGFA
VEGF-A complex 1 VEGFA
ciliary transition fiber 1 ALB


文献列表

  • Shuai Yan, Yuanyang Wang, Bei Wang, Shengkai Zuo, Ying Yu. Thromboxane A2 Modulates de novo Synthesis of Adrenal Corticosterone in Mice via p38/14-3-3γ/StAR Signaling. Advanced science (Weinheim, Baden-Wurttemberg, Germany). 2024 May; 11(18):e2307926. doi: 10.1002/advs.202307926. [PMID: 38460156]
  • Yufeng Dai, Ruijie Xu, Jinxiang Chen, Jialong Fang, Hao Zhang, Haitao Li, Wei Chen. Thromboxane A2/thromboxane A2 receptor axis facilitates hepatic insulin resistance and steatosis through endoplasmic reticulum stress in non-alcoholic fatty liver disease. British journal of pharmacology. 2023 Sep; ?(?):. doi: 10.1111/bph.16238. [PMID: 37940413]
  • E Prakash, S Pavithra, D G Kishor Kumar, Manjit Panigrahi, Thakur Uttam Singh, Dinesh Kumar, Subhashree Parida. TXA2 mediates LPA1-stimulated uterine contraction in late pregnant mouse. Prostaglandins & other lipid mediators. 2023 Apr; 167(?):106736. doi: 10.1016/j.prostaglandins.2023.106736. [PMID: 37062326]
  • Amel Bouhadoun, Hasanga D Manikpurage, Catherine Deschildre, Sara Zalghout, Marc Dubourdeau, Valérie Urbach, Benoît Ho-Tin-Noe, Lydia Deschamps, Jean-Baptiste Michel, Dan Longrois, Xavier Norel. DHA, RvD1, RvD5, and MaR1 reduce human coronary arteries contractions induced by PGE2. Prostaglandins & other lipid mediators. 2022 Dec; 165(?):106700. doi: 10.1016/j.prostaglandins.2022.106700. [PMID: 36528331]
  • Elisa Villa-Martínez, Selma Romina López-Vaquera, Lesvia Karina Alvarado-Coutiño, Ana María Gámez-Méndez, Amelia Ríos, Bruno Escalante. Thromboxane-dependent coronary vasoconstriction in obese mice: Role of peroxynitrite. Prostaglandins & other lipid mediators. 2022 06; 160(?):106631. doi: 10.1016/j.prostaglandins.2022.106631. [PMID: 35272056]
  • Heike Braun, Michael Hauke, Robert Eckenstaler, Markus Petermann, Anne Ripperger, Niklas Kühn, Edzard Schwedhelm, Beatrice Ludwig-Kraus, Frank Bernhard Kraus, Virginie Dubourg, Alma Zernecke, Barbara Schreier, Michael Gekle, Ralf A Benndorf. The F2-isoprostane 8-iso-PGF2α attenuates atherosclerotic lesion formation in Ldlr-deficient mice - Potential role of vascular thromboxane A2 receptors. Free radical biology & medicine. 2022 05; 185(?):36-45. doi: 10.1016/j.freeradbiomed.2022.04.010. [PMID: 35470061]
  • Anna Michno, Katarzyna Grużewska, Anna Ronowska, Sylwia Gul-Hinc, Marlena Zyśk, Agnieszka Jankowska-Kulawy. Resveratrol Inhibits Metabolism and Affects Blood Platelet Function in Type 2 Diabetes. Nutrients. 2022 Apr; 14(8):. doi: 10.3390/nu14081633. [PMID: 35458194]
  • Robert Eckenstaler, Anne Ripperger, Michael Hauke, Markus Petermann, Sandra A Hemkemeyer, Edzard Schwedhelm, Süleyman Ergün, Maike Frye, Oliver Werz, Andreas Koeberle, Heike Braun, Ralf A Benndorf. A Thromboxane A2 Receptor-Driven COX-2-Dependent Feedback Loop That Affects Endothelial Homeostasis and Angiogenesis. Arteriosclerosis, thrombosis, and vascular biology. 2022 04; 42(4):444-461. doi: 10.1161/atvbaha.121.317380. [PMID: 35236104]
  • Shin-Sook Yoon, Hyuk-Woo Kwon, Jung-Hae Shin, Man Hee Rhee, Chang-Eun Park, Dong-Ha Lee. Anti-Thrombotic Effects of Artesunate through Regulation of cAMP and PI3K/MAPK Pathway on Human Platelets. International journal of molecular sciences. 2022 Jan; 23(3):. doi: 10.3390/ijms23031586. [PMID: 35163507]
  • Maeve Kiely, Ginger L Milne, Tsion Z Minas, Tiffany H Dorsey, Wei Tang, Cheryl J Smith, Francine Baker, Christopher A Loffredo, Clayton Yates, Michael B Cook, Stefan Ambs. Urinary Thromboxane B2 and Lethal Prostate Cancer in African American Men. Journal of the National Cancer Institute. 2022 01; 114(1):123-129. doi: 10.1093/jnci/djab129. [PMID: 34264335]
  • Pankaj Bhatia, Nirmal Singh. Thromboxane A2 synthase inhibition ameliorates endothelial dysfunction, memory deficits, oxidative stress and neuroinflammation in rat model of streptozotocin diabetes induced dementia. Physiology & behavior. 2021 11; 241(?):113592. doi: 10.1016/j.physbeh.2021.113592. [PMID: 34534530]
  • Juan Hu, Zhenzhen Yang, Xueqin Chen, Sujuan Kuang, Zhiwen Lian, Guibao Ke, Ruyi Liao, Jianchao Ma, Sijia Li, Li Zhang, Zhuo Li, Zhonglin Feng, Huaban Liang, Ting Lin, Wei Dong, Ruizhao Li, Zhilian Li, Yuanhan Chen, Xinling Liang, Wei Shi, Chunyu Deng, Shuangxin Liu. Thromboxane A2 is involved in the development of hypertension in chronic kidney disease rats. European journal of pharmacology. 2021 Oct; 909(?):174435. doi: 10.1016/j.ejphar.2021.174435. [PMID: 34416239]
  • Anna Vogelsang, Susann Eichler, Niklas Huntemann, Lars Masanneck, Hannes Böhnlein, Lisa Schüngel, Alice Willison, Karin Loser, Bernhard Nieswandt, Beate E Kehrel, Alexander Zarbock, Kerstin Göbel, Sven G Meuth. Platelet Inhibition by Low-Dose Acetylsalicylic Acid Reduces Neuroinflammation in an Animal Model of Multiple Sclerosis. International journal of molecular sciences. 2021 Sep; 22(18):. doi: 10.3390/ijms22189915. [PMID: 34576080]
  • Pankaj Bhatia, Nirmal Singh. Ameliorative effect of ozagrel, a thromboxane A2 synthase inhibitor, in hyperhomocysteinemia-induced experimental vascular cognitive impairment and dementia. Fundamental & clinical pharmacology. 2021 Aug; 35(4):650-666. doi: 10.1111/fcp.12610. [PMID: 33020931]
  • Michał Majewski, Adam Jurgoński. The Effect of Hemp (Cannabis sativa L.) Seeds and Hemp Seed Oil on Vascular Dysfunction in Obese Male Zucker Rats. Nutrients. 2021 Jul; 13(8):. doi: 10.3390/nu13082575. [PMID: 34444734]
  • Jie V Zhao, Wai-Fung Yeung, Yap-Hang Chan, Dana Vackova, June Y Y Leung, Dennis K M Ip, Jiaxi Zhao, Wai-Kwan Ho, Hung-Fat Tse, Catherine Mary Schooling. Effect of Berberine on Cardiovascular Disease Risk Factors: A Mechanistic Randomized Controlled Trial. Nutrients. 2021 Jul; 13(8):. doi: 10.3390/nu13082550. [PMID: 34444711]
  • Bingsheng Li, Ru Huang, Ruixiao Wang, Yuhan Liu, Christian G Stief, Martin Hennenberg. Picotamide inhibits a wide spectrum of agonist-induced smooth muscle contractions in porcine renal interlobar and coronary arteries. Pharmacology research & perspectives. 2021 05; 9(3):e00771. doi: 10.1002/prp2.771. [PMID: 33929093]
  • Patrizia Amadio, Benedetta Porro, Viviana Cavalca, Silvia Stella Barbieri, Sonia Eligini, Susanna Fiorelli, Alessandro Di Minno, Alessandra Gorini, Mattia Giuliani, Josè Pablo Werba, Nicola Cosentino, Paolo Olivares, Simone Barbieri, Fabrizio Veglia, Elena Tremoli, Daniela Trabattoni. Persistent long-term platelet activation and endothelial perturbation in women with Takotsubo syndrome. Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie. 2021 Apr; 136(?):111259. doi: 10.1016/j.biopha.2021.111259. [PMID: 33450492]
  • Xiaolong Wu, Minghui Wei, Haifeng Zhang, Xiaomei Fan, Xiaochen Ma, Jiaming Liu, Mingming Xue. The Protective Effect of Aspirin against Myocardial Hypertrophy in Rats. BioMed research international. 2021; 2021(?):2043415. doi: 10.1155/2021/2043415. [PMID: 33969115]
  • Miltan Chandra Roy, Kiwoong Nam, Jaesu Kim, David Stanley, Yonggyun Kim. Thromboxane Mobilizes Insect Blood Cells to Infection Foci. Frontiers in immunology. 2021; 12(?):791319. doi: 10.3389/fimmu.2021.791319. [PMID: 34987515]
  • Sara Alberti, Qianqian Zhang, Ilaria D'Agostino, Annalisa Bruno, Stefania Tacconelli, Annalisa Contursi, Simone Guarnieri, Melania Dovizio, Lorenza Falcone, Patrizia Ballerini, Götz Münch, Ying Yu, Paola Patrignani. The antiplatelet agent revacept prevents the increase of systemic thromboxane A2 biosynthesis and neointima hyperplasia. Scientific reports. 2020 12; 10(1):21420. doi: 10.1038/s41598-020-77934-x. [PMID: 33293599]
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  • Tao-Fang Cheng, Jing Zhao, Qiu-Lin Wu, Hua-Wu Zeng, Yu-Ting Sun, Yu-Hao Zhang, Rui Mi, Xiao-Po Qi, Jing-Tao Zou, Ai-Jun Liu, Hui-Zi Jin, Wei-Dong Zhang. Compound Dan Zhi tablet attenuates experimental ischemic stroke via inhibiting platelet activation and thrombus formation. Phytomedicine : international journal of phytotherapy and phytopharmacology. 2020 Dec; 79(?):153330. doi: 10.1016/j.phymed.2020.153330. [PMID: 32932202]
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  • P Conti, Al Caraffa, C E Gallenga, R Ross, S K Kritas, I Frydas, A Younes, P Di Emidio, G Ronconi, E Toniato. IL-1 induces throboxane-A2 (TxA2) in COVID-19 causing inflammation and micro-thrombi: inhibitory effect of the IL-1 receptor antagonist (IL-1Ra). Journal of biological regulators and homeostatic agents. 2020 Sep; 34(5):1623-1627. doi: 10.23812/20-34-4edit-65. [PMID: 32744052]
  • Yu-Lien Tsai, Chih-Wei Liu, Chien-Fu Hsu, Chia-Chang Huang, Ming-Wei Lin, Shiang-Fen Huang, Tzu-Hao Li, Kuei-Chuan Lee, Yun-Cheng Hsieh, Ying-Ying Yang, Tzung-Yan Lee, Hsuan-Miao Liu, Yi-Hsiang Huang, Ming-Chih Hou, Han-Chieh Lin. Obeticholic acid ameliorates hepatorenal syndrome in ascitic cirrhotic rats by down-regulating the renal 8-iso-PGF2α-activated COX-TXA2 pathway. Clinical science (London, England : 1979). 2020 08; 134(15):2055-2073. doi: 10.1042/cs20200452. [PMID: 32725149]
  • Jiang Zhang, Andreas Wieser, Hao Lin, Yuhui Fan, Hanwei Li, Tobias S Schiergens, Julia Mayerle, Alexander L Gerbes, Christian J Steib. Pretreatment with zinc protects Kupffer cells following administration of microbial products. Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie. 2020 Jul; 127(?):110208. doi: 10.1016/j.biopha.2020.110208. [PMID: 32417689]
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  • Masahiko Tachi, Naoko Yamaguchi, Shoshiro Okada. Thromboxane A2 in the paraventricular hypothalamic nucleus mediates glucoprivation-induced adrenomedullary outflow. European journal of pharmacology. 2020 May; 875(?):173034. doi: 10.1016/j.ejphar.2020.173034. [PMID: 32097659]
  • Marta Aleksandrowicz, Katarzyna Klapczynska, Ewa Kozniewska. Dysfunction of the endothelium and constriction of the isolated rat's middle cerebral artery in low sodium environment in the presence of vasopressin. Clinical and experimental pharmacology & physiology. 2020 05; 47(5):759-764. doi: 10.1111/1440-1681.13242. [PMID: 31876005]
  • Xiao Tang, David Fuchs, Shuai Tan, Mette Trauelsen, Thue W Schwartz, Craig E Wheelock, Nailin Li, Jesper Z Haeggström. Activation of metabolite receptor GPR91 promotes platelet aggregation and transcellular biosynthesis of leukotriene C4. Journal of thrombosis and haemostasis : JTH. 2020 04; 18(4):976-984. doi: 10.1111/jth.14734. [PMID: 31930602]
  • S Rangarajan, G Rezonzew, P Chumley, H Fatima, M Y Golovko, W Feng, P Hua, E A Jaimes. COX-2-derived prostaglandins as mediators of the deleterious effects of nicotine in chronic kidney disease. American journal of physiology. Renal physiology. 2020 02; 318(2):F475-F485. doi: 10.1152/ajprenal.00407.2019. [PMID: 31841390]
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