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124 related items for PubMed ID: 30579678

  • 1. Endothelin-1 enhanced carotid body chemosensory activity in chronic intermittent hypoxia through PLC, PKC and p38MAPK signaling pathways.
    Li J, Yang S, Yu F, Ji E, Woodrow Weiss J.
    Neuropeptides; 2019 Apr; 74():44-51. PubMed ID: 30579678
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  • 2. Exposure to cyclic intermittent hypoxia increases expression of functional NMDA receptors in the rat carotid body.
    Liu Y, Ji ES, Xiang S, Tamisier R, Tong J, Huang J, Weiss JW.
    J Appl Physiol (1985); 2009 Jan; 106(1):259-67. PubMed ID: 18927268
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  • 5. Role of oxidative stress-induced endothelin-converting enzyme activity in the alteration of carotid body function by chronic intermittent hypoxia.
    Peng YJ, Nanduri J, Raghuraman G, Wang N, Kumar GK, Prabhakar NR.
    Exp Physiol; 2013 Nov; 98(11):1620-30. PubMed ID: 23913764
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  • 9. Contribution of endothelin-1 to the enhanced carotid body chemosensory responses induced by chronic intermittent hypoxia.
    Rey S, Del Rio R, Iturriaga R.
    Brain Res; 2006 May 01; 1086(1):152-9. PubMed ID: 16595126
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  • 10. Sensory plasticity of carotid body is correlated with oxidative stress in paraventricular nucleus during chronic intermittent hypoxia.
    Liu P, Zhang HM, Hu K, Zhou XF, Tang S.
    J Cell Physiol; 2019 Aug 01; 234(8):13534-13543. PubMed ID: 30609027
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  • 11. CaV3.2 T-type Ca2+ channels mediate the augmented calcium influx in carotid body glomus cells by chronic intermittent hypoxia.
    Makarenko VV, Ahmmed GU, Peng YJ, Khan SA, Nanduri J, Kumar GK, Fox AP, Prabhakar NR.
    J Neurophysiol; 2016 Jan 01; 115(1):345-54. PubMed ID: 26561606
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  • 12. Endothelin receptors in augmented vasoconstrictor responses to endothelin-1 in chronic intermittent hypoxia.
    Guo QH, Tian YL, Wang Z, Li AY, Ma ZH, Guo YJ, Weiss JW, Ji ES, Chu L.
    Clin Exp Pharmacol Physiol; 2013 Jul 01; 40(7):449-57. PubMed ID: 23662699
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  • 13. Mechanical hyperalgesia induced by endothelin-1 in rats is mediated via phospholipase C, protein kinase C, and MAP kinases.
    Motta EM, Calixto JB, Rae GA.
    Exp Biol Med (Maywood); 2006 Jun 01; 231(6):1141-5. PubMed ID: 16741065
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  • 14. Osteopontin mediates hypoxia-induced proliferation of cultured mesangial cells: role of PKC and p38 MAPK.
    Sodhi CP, Batlle D, Sahai A.
    Kidney Int; 2000 Aug 01; 58(2):691-700. PubMed ID: 10916092
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  • 15. Differential expression of pro-inflammatory cytokines, endothelin-1 and nitric oxide synthases in the rat carotid body exposed to intermittent hypoxia.
    Del Rio R, Moya EA, Iturriaga R.
    Brain Res; 2011 Jun 13; 1395():74-85. PubMed ID: 21555119
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  • 16. Chronic hypoxia changes gene expression profile of primary rat carotid body cells: consequences on the expression of NOS isoforms and ET-1 receptors.
    Mosqueira M, Iturriaga R.
    Physiol Genomics; 2019 Apr 01; 51(4):109-124. PubMed ID: 30822223
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  • 17. The signalling profile of recombinant human orexin-2 receptor.
    Tang J, Chen J, Ramanjaneya M, Punn A, Conner AC, Randeva HS.
    Cell Signal; 2008 Sep 01; 20(9):1651-61. PubMed ID: 18599270
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  • 18. Effect of chronic intermittent hypoxia on leptin and leptin receptor protein expression in the carotid body.
    Messenger SA, Moreau JM, Ciriello J.
    Brain Res; 2013 Jun 04; 1513():51-60. PubMed ID: 23541616
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  • 19. [5-HT(2A) receptor/protein kinase C pathway in mediating long-term facilitation of carotid sinus nerve discharge in chronic intermittent hypoxia rats].
    Luo YC, Zhang YQ, Hu K, Zhang Z, Xiong MQ, Hu WH, Dong ML, Shang M.
    Zhonghua Jie He He Hu Xi Za Zhi; 2018 Aug 12; 41(8):611-615. PubMed ID: 30138970
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  • 20. Losartan attenuates aortic endothelial apoptosis induced by chronic intermittent hypoxia partly via the phospholipase C pathway.
    Ren J, Liu W, Deng Y, Li GC, Pan YY, Xie S, Jin M, Liu HG.
    Sleep Breath; 2017 Sep 12; 21(3):679-689. PubMed ID: 28190165
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