备用鸟苷酸环化酶一氧化氮受体确保血管系统对一氧化氮高度敏感。

Spare guanylyl cyclase NO receptors ensure high NO sensitivity in the vascular system.

作者信息

Mergia Evanthia, Friebe Andreas, Dangel Oliver, Russwurm Michael, Koesling Doris

机构信息

Institut für Pharmakologie und Toxikologie, Ruhr-Universität Bochum, Bochum, Germany.

出版信息

J Clin Invest. 2006 Jun;116(6):1731-7. doi: 10.1172/JCI27657. Epub 2006 May 4.

DOI:10.1172/JCI27657

PMID:16614755

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1435723/

Abstract

In the vascular system, the receptor for the signaling molecule NO, guanylyl cyclase (GC), mediates smooth muscle relaxation and inhibition of platelet aggregation by increasing intracellular cyclic GMP (cGMP) concentration. The heterodimeric GC exists in 2 isoforms (alpha1-GC, alpha2-GC) with indistinguishable regulatory properties. Here, we used mice deficient in either alpha1- or alpha2-GC to dissect their biological functions. In platelets, alpha1-GC, the only isoform present, was responsible for NO-induced inhibition of aggregation. In aortic tissue, alpha1-GC, as the major isoform (94%), mediated vasodilation. Unexpectedly, alpha2-GC, representing only 6% of the total GC content in WT, also completely relaxed alpha1-deficient vessels albeit higher NO concentrations were needed. The functional impact of the low cGMP levels produced by alpha2-GC in vivo was underlined by pronounced blood pressure increases upon NO synthase inhibition. As a fractional amount of GC was sufficient to mediate vasorelaxation at higher NO concentrations, we conclude that the majority of NO-sensitive GC is not required for cGMP-forming activity but as NO receptor reserve to increase sensitivity toward the labile messenger NO in vivo.

摘要

在血管系统中，信号分子一氧化氮（NO）的受体鸟苷酸环化酶（GC）通过提高细胞内环磷酸鸟苷（cGMP）浓度来介导平滑肌舒张和抑制血小板聚集。异二聚体GC存在两种亚型（α1-GC、α2-GC），其调节特性难以区分。在此，我们利用α1-GC或α2-GC缺陷型小鼠来剖析它们的生物学功能。在血小板中，α1-GC是唯一存在的亚型，负责NO诱导的聚集抑制。在主动脉组织中，α1-GC作为主要亚型（94%）介导血管舒张。出乎意料的是，α2-GC仅占野生型（WT）总GC含量的6%，尽管需要更高浓度的NO，但它也能使α1缺陷型血管完全舒张。NO合酶抑制后血压显著升高，这突出了α2-GC在体内产生的低cGMP水平的功能影响。由于在较高NO浓度下，一部分GC就足以介导血管舒张，我们得出结论，大多数对NO敏感的GC对于cGMP生成活性并非必需，而是作为NO受体储备，以提高体内对不稳定信使分子NO的敏感性。

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