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  • Title: Regulation of vascular guanylyl cyclase by endothelial nitric oxide-dependent posttranslational modification.
    Author: Oppermann M, Suvorava T, Freudenberger T, Dao VT, Fischer JW, Weber M, Kojda G.
    Journal: Basic Res Cardiol; 2011 Jun; 106(4):539-49. PubMed ID: 21298436.
    Abstract:
    In isolated cells, soluble guanylyl cyclase (sGC) activity is regulated by exogenous nitric oxide (NO) via downregulation of expression and posttranslational S-nitrosylation. The aim of this study was to investigate whether such regulatory mechanism impact on endothelium-dependent vasodilation in a newly developed mouse strain carrying an endothelial-specific overexpression of eNOS (eNOS(++)). When compared with transgene negative controls (eNOS(n)), eNOS(++)-mice showed a 3.3-fold higher endothelial-specific aortic eNOS expression, increased vascular cGMP and VASP phosphorylation, a L-nitroarginine (L-NA)-inhibitable decrease in systolic blood pressure, but normal levels of peroxynitrite and nitrotyrosine formation, endothelium-dependent aortic vasodilation and vasodilation to NO donors. Western blot analysis for sGC showed similar protein levels of sGC-α1 and sGC-β1 subunits in eNOS(n) and eNOS(++). In striking contrast, the activity of isolated sGC was strongly decreased in lungs of eNOS(++). Semiquantitative evaluation of sGC-β1-S-nitrosylation demonstrated that this loss of sGC activity is associated with increased nitrosylation of the enzyme in eNOS(++), a difference that disappeared after L-NA-treatment. Our data suggest the existence of a physiologic NO-dependent posttranslational regulation of vascular sGC in mammals involving S-nitrosylation as a key mechanism. Because this mechanism can compensate for reduction in vascular NO bioavailability, it may mask the development of endothelial dysfunction.
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