• Catherine Irwin, Wayne Roberts, and Khalid M Naseem.
• Centre for Atherothrombosis Research, University of Bradford, Bradford, UK.
• Platelets. 2009 Nov 1;20(7):478-86.

AbstractNitric oxide (NO)-mediated inhibition of platelet function occurs primarily through elevations in cGMP, although cGMP-independent mechanisms such as S-nitrosylation have been suggested as alternative NO-signaling pathways. In the present study we investigated the potential for S-nitrosylation to act as a NO-mediated cGMP-independent signaling mechanism in platelets. The NO-donor, S-nitrosoglutathione (GSNO), induced a concentration-dependent inhibition of platelet adhesion to immobilized collagen. In the presence of the soluble guanylyl cyclase inhibitor, ODQ, NO-mediated activation of the cGMP/protein kinase G signaling pathway was ablated. However, ODQ failed to completely abolish the inhibitory effect of NO on collagen-mediated adhesion, confirming that cGMP-independent signaling events contribute to the regulation of platelet adhesion by NO. Biotin-switch analysis of platelets demonstrated the presence of several S-nitrosylated proteins under basal conditions. Treatment of platelets with exogenous NO-donors, at concentrations that inhibited platelet adhesion, increased the number of S-nitrosylated bands and led to hyper-nitrosylation of basally S-nitrosylated proteins. The extent of S-nitrosylation in response to exogenous NO was unaffected by platelet activation. Importantly, platelet activation in the absence of exogenous NO failed to increase S-nitrosylation beyond basal levels, indicating that platelet-derived NO was unable to induce this type of protein modification. Our data demonstrate that S-nitrosylation of platelet proteins in response to exogenous NO may act as a potentially important cGMP-independent signaling mechanism for controlling platelet adhesion.

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