Abstract
Nitric oxide is synthesized in diverse mammalian tissues by a family of calmodulin-dependent nitric oxide synthases. The endothelial isoform of nitric oxide synthase (eNOS) is targeted to the specialized signal-transducing membrane domains termed plasmalemmal caveolae. Caveolin, the principal structural protein in caveolae, interacts with eNOS and leads to enzyme inhibition in a reversible process modulated by Ca2+-calmodulin (Michel, J. B., Feron, O., Sacks, D., and Michel, T. (1997) J. Biol. Chem. 272, 15583-15586). Caveolin also interacts with other structurally distinct signaling proteins via a specific region identified within the caveolin sequence (amino acids 82-101) that appears to subserve the role of a "scaffolding domain." We now report that the co-immunoprecipitation of eNOS with caveolin is completely and specifically blocked by an oligopeptide corresponding to the caveolin scaffolding domain. Peptides corresponding to this domain markedly inhibit nitric oxide synthase activity in endothelial membranes and interact directly with the enzyme to inhibit activity of purified recombinant eNOS expressed in Escherichia coli. The inhibition of purified eNOS by the caveolin scaffolding domain peptide is competitive and completely reversed by Ca2+-calmodulin. These studies establish that caveolin, via its scaffolding domain, directly forms an inhibitory complex with eNOS and suggest that caveolin inhibits eNOS by abrogating the enzyme's activation by calmodulin.
Highlights
Nitric oxide is synthesized in diverse mammalian tissues by a family of calmodulin-dependent nitric oxide synthases
To explore whether sequences corresponding to the caveolin scaffolding domain could be implicated in the calmodulin-regulated interactions between endothelial isoform of nitric oxide synthase (eNOS) and caveolin, we designed synthetic oligopeptides based on the scaffolding domain of caveolin [5] and the calmodulin-binding domain of eNOS [9]
We found that the Cav-1 peptide, but not the control Cav-X peptide, completely blocked the co-immunoprecipitation by caveolin antibody of the eNOS-caveolin complex (Fig. 1B); these peptides did not alter the recovery of caveolin
Summary
Nitric oxide is synthesized in diverse mammalian tissues by a family of calmodulin-dependent nitric oxide synthases. The principal structural protein in caveolae, interacts with eNOS and leads to enzyme inhibition in a reversible process modulated by Ca2؉-calmodulin Synthetic oligopeptides corresponding to this caveolin scaffolding domain directly interact with c-Src, Ha-Ras, and G␣s and have been shown to inhibit enzymatic activities associated with these signaling proteins [5,6,7]. The ability of these peptides to recapitulate the inhibitory action of caveolin suggests that the caveolin scaffolding domain mediates both association with and inhibition by caveolin for diverse proteins. We have extended this paradigm to the analysis of the interactions between caveolin and eNOS and explored the central role of calmodulin in the modulation of this interaction
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