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S-glutathionylation of cryptic cysteines enhances titin elasticity by blocking protein folding.

Cell (2014-03-19)
Jorge Alegre-Cebollada, Pallav Kosuri, David Giganti, Edward Eckels, Jaime Andrés Rivas-Pardo, Nazha Hamdani, Chad M Warren, R John Solaro, Wolfgang A Linke, Julio M Fernández
RESUMEN

The giant elastic protein titin is a determinant factor in how much blood fills the left ventricle during diastole and thus in the etiology of heart disease. Titin has been identified as a target of S-glutathionylation, an end product of the nitric-oxide-signaling cascade that increases cardiac muscle elasticity. However, it is unknown how S-glutathionylation may regulate the elasticity of titin and cardiac tissue. Here, we show that mechanical unfolding of titin immunoglobulin (Ig) domains exposes buried cysteine residues, which then can be S-glutathionylated. S-glutathionylation of cryptic cysteines greatly decreases the mechanical stability of the parent Ig domain as well as its ability to fold. Both effects favor a more extensible state of titin. Furthermore, we demonstrate that S-glutathionylation of cryptic cysteines in titin mediates mechanochemical modulation of the elasticity of human cardiomyocytes. We propose that posttranslational modification of cryptic residues is a general mechanism to regulate tissue elasticity.