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Oxidative processing of latent Fas in the endoplasmic reticulum controls the strength of apoptosis.

Molecular and cellular biology (2012-07-04)
Vikas Anathy, Elle Roberson, Brian Cunniff, James D Nolin, Sidra Hoffman, Page Spiess, Amy S Guala, Karolyn G Lahue, Dylan Goldman, Stevenson Flemer, Albert van der Vliet, Nicholas H Heintz, Ralph C Budd, Kenneth D Tew, Yvonne M W Janssen-Heininger
RESUMO

We recently demonstrated that S-glutathionylation of the death receptor Fas (Fas-SSG) amplifies apoptosis (V. Anathy et al., J. Cell Biol. 184:241-252, 2009). In the present study, we demonstrate that distinct pools of Fas exist in cells. Upon ligation of surface Fas, a separate pool of latent Fas in the endoplasmic reticulum (ER) underwent rapid oxidative processing characterized by the loss of free sulfhydryl content (Fas-SH) and resultant increases in S-glutathionylation of Cys294, leading to increases of surface Fas. Stimulation with FasL rapidly induced associations of Fas with ERp57 and glutathione S-transferase π (GSTP), a protein disulfide isomerase and catalyst of S-glutathionylation, respectively, in the ER. Knockdown or inhibition of ERp57 and GSTP1 substantially decreased FasL-induced oxidative processing and S-glutathionylation of Fas, resulting in decreased death-inducing signaling complex formation and caspase activity and enhanced survival. Bleomycin-induced pulmonary fibrosis was accompanied by increased interactions between Fas-ERp57-GSTP1 and S-glutathionylation of Fas. Importantly, fibrosis was largely prevented following short interfering RNA-mediated ablation of ERp57 and GSTP. Collectively, these findings illuminate a regulatory switch, a ligand-initiated oxidative processing of latent Fas, that controls the strength of apoptosis.

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Millipore
ProteoExtract® Subcellular Proteome Extraction Kit