Literature DB >> 21719532

The cytosolic chaperone Hsc70 promotes traffic to the cell surface of intracellular retained melanocortin-4 receptor mutants.

Eirini Meimaridou1, Sakina B Gooljar, Nalini Ramnarace, Lucia Anthonypillai, Adrian J L Clark, J Paul Chapple.   

Abstract

Inherited modifications in protein structure frequently cause a loss-of-function by interfering with protein synthesis, transport, or stability. For the obesity-linked melanocortin-4 receptor (MC4R) and other G protein-coupled receptors, many mutants are intracellular retained. The biogenesis and trafficking of G protein-coupled receptors are regulated by multiple factors, including molecular chaperone networks. Here, we have investigated the ability of the cytosolic cognate 70-kDa heat-shock protein (Hsc70) chaperone system to modulate cell surface expression of MC4R. Clinically occurring MC4R mutants S58C, P78L, and D90N were demonstrated to have reduced trafficking to the plasma membrane and to be retained at the endoplasmic reticulum (ER). Analyses by fluorescence recovery after photobleaching revealed that the mobility of MC4R mutant protein at the ER was reduced, implying protein misfolding. In cells expressing MC4R, overexpression of Hsc70 resulted in increased levels of wild-type and mutant receptors at the cell surface. MC4R and Hsc70 coimmunoprecipitated, and fluorescence recovery after photobleaching analyses showed that increasing cellular levels of Hsc70 promoted the mobility of ER retained MC4R. Moreover, expression of HSJ1b, a cochaperone that enhances degradation of Hsc70 clients, reduced cellular levels of MC4R. Hsp70 and Hsp90 chaperone systems collaborate in the cellular processing of clients. For MC4R, inhibition of endogenous Hsp90 by geldanamycin reduced receptor levels. By contrast, expression of the Hsp90 cochaperone Aha1 (activator of Hsp90 ATPase) increased cellular levels of MC4R. Finally, we demonstrate that signaling of intracellular retained MC4R mutants is increased in cells overexpressing Hsc70. These data indicate that cytosolic chaperone systems can facilitate rescue of intracellular retained MC4R by improving folding. They also support proteostasis networks as a potential target for MC4R-linked obesity.

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Year:  2011        PMID: 21719532      PMCID: PMC5417233          DOI: 10.1210/me.2011-1020

Source DB:  PubMed          Journal:  Mol Endocrinol        ISSN: 0888-8809


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