1631-P: scEMC10 Suppresses Glucose Uptake in Skeletal Muscle via the Inhibition of AMPK Signaling

Abstract

Skeletal muscle is one of the most important organs involved in the glucose metabolism, and is mainly responsible for postprandial glucose uptake. We have previously shown that overexpression of the secreted isoform of endoplasmic reticulum protein complex subunit 10 (scEMC10) impairs, while Emc10 knockout (KO) or antibody neutralization of circulating scEMC10 improves glucose tolerance in mice. In this study, we presented evidence the regulation of glucose metabolism is achieved through the impacts of scEMC10 on skeletal muscle. PET-CT analyses showed Emc10 KO increased, whereas overexpression of scEMC10 decreased glucose uptake of skeletal muscle in mice, which can be accounted for by the corresponding changes in GLUT4 expression in their skeletal muscle tissues. Recombinant scEMC10 protein reduced both expression and membrane translocation of GLUT4, thus inhibiting glucose uptake in L6-GLUT4myc skeletal muscle cells. Mechanistically, scEMC10 decreased phosphorylations of both AMPK and its downstream target TBC1D1 in both skeletal muscle cells and tissues. Intraperitoneal administration of a scEMC10 neutralizing antibody increased both expression and membrane translocation of GLUT4 accompanied by increased uptake of glucose in gastrocnemius in mice. These data support scEMC10 as an inhibitor of glucose uptake in skeletal muscle and suggest the inhibition of scEMC10 will be a promising way to lower blood glucose in diabetes. Disclosure S.Jin: None. Y.Wang: None. K.Chen: None. J.Dai: None. L.Chen: None. S.Liu: None. X.Wang: None. Funding National Natural Science Foundation of China (81873645); Science and Technology Commission of Shanghai Municipality (22140902700)