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PID1 regulates insulin-dependent glucose uptake by controlling intracellular sorting of GLUT4-storage vesicles
Authors:Alexander W. Fischer  Kirstin Albers  Christian Schlein  Frederike Sass  Lucia M. Krott  Hartwig Schmale  Philip L.S.M. Gordts  Ludger Scheja  Joerg Heeren
Affiliation:1. Department of Biochemistry and Molecular Cell Biology, University Medical Center Hamburg Eppendorf, 20246 Hamburg, Germany;2. Department of Medicine, University of California, San Diego, La Jolla, CA 92093, USA;3. Glycobiology Research and Training Center, University of California, San Diego, La Jolla, CA 92093, USA
Abstract:The phosphotyrosine interacting domain-containing protein 1 (PID1) serves as a cytosolic adaptor protein of the LDL receptor-related protein 1 (LRP1). By regulating its intracellular trafficking, PID1 controls the hepatic, LRP1-dependent clearance of pro-atherogenic lipoproteins. In adipose and muscle tissues, LRP1 is present in endosomal storage vesicles containing the insulin-responsive glucose transporter 4 (GLUT4). This prompted us to investigate whether PID1 modulates GLUT4 translocation and function via its interaction with the LRP1 cytosolic domain. We initially evaluated this in primary brown adipocytes as we observed an inverse correlation between brown adipose tissue glucose uptake and expression of LRP1 and PID1. Insulin stimulation in wild type brown adipocytes induced LRP1 and GLUT4 translocation from endosomal storage vesicles to the cell surface. Loss of PID1 expression in brown adipocytes prompted LRP1 and GLUT4 sorting to the plasma membrane independent of insulin signaling. When placed on a diabetogenic high fat diet, systemic and adipocyte-specific PID1-deficient mice presented with improved hyperglycemia and glucose tolerance as well as reduced basal plasma insulin levels compared to wild type control mice. Moreover, the improvements in glucose parameters associated with increased glucose uptake in adipose and muscle tissues from PID1-deficient mice. The data provide evidence that PID1 serves as an insulin-regulated retention adaptor protein controlling translocation of LRP1 in conjunction with GLUT4 to the plasma membrane of adipocytes. Notably, loss of PID1 corrects for insulin resistance-associated hyperglycemia emphasizing its pivotal role and therapeutic potential in the regulation of glucose homeostasis.
Keywords:Corresponding author at: Department of Biochemistry and Molecular Cell Biology, University Medical Center Hamburg Eppendorf, Martinistrasse 52, 20246 Hamburg, Germany.  Adaptor proteins  Type 2 diabetes  GLUT4  Insulin  Glucose homeostasis  Adipose tissues
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