1. LMBD1 protein serves as a specific adaptor for insulin receptor internalization
- Author
-
Ming-Fu Chang, Linda Tzu-Ling Tseng, Chieh-Liang Lin, Kai-Yuan Tzen, and Shin C. Chang
- Subjects
Cell signaling ,Nucleocytoplasmic Transport Proteins ,media_common.quotation_subject ,Adaptor Protein Complex 2 ,Transferrin receptor ,Endocytosis ,Biochemistry ,Clathrin ,Cell Line ,Mice ,Fluorodeoxyglucose F18 ,Animals ,Humans ,Internalization ,Molecular Biology ,Protein kinase B ,media_common ,biology ,Myocardium ,Cell Biology ,Mice, Mutant Strains ,Receptor, Insulin ,Insulin receptor internalization ,Cell biology ,Rats ,Insulin receptor ,Metabolism ,Gene Knockdown Techniques ,Positron-Emission Tomography ,biology.protein ,Radiopharmaceuticals ,Proto-Oncogene Proteins c-akt ,Signal Transduction - Abstract
Energy homeostasis is crucial for maintaining normally functioning cells; disturbances in this balance often cause various diseases. The limb region 1 (LMBR1) domain containing 1 gene (lmbrd1) encodes the LMBD1 protein that possesses 9 putative transmembrane domains. LMBD1 has been suggested to be involved in the lysosome in aiding the export of cobalamin. In this study, we determined that LMBD1 plays a regulatory role in the plasma membrane. A micro-positron emission tomography analysis showed that a single-allele knock-out of lmbrd1 increased the 18F-fluorodeoxyglucose uptake in murine hearts. In addition, the knockdown of lmbrd1 resulted in an up-regulated signaling of the insulin receptor (IR) and its downstream signaling molecule, Akt. Confocal and live total internal reflection fluorescence microscopy showed that LMBD1 co-localized and co-internalized with clathrin and the IR, but not with the transferrin receptor. The results of the mutation analysis and phenotypic rescue experiments indicate that LMBD1 interacts with adaptor protein-2 and is involved in the unique clathrin-mediated endocytosis of the IR. LMBD1 selectively interacts with the IR. The knockdown of lmbrd1 attenuated IR endocytosis, resulting in the perturbation of the IR recycling pathway and consequential enhancement of the IR signaling cascade. In summary, LMBD1 plays an imperative role in mediating and regulating the endocytosis of the IR. Background: LMBD1 is a transmembrane protein encoded by the lmbrd1 gene. Its biological function remains unclear. Results: lmbrd1 knockdown hinders the internalization of the insulin receptor, allowing it and its downstream signaling molecules to remain activated. Conclusion: LMBD1 functions as an insulin receptor-specific adaptor for endocytosis. Significance: LMBD1 is the first identified protein that participates in the regulation of insulin receptor endocytosis.
- Published
- 2013