Abstract
Following phosphorylation by the insulin receptor kinase, the insulin receptor substrates (IRS)-1 and IRS-2 bind to and activate several Src homology 2 (SH2) domain proteins. To identify novel proteins that interact with IRS proteins in muscle, a human skeletal muscle cDNA expression library was created in the lambdaEXlox system and probed with baculovirus-produced and tyrosine-phosphorylated human IRS-1. One clone of the 10 clones which was positive through three rounds of screening represented the C terminus of the human homologue of the adult fast twitch skeletal muscle Ca2+-ATPase (SERCA1) including the cytoplasmic tail and part of transmembrane region 10. Western blot analysis of extracts of rat muscle demonstrated co-immunoprecipitation of both IRS-1 and IRS-2 with the skeletal muscle Ca2+-ATPase (SERCA1) and the cardiac muscle isoform (SERCA2). In both cases, injection of insulin stimulated a 2- to 6-fold increase in association of which was maximal within 5 min. In primary cultures of aortic smooth muscle cells and C2C12 cells, the insulin-stimulated interaction between IRS proteins and SERCA1 and -2 was dose-dependent with a maximum induction at 100 nM insulin. This interaction was confirmed in a "pull down" experiment using a glutathione S-transferase fusion protein containing the C terminus of the human SERCA isoform and phosphorylated IRS-1 in vitro and could be blocked by a FLVRES-like domain peptide present in the human SERCA sequence. Affinity chromatography of phosphopeptide libraries using the glutathione S-transferase fusion protein of the C terminus of SERCA1 indicated a consensus sequence for binding of XpYGSS; this is identical to potential tyrosine phosphorylation sites at position 431 of human IRS-1 and at position 500 of human IRS-2. In streptozotocin diabetic rats the interaction between IRS proteins and SERCA1 in skeletal muscle and SERCA2 in cardiac muscle was significantly reduced. Taken together, these results indicate that the IRS proteins bind to the Ca2+-ATPase of the sarcoplasmic reticulum in an insulin-regulated fashion, thus creating a potential link between the tyrosine phosphorylation cascade and effects of insulin on calcium.
Highlights
Following phosphorylation by the insulin receptor kinase, the insulin receptor substrates (IRS)-1 and IRS-2 bind to and activate several Src homology 2 (SH2) domain proteins
To identify novel proteins that interact with IRS proteins in muscle, a human skeletal muscle cDNA expression library was created in the EXlox system and probed with baculovirus-produced and tyrosine-phosphorylated human IRS-1
This study reports the result of that screening and demonstrates that the interaction between different isoforms of the Ca2ϩ-ATPase (SERCA1 and SERCA2) occurs with both IRS-1 and IRS-2 in intact cells and muscle, is dependent on
Summary
Following phosphorylation by the insulin receptor kinase, the insulin receptor substrates (IRS)-1 and IRS-2 bind to and activate several Src homology 2 (SH2) domain proteins. In primary cultures of aortic smooth muscle cells and C2C12 cells, the insulin-stimulated interaction between IRS proteins and SERCA1 and -2 was dose-dependent with a maximum induction at 100 nM insulin This interaction was confirmed in a “pull down” experiment using a glutathione S-transferase fusion protein containing the C terminus of the human SERCA isoform and phosphorylated IRS-1 in vitro and could be blocked by a FLVRES-like domain peptide present in the human SERCA sequence. In streptozotocin diabetic rats the interaction between IRS proteins and SERCA1 in skeletal muscle and SERCA2 in cardiac muscle was significantly reduced Taken together, these results indicate that the IRS proteins bind to the Ca2؉-ATPase of. To identify novel IRS binding proteins in skeletal muscle, the predominant tissue involved in insulin-stimulated glucose disposal and the major site of insulin resistance in non-insulin-dependent diabetes mellitus, we screened a human skeletal muscle cDNA expression library with baculovirus-produced human-phosphorylated IRS-1. This study reports the result of that screening and demonstrates that the interaction between different isoforms of the Ca2ϩ-ATPase (SERCA1 and SERCA2) occurs with both IRS-1 and IRS-2 in intact cells and muscle, is dependent on
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