Calorie restriction increases insulin‐stimulated tyrosine phosphorylation of insulin receptor and insulin receptor substrate‐1 in rat skeletal muscle

Abstract

A moderate reduction in calorie intake (calorie restriction, CR) improves insulin‐stimulated glucose transport in skeletal muscle. Therefore, we studied muscle insulin signalling in ad libitum (AL) and CR (~60% AL intake for 20 days) fed rats, which received a control injection (sterile water) or an insulin injection (30 U kg^–1 body weight). In control (not insulin‐treated) rats, there was no detectable tyrosine phosphorylation of insulin receptor (IR), regardless of diet; no diet effect on tyrosine phosphorylation of insulin receptor substrate‐1 (IRS1) or IRS1‐associated phosphatidylinositol 3‐kinase (PI3K) protein and 21% higher IRS1‐associated PI3K activity in AL vs. CR. In insulin‐treated rats, tyrosine‐phosphorylated IR was 79% higher for CR vs. AL; tyrosine‐phosphorylated IRS1 was 109% higher for CR vs. AL; IRS1‐associated PI3K protein and IRS1‐associated PI3K activity were unaffected by diet. Calorie restriction amplifies early insulin signalling steps without changing IRS1‐associated PI3K, suggesting enhanced glucose transport is mediated by altering: IRS1‐PI3K localization, PI3K associated with proteins other than IRS1 or post‐PI3K events.