It was recently shown that leptin impairs insulin signalling, i.e. insulin receptor autophosphorylation and insulin-receptor substrate (IRS)-1 phosphorylation in rat-1 fibroblasts, NIH3T3 cells and HepG2 cells. To evaluate whether leptin might impair the effects of insulin in muscle tissue we studied the interaction of insulin and leptin in a muscle cell system, i.e. C2C12 myotubes. Preincubation of C2C12 cells with leptin (1-500 ng/ml) did not significantly affect insulin stimulated glucose transport and glycogen synthesis (1.8 to 2 fold stimulation); however, leptin by itself (1 ng/ml) was able to mimic approximately 80-90% of the insulin effect on glucose transport and glycogen synthesis. Both glucose transport as well as glycogen synthesis were inhibited by the phosphatidylinositol-3 (PI3)-kinase inhibitor wortmannin and the protein kinase C inhibitor H7 while no effect was observed with the S6-kinase inhibitor rapamycin. We determined whether the effect of leptin occurs through activation of IRS-1 and PI3-kinase. Leptin did not stimulate PI3-kinase activity in IRS-1 immunoprecipitates; however, PI3-kinase activation could be demonstrated in p85 alpha immunoprecipitates (3.04 +/- 1.5 fold of basal). In summary the data provide the first evidence for a positive crosstalk between the signalling chain of the insulin receptor and the leptin receptor. Leptin mimics in C2C12 myotubes insulin effects on glucose transport and glycogen synthesis most likely through activation of PI3-kinase. This effect of leptin occurs independently of IRS-1 activation in C2C12 cells.
SummaryWe have recently shown that leptin mimicks insulin effects on glucose transport and glycogen synthesis through a phosphatidylinositol-3 (PI) kinase dependent pathway in C2C12 myotubes. The aim of the present study was to identify the signalling path from the leptin receptor to the PI-3 kinase. We stimulated C2C12 myotubes with insulin (100 nmol/l, 5 min) or leptin (0.62 nmol/l, 10 min) and determined PI-3 kinase activity in immunoprecipitates with specific non-crossreacting antibodies against insulinreceptor substrate (IRS 1/IRS 2) and against janus kinase (JAK 1 and JAK 2). While insulin-stimulated PI-3 kinase activity is detected in IRS-1 and IRS-2 immunoprecipitates, leptin-stimulated PI-3 kinase activity is found only in IRS-2 immunoprecipitates, suggesting that the leptin signal to PI-3 kinase occurs via IRS-2 and not IRS-1. Leptin-, but not insulin-stimulated PI-3 kinase activity is also detected in immunoprecipitates with antibodies against JAK-2, but not JAK-1. The data suggest that JAK-2 and IRS-2 couple the leptin signalling pathway to the insulin signalling chain. Since we have also detected leptin-stimulated tyrosine phosphorylation of JAK-2 and IRS-2 in C2C12 myotubes it can be assumed that leptin activates JAK-2 which induces tyrosine phosphorylatjon of IRS-2 leading to activation of PI-3 kinase. As we could not detect the long leptin receptor isoform in C2C12 myotubes we conclude that this signalling pathway is activated by a short leptin receptor isoform. [Diabetologia (1997[Diabetologia ( ) 40: 1358[Diabetologia ( -1362 Keywords leptin, leptin receptor, insulin receptor, phosphatidylinositol kinase, janus kinaseThe ob -gene product leptin has been defined as a regulator of food intake and energy expenditure [1]. Identification and cloning of specific leptin receptors, which exist in different isoforms, has recently provided new insights into the mechanism and physiological function of leptin signalling in different tissues [2,3]. It was shown that effects of leptin on food intake
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