Molecular basis of insulin action.

来自 NCBI

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Considerable progress has been made in our understanding of the molecular mechanisms of insulin action. The insulin receptor is a membrane receptor possessing tyrosine kinase activity. The binding of insulin to its receptor induces autophosphorylation of the receptor on tyrosine residues and thereby stimulates its tyrosine kinase activity towards intracellular substrates such as Shc or IRS1. This tyrosine kinase activity, which plays a crucial role in the transmission of the signal, is decreased in several insulin-resistance situations. This decrease was initially attributed to the phosphorylation of the receptor on serine or threonine residues, but this mechanism is now seriously questioned. Tyrosine phosphorylation of IRSs and Shc by the insulin receptor permits the activation of two major signalling pathways, the MAP kinase pathway and the Pl 3-kinase pathway. MAP kinases are involved in proliferation and differentiation processes, in particular by regulating the transcriptional activity of the nucleus. The MAP kinase pathway does not appear to play a significant role in the transmission of the metabolic effects of insulin. In contrast, the Pl 3-kinase pathway is involved in several of the metabolic effects of the hormone, such as glucose transport, glycolysis and glycogen synthesis. The Pl 3-kinase pathway also plays a crucial role in the regulation of protein synthesis by insulin. Moreover, this pathway is involved in cell growth and transmits a strong anti-apoptotic signal.

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Muscles Liver Adipose Tissue Cell Membrane Animals Potassium Sodium Calcium Sulfhydryl Compounds Pyruvate Dehydrogenase Complex