Biochem Soc Trans 2003,
Ruderman, N B; Cacicedo, J M; Itani, S; Yagihashi, N; Saha, A K; Ye, J M; Chen, K; Zou, M; Carling, D; Boden, G; Cohen, R A; Keaney, J; Kraegen, E W; Ido, Y
Based on available evidence, we would propose the following. (i) Excesses of glucose and free fatty acids cause insulin resistance in skeletal muscle and damage to the endothelial cell by a similar mechanism. (ii) Key pathogenetic events in this mechanism very likely include increased fatty acid esterification, protein kinase C activation, an increase in oxidative stress (demonstrated to date in endothelium) and alterations in the inhibitor kappa B kinase/nuclear factor kappa B system. (iii) Activation of AMP-activated protein kinase (AMPK) inhibits all of these events and enhances insulin signalling in the endothelial cell. It also enhances insulin action in muscle; however, the mechanism by which it does so has not been well studied. (iv) The reported beneficial effects of exercise and metformin on cardiovascular disease and insulin resistance in humans could be related to the fact that they activate AMPK. (v) The comparative roles of AMPK in regulating metabolism, signalling and gene expression in muscle and endothelial cells warrant further study.
Diseases/Pathways annotated by Medline MESH:
Diabetes Mellitus, Insulin Resistance
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Text Mining Data
insulin → AMP activated protein kinase (AMPK): "
( iii ) Activation of AMP activated protein kinase (AMPK)
inhibits all of these events and enhances insulin
signalling in the endothelial cell
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