C. A. Casmaer scite author profile

C. A. Casmaer

2Publications

32Citation Statements Received

72Citation Statements Given

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Potentiation of insulin-stimulated glucose transport by the AMP-activated protein kinase

Gitcho²,

Casmaer³

et al. 2007

American Journal of Physiology-Cell Physiology

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Data from the use of activators and inhibitors of the AMP-activated protein kinase (AMPK) suggest that AMPK increases sensitivity of glucose transport to stimulation by insulin in muscle cells. We assayed insulin action after adenoviral (Ad) transduction of constitutively active (CA; a truncated form of AMPKalpha(1)) and dominant-negative (DN; which depletes endogenous AMPKalpha) forms of AMPKalpha (Ad-AMPKalpha-CA and Ad-AMPKalpha-DN, respectively) into C(2)C(12) myotubes. Compared with control (Ad-green fluorescent protein), Ad-AMPK-CA increased the ability of insulin to stimulate glucose transport. The increased insulin action in cells expressing AMPK-CA was suppressed by compound C (an AMPK inhibitor). Exposure of cells to 5-aminoimidazole-4-carboxamide-1beta-D-ribofuranoside (an AMPK activator) increased insulin action in uninfected myotubes and myotubes transduced with green fluorescent protein but not in Ad-AMPK-DN-infected myotubes. In Ad-AMPK-CA-transduced cells, serine phosphorylation of insulin receptor substrate 1 was decreased at a mammalian target of rapamycin (or p70 S6 kinase) target site that has been reported to be associated with insulin resistance. These data suggest that, in myotubes, activated AMPKalpha(1) is sufficient to increase insulin action and that the presence of functional AMPKalpha is required for 5-aminoimidazole-4-carboxamide-1beta,D-ribofuranoside-related increases in insulin action.

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Malonyl coenzyme A affects insulin-stimulated glucose transport in myotubes

Patil

Mielke²,

Lewis³

et al. 2007

Archives of Physiology and Biochemistry

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There seems to be an association between increased concentrations of malonyl coenzyme A (malonyl CoA) in skeletal muscle and diabetes and/or insulin resistance. The purpose of the current study was to test the hypothesis that treatments designed to manipulate malonyl CoA concentrations would affect insulin-stimulated glucose transport in cultured C2C12 myotubes. We assessed glucose transport after polyamine-mediated delivery of malonyl CoA to myotubes, after incubation with dichloroacetate (which reportedly increases malonyl CoA levels), or after exposure of myotubes to 2-bromopalmitate, a carnitine palmitoyl transferase I inhibitor. All three of these treatments prevented stimulation of glucose transport by insulin. We also assayed glucose transport after 30 min of inhibition of acetyl coenzyme A carboxylase (ACC), the enzyme which catalyzes the production of malonyl CoA. Three unrelated ACC inhibitors (diclofop, clethodim, and Pfizer CP-640186) all enhanced insulin-stimulated glucose transport. However, none of the treatments designed to manipulate malonyl CoA concentrations altered markers of proximal insulin signaling through Akt. The findings support the hypothesis that acute changes in malonyl CoA concentrations affect insulin action in muscle cells but suggest that the effects do not involve alterations in proximal insulin signaling.

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C. A. Casmaer

Potentiation of insulin-stimulated glucose transport by the AMP-activated protein kinase

Malonyl coenzyme A affects insulin-stimulated glucose transport in myotubes

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