We have demonstrated that zinc supplementation provides cardiac protection from diabetes in mice, but its underlying mechanism remains unclear. Since zinc mimics the function of insulin, it may provide benefit to the heart via stimulating Akt-mediated glucose metabolism. Akt2 plays an important role in cardiac glucose metabolism and mice with Akt2 gene deletion (Akt2-KO) exhibit a type 2 diabetes phenotype; therefore, we assumed that no cardiac protection by zinc supplementation from diabetes would be observed in Akt2-KO mice. Surprisingly, despite Akt2 gene deletion, zinc supplementation provided protection against cardiac dysfunction and other pathological changes in Akt2-KO mice, which were accompanied by significant decreases in Akt and GSK-3β phosphorylation. Correspondingly, glycogen synthase phosphorylation and hexokinase II and PGC-1α expression, all involved in the regulation of glucose metabolism, were significantly altered in diabetic hearts, along with a significantly increased expression of Akt negative regulators: PTEN, PTP1B, and TRB3. All these molecular, pathological, and functional changes were significantly prevented by 3-month zinc supplementation. Furthermore, the stimulation of Akt-mediated glucose metabolic kinases or enzymes by zinc treatment was metallothionein-dependent since it could not be observed in metallothionein-knockout mice. These results suggest that zinc preserves cardiac function and structure in Akt2-KO mice presumably due to its insulin mimetic effect on cardiac glucose-metabolism. The cardioprotective effects of zinc are metallothionein-dependent. This is very important since zinc supplementation may be required for patients with Akt2 gene deficiency or insulin resistance.
Keywords: Akt2 knockout; Diabetic heart; GSK-3β; Insulin resistance; Metallothionein; Zinc.
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