Abstract
In this article it is represented the literature review on the zinc metabolism in the humans and its role in the development of diabetes mellitus and coronary heart disease. The practice of clinical use of zinc has been analysed.
References
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8. Maret W. New perspectives of Zinc coordination environments in proteins // J. Inorganic Biochem. 2011, 111, 110-116.
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10. Scott D.A. Crystalline insulin // Biochem. J. 1934, 28, 1592-1602.
11. Chimienti F., Devergnas S., Favier A., Seve M. Identification and cloning of a beta-cell-specific zinc transporter, ZnT-8, localized into insulin secretory
granule // Diabetes. 2004, 53, 2330-2337.
12. Coulston L., Dandona P. Insulin-like effect of Zinc on adipocytes // Diabetes. 1980, 29, N 8, 665-667.
13. May J.M., Contoreggi C.S. The mechanism of the insulin-like effects of ionic Zinc // J. Biol. Chem. 1982, 257, N 8, 4362-4368.
14. Ezaki O. IIb group metal ions (Zn2+, Cd2+, Hg2+) stimulate glucose transport activity by post-insulin receptor kinase mechanism in rat adipocytes // J. Biol.
Chem. 1989, 264, N 27,16118-16122.
15. Tang X.H., Shay N.F. Zinc has an insulin-like effect on glucose transport mediated by phosphoinositol-3-kinase and Akt in 3T3-L1 fibroblasts and adipocytes // J.
Nutrit. 2001, 131, N 5, 1414-1420.
2. Chasapis C.T., Loutsidou A.C., Spiliopoulou C.A. et al. Zinc and human health: an update // Arch. Toxicol. 2012, 86, 4, 521-534.
3. Foster M., Samman S. Zinc and redox signaling: perturbations associated with cardiovascular disease and diabetes mellitus // Antioxid. Redox Signal. 2010,
13, 10, 1549-1573.
4. Little P.J., Bhattacharya R., Moreyra A.E., Korichneva I.L. Zinc and cardiovascular disease // Nutrition. 2010, 26, 1050-1057.
5. Kelleher S.L., McCormick N.H., Velasquez V., Lopez V. Zinc in specialized secretory tissues: roles in the pancreas, prostate, and mammary gland // Adv. Nutr. 2011, 2, 101-111.
6. Haase H., Rink L. Zinc Signaling. Zinc in Human Health // Amsterdam, Netherlands: IOS Press. 2011. 243 p.
7. Kambe T. An overview of a wide range of functions of ZnT and Zip Zinc transporters in the secretory pathway // Biosci. Biotechnol. Biochem. 2011, 75, N 6, 1036-1043.
8. Maret W. New perspectives of Zinc coordination environments in proteins // J. Inorganic Biochem. 2011, 111, 110-116.
9. Beyersmann D., Haase H. Functions of Zinc in signaling, proliferation and differentiation of mammalian cells // BioMetals. 2001, 14, N 3-4, 331-341.
10. Scott D.A. Crystalline insulin // Biochem. J. 1934, 28, 1592-1602.
11. Chimienti F., Devergnas S., Favier A., Seve M. Identification and cloning of a beta-cell-specific zinc transporter, ZnT-8, localized into insulin secretory
granule // Diabetes. 2004, 53, 2330-2337.
12. Coulston L., Dandona P. Insulin-like effect of Zinc on adipocytes // Diabetes. 1980, 29, N 8, 665-667.
13. May J.M., Contoreggi C.S. The mechanism of the insulin-like effects of ionic Zinc // J. Biol. Chem. 1982, 257, N 8, 4362-4368.
14. Ezaki O. IIb group metal ions (Zn2+, Cd2+, Hg2+) stimulate glucose transport activity by post-insulin receptor kinase mechanism in rat adipocytes // J. Biol.
Chem. 1989, 264, N 27,16118-16122.
15. Tang X.H., Shay N.F. Zinc has an insulin-like effect on glucose transport mediated by phosphoinositol-3-kinase and Akt in 3T3-L1 fibroblasts and adipocytes // J.
Nutrit. 2001, 131, N 5, 1414-1420.
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