Recent advances in the biochemistry of chromium(III)

The Journal of Trace Elements in Experimental Medicine Pub Date : 2003-01-01 DOI:10.1002/jtra.10038

John B. Vincent

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引用次数: 27

Abstract

The biochemistry of chromium(III) [Cr(III)] has been a poorly understood field of endeavor; studies of the biochemistry of none of the other transition metals have been as problematic. Despite four decades of investigation, only recently has a clear picture of the role of Cr potentially been defined. The biologically important form is the trivalent ion. Cr(III) apparently is required for proper carbohydrate and lipid metabolism in mammals, although Cr deficiency is difficult to achieve. Conditions that increase circulating glucose and insulin concentrations increase urinary chromium output. Chromium is excreted after an insulin challenge, probably in the form of the oligopeptide chromodulin. Chromodulin may be the key to understanding the role of chromium at a molecular level as the molecule has been found to bind to activated insulin receptor, stimulating its kinase activity. A mechanism for the action of chromodulin has recently been proposed; this mechanism can serve as a potential framework for further studies to test the role of chromium in metabolism. An examination of the use of chromium picolinate, [Cr(pic)3], illustrates the difficulties associated with biochemical studies dealing with Cr(III). J. Trace Elem. Exp. Med. 16:227–236, 2003. © 2003 Wiley-Liss, Inc.

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铬（III）的生物化学研究进展

铬（III）的生物化学[Cr（III）]一直是一个鲜为人知的研究领域；对其他过渡金属的生物化学研究都没有出现过这样的问题。尽管进行了40年的调查，但直到最近才对Cr的潜在作用有了明确的了解。生物上重要的形式是三价离子。Cr（III）显然是哺乳动物正常碳水化合物和脂质代谢所必需的，尽管Cr缺乏很难实现。增加循环葡萄糖和胰岛素浓度的情况会增加尿铬的输出。铬在胰岛素激发后排出，可能以寡肽色杜林的形式排出。色杜林可能是在分子水平上理解铬作用的关键，因为已经发现铬分子与激活的胰岛素受体结合，刺激其激酶活性。最近提出了色杜林的作用机制；这一机制可以为进一步研究铬在代谢中的作用提供一个潜在的框架。吡啶甲酸铬[Cr（pic）3]的使用检查说明了处理Cr（III）的生化研究的困难。J.Trace Elem。Exp.Med.16:227-2362003。©2003 Wiley-Liss，股份有限公司。

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The Journal of Trace Elements in Experimental Medicine

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