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Metallothionein structure and reactivity


Vasak, M; Meloni, G (2008). Metallothionein structure and reactivity. In: Zatta, P. Metallothioneins in Biochemistry and Patholgy. Singapore: World Scientific Publishing, 1-24.

Abstract

The structure and chemistry of mammalian MTs with divalent (ZnII, CdII) and monovalent (CuI) metal ions pertinent to their role in biological systems are discussed. In human four MT isoforms designated MT-1 through MT-4 are found. The characteristic feature of these cysteine- and metal-rich proteins is the presence of two metal-thiolate clusters located in independent protein domains. The structure of these clusters is highly dynamic allowing a fast metal exchange and metal transfer to modulate activity and function of zinc-binding proteins.
Despite the fact that the protein thiolates are involved in metal binding, they show a high reactivity toward electrophiles and free radicals leading to cysteine oxidation and/or modification, and metal release. The unusual structural properties of MT-3 are responsible for
its neuronal growth inhibitory activity, involvement in trafficking of zinc vesicles in the CNS, and the protection against copper-mediated toxicity in Alzheimer's disease. MT-1/-2 also play a role in cellular resistance against a number of metal-based drugs.

The structure and chemistry of mammalian MTs with divalent (ZnII, CdII) and monovalent (CuI) metal ions pertinent to their role in biological systems are discussed. In human four MT isoforms designated MT-1 through MT-4 are found. The characteristic feature of these cysteine- and metal-rich proteins is the presence of two metal-thiolate clusters located in independent protein domains. The structure of these clusters is highly dynamic allowing a fast metal exchange and metal transfer to modulate activity and function of zinc-binding proteins.
Despite the fact that the protein thiolates are involved in metal binding, they show a high reactivity toward electrophiles and free radicals leading to cysteine oxidation and/or modification, and metal release. The unusual structural properties of MT-3 are responsible for
its neuronal growth inhibitory activity, involvement in trafficking of zinc vesicles in the CNS, and the protection against copper-mediated toxicity in Alzheimer's disease. MT-1/-2 also play a role in cellular resistance against a number of metal-based drugs.

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Additional indexing

Item Type:Book Section, not refereed, further contribution
Communities & Collections:04 Faculty of Medicine > Department of Biochemistry
07 Faculty of Science > Department of Biochemistry
Dewey Decimal Classification:570 Life sciences; biology
Language:English
Date:October 2008
Deposited On:27 Oct 2008 15:53
Last Modified:05 Apr 2016 12:28
Publisher:World Scientific Publishing
ISBN:978-981-277-893-2
Official URL:http://www.worldscibooks.com/medsci/6663.html
Related URLs:http://www.worldscientific.com/ (Publisher)
Permanent URL: http://doi.org/10.5167/uzh-3990

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