Roles of Metallothionein and Related Proteins in Metal Metabolism and Toxicity: Problems and Perspectives

Overview

Journal Environ Health Perspect

Date 1986 Mar 1

PMID 3709444

Citations 13

Authors

D H Petering

B A Fowler

Affiliations

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Abstract

This summary examines some of the known and hypothesized roles of metallothionein and related proteins in mediating the metal metabolism and toxicity from a chemical perspective. It attempts to examine in kinetic terms how such molecules may exert homeostatic control over the intracellular bioavailability of metal ions to essential enzymatic or other molecular systems. The concept of ongoing competition between metallothionein and related proteins with other intracellular metal-binding sites for various metals is also examined in relation to the thermodynamic stability of these proteins. Comparisons between mammalian metallothionein and analogous nonmammalian proteins demonstrate both similarities and great differences in types of metal-binding sites, metal-binding constants, amino acid composition, and secondary structures such that apparent diversity of these low molecular weight metal-binding molecules in nature appears to be growing ever wider. The potential value of these data rests both in delineating new hypotheses for metallothionein evolution and in suggesting new model systems for discovering the normal function of metallothionein and related proteins in cells.

Citing Articles

The association of blood lead levels and renal effects may be modified by genetic combinations of Metallothionein 1A 2A polymorphisms.

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Determinations of uranium(VI) binding properties with some metalloproteins (transferrin, albumin, metallothionein and ferritin) by fluorescence quenching.

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Lead-induced cytotoxicity and transcriptional activation of stress genes in human liver carcinoma (HepG2) cells.

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Model reactions of Cr (VI) with DNA mediated by thiol species.

Krepkiy D, Antholine W, Myers C, Petering D Mol Cell Biochem. 2001; 222(1-2):213-9.

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