Cellular zinc and redox states converge in the metallothionein/thionein pair.
نویسنده
چکیده
The paramount importance of zinc for a wide range of biological functions is based on its occurrence in thousands of known zinc proteins. To regulate the availability of zinc dynamically, eukaryotes have compartmentalized zinc and the metallothionein/thionein pair, which controls the pico- to nanomolar concentrations of metabolically active cellular zinc. Interactions of zinc with sulfur ligands of cysteines turn out to be critical both for tight binding and creation of a redox-active coordination environment from which the redox-inert zinc can be distributed. Biological oxidants such as disulfides and S-nitrosothiols oxidize the zinc/thiolate clusters in metallothionein with concomitant zinc release. In addition, selenium compounds that have the capacity to form selenol(ate)s catalytically couple with the glutathione/glutathione disulfide and metallothionein/thionein redox pairs to either release or bind zinc. In this pathway, selenium expresses its antioxidant effects through redox catalysis in zinc metabolism. Selenium affects the redox state of thionein, an endogenous chelating agent. With its 20 cysteines, thionein contributes significantly to the zinc- and thiol-redox-buffering capacity of the cell. Thus, hitherto unknown interactions between the essential micronutrients zinc and selenium on the one hand and zinc and redox metabolism on the other are key features of the cellular homeostatic zinc system.
منابع مشابه
Different redox states of metallothionein/thionein in biological tissue.
Mammalian metallothioneins are redox-active metalloproteins. In the case of zinc metallothioneins, the redox activity resides in the cysteine sulfur ligands of zinc. Oxidation releases zinc, whereas reduction re-generates zinc-binding capacity. Attempts to demonstrate the presence of the apoprotein (thionein) and the oxidized protein (thionin) in tissues posed tremendous analytical challenges. ...
متن کاملControl of zinc transfer between thionein, metallothionein, and zinc proteins.
Metallothionein (MT), despite its high metal binding constant (KZn = 3.2 x 10(13) M-1 at pH 7.4), can transfer zinc to the apoforms of zinc enzymes that have inherently lower stability constants. To gain insight into this paradox, we have studied zinc transfer between zinc enzymes and MT. Zinc can be transferred in both directions-i.e., from the enzymes to thionein (the apoform of MT) and from ...
متن کاملDifferential fluorescence labeling of cysteinyl clusters uncovers high tissue levels of thionein.
The isolation of thionein (T) from tissues has not been reported heretofore. T contains 20 cysteinyl residues that react with 7-fluorobenz-2-oxa-1,3-diazole-4-sulfonamide to form fluorescent adducts. In metallothionein (MT) the cysteinyl residues, which are bound to zinc, do not react. However, they do react in the presence of a chelating agent such as EDTA. The resultant difference in chemical...
متن کاملMetallothionein synthesis and degradation: relationship to cadmium metabolism.
Metallothionein is an integral component of the mechanism that regulates the metabolism of cadmium and zinc. The synthesis of this protein can be "induced" by oral or parenteral administration of either metal. The metallothionein mRNA content of liver polysomes is increased shortly after an influx of small amounts of either metal into hepatocytes. After sufficient amounts of this poly (A+) RNA ...
متن کاملSimultaneous Determination of Metallothionein and Thionein
Metallothionein (MT) has a dynamic role in cellular zinc metabolism. In order to determine the apoprotein thionein (T), an assay was developed. With this method tissue homogenates were treated with subtilisin to digest any T that might exist but MT could not be digested by subtilisin. MT was detected by cadmium-hemoglobin saturation method and T was determined as the difference of MT between sa...
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ورودعنوان ژورنال:
- The Journal of nutrition
دوره 133 5 Suppl 1 شماره
صفحات -
تاریخ انتشار 2003