Role of metallothionein in cadmium traffic and toxicity in kidneys and other mammalian organs

Metallothioneins are cysteine-rich, small metal-binding proteins present in various mammalian tissues. Of the four common metallothioneins, MT-1 and MT-2 (MTs) are expressed in most tissues, MT-3 is predominantly present in brain, whereas MT-4 is restricted to the squamous epithelia. The expression...

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Bibliographic Details
Published in:Biometals 2010-10, Vol.23 (5), p.897-926
Main Authors: Sabolić, Ivan, Breljak, Davorka, Škarica, Mario, Herak-Kramberger, Carol M
Format: Article
Language:English
Subjects:
Acute toxicity
Amino Acid Sequence
Animals
antioxidants
Binding Sites
Biochemistry
Biomedical and Life Sciences
Cadmium
Cadmium - pharmacokinetics
Cadmium - toxicity
Cell Biology
Cell Compartmentation
Chronic toxicity
Copper
Cytotoxicity
Female
heavy metals
hepatotoxicity
Humans
Intestines - drug effects
Intestines - metabolism
Ions
Kidney - drug effects
Kidney - metabolism
Kidneys
Life Sciences
Liver - drug effects
Liver - metabolism
Lung - drug effects
Lung - metabolism
Male
Mammals
Medicine/Public Health
Metallothionein - chemistry
Metallothionein - genetics
Metallothionein - metabolism
Metallothioneins
Microbiology
Models, Biological
Molecular Sequence Data
nephrotoxicity
Oxidative stress
Pharmacology/Toxicology
Plant Physiology
reactive oxygen species
Sequence Homology, Amino Acid
Toxicity
Transcriptional Activation - drug effects
Urine metallothionein
Zinc - metabolism
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Summary:Metallothioneins are cysteine-rich, small metal-binding proteins present in various mammalian tissues. Of the four common metallothioneins, MT-1 and MT-2 (MTs) are expressed in most tissues, MT-3 is predominantly present in brain, whereas MT-4 is restricted to the squamous epithelia. The expression of MT-1 and MT-2 in some organs exhibits sex, age, and strain differences, and inducibility with a variety of stimuli. In adult mammals, MTs have been localized largely in the cell cytoplasm, but also in lysosomes, mitochondria and nuclei. The major physiological functions of MTs include homeostasis of essential metals Zn and Cu, protection against cytotoxicity of Cd and other toxic metals, and scavenging free radicals generated in oxidative stress. The role of MTs in Cd-induced acute and chronic toxicity, particularly in liver and kidneys, is reviewed in more details. In acute toxicity, liver is the primary target, whereas in chronic toxicity, kidneys are major targets of Cd. The intracellular MTs bind Cd ions and form CdMT. In chronic intoxication, Cd stimulates de novo synthesis of MTs; it is assumed that toxicity in the cells starts when loading with Cd ions exceeds the buffering capacity of intracellular MTs. CdMT, released from the Cd-injured organs, or when applied parenterally for experimental purposes, reaches the kidneys via circulation, where it is filtered, endocytosed in the proximal tubule cells, and degraded in lysosomes. Liberated Cd can immediately affect the cell structures and functions. The resulting proteinuria and CdMT in the urine can be used as biomarkers of tubular injury.
ISSN:0966-0844
1572-8773
DOI:10.1007/s10534-010-9351-z