Physiological role of phospholipid hydroperoxide glutathione peroxidase in mammals
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Marcus Conrad
Abstract
The redox enzyme phospholipid hydroperoxide glutathione peroxidase (PHGPx) has emerged as one of the most significant selenoenzymes in mammals, corroborated by early embryonic lethality of PHGPx null mice. PHGPx is one of five selenium-dependent glutathione peroxidases and the second glutathione peroxidase to be discovered in 1982. PHGPx has a particular position within this family owing to its peculiar structural and catalytic properties, its multifaceted roles during male gametogenesis, and its necessity for early mouse development. Interestingly, mice devoid of endogenous glutathione die at the same embryonic stage as PHGPx-deficient mice compatible with the hypothesis that a similar phenotype of embryonic lethality may be provoked by PHGPx deficiency and lack of its reducing substrate glutathione. Various gain- and loss-of-function approaches in mice have provided some insights into the physiological functions of PHGPx. These include a protective role for PHGPx in response to irradiation, increased resistance of transgenic PHGPx mice to toxin-induced liver damage, a putative role in various steps of embryogenesis, and a contribution to sperm chromatin condensation. The expression of three forms of PHGPx and early embryonic lethality call for more specific studies, such as tissue-specific disruption of PHGPx, to precisely understand the contribution of PHGPx to mammalian physiology and under pathological conditions.
©2007 by Walter de Gruyter Berlin New York
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- Selenium in mammalian spermiogenesis
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- Molecular biology of glutathione peroxidase 4: from genomic structure to developmental expression and neural function
- Physiological role of phospholipid hydroperoxide glutathione peroxidase in mammals
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- Effect of age on sexually dimorphic selenoprotein expression in mice
- Post-translational processing of selenoprotein P: implications of glycosylation for its utilisation by target cells
- Selenoproteins of the thyroid gland: expression, localization and possible function of glutathione peroxidase 3
- Towards understanding selenocysteine incorporation into bacterial proteins
- Glutathione- and thioredoxin-related enzymes are modulated by sulfur-containing chemopreventive agents
- B- and T-cell-specific inactivation of thioredoxin reductase 2 does not impair lymphocyte development and maintenance
- Effect of selenium on thioredoxin reductase activity in Txnrd1 or Txnrd2 hemizygous mice
- Influence of pH and flanking serine on the redox potential of S-S and S-Se bridges of Cys-Cys and Cys-Sec peptides
- An essential role for Pin1 in Xenopus laevis embryonic development revealed by specific inhibitors
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Articles in the same Issue
- Selenoproteins – biochemistry and clinical relevance
- Selenium in mammalian spermiogenesis
- Selenium in chemistry and biochemistry in comparison to sulfur
- Molecular biology of glutathione peroxidase 4: from genomic structure to developmental expression and neural function
- Physiological role of phospholipid hydroperoxide glutathione peroxidase in mammals
- Activation of the glutathione peroxidase 2 (GPx2) promoter by β-catenin
- Effect of age on sexually dimorphic selenoprotein expression in mice
- Post-translational processing of selenoprotein P: implications of glycosylation for its utilisation by target cells
- Selenoproteins of the thyroid gland: expression, localization and possible function of glutathione peroxidase 3
- Towards understanding selenocysteine incorporation into bacterial proteins
- Glutathione- and thioredoxin-related enzymes are modulated by sulfur-containing chemopreventive agents
- B- and T-cell-specific inactivation of thioredoxin reductase 2 does not impair lymphocyte development and maintenance
- Effect of selenium on thioredoxin reductase activity in Txnrd1 or Txnrd2 hemizygous mice
- Influence of pH and flanking serine on the redox potential of S-S and S-Se bridges of Cys-Cys and Cys-Sec peptides
- An essential role for Pin1 in Xenopus laevis embryonic development revealed by specific inhibitors
- Glucocorticoid receptor-mediated expression of kallikrein 10 in human breast cancer cell lines
