Human GPX4 Research Articles

Increased resistance of GPx-1 transgenic mice to tumor promoter-induced loss of glutathione peroxidase activity in skin.

Reactive oxygen species formation is strongly suspected to play a role in multistep carcinogenesis, notably in tumor promotion. The tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA) induces peroxide production, oxidative damage to DNA and inflammation in mouse skin. TPA is also known to cause a decrease in the activity of several antioxidant enzymes including glutathione peroxidases (GPx). The observation that several anti-oxidants can inhibit TPA-mediated tumor promotion suggests that a decline in GPx activity could contribute to tumor promotion. We report here the effects of TPA on GPx activity in the skin of transgenic GPx mice that contain human GPx-1 transgenes under the regulation of a metallothionein IIA promoter. As expected, no significant difference in basal level of skin GPx activity was detected in the 3 lines of tg-MT-GPx mice investigated compared with non-transgenic controls. A single topical application of TPA induced gradually, over 20 hr, a small but detectable increase in GPx mRNA and protein levels in skin of non-transgenic mice and a contrasting decrease in both selenium-dependent and selenium-independent GPx activity. The extent of GPx induction was more pronounced in transgenic mice, and in contrast with non-transgenic mice, no significant loss of GPx activity was observed in the TPA-treated skin of these mice. Transgenic mice may, therefore, offer a novel model suitable to assess the role of GPx-1 in skin carcinogenesis, without the potential disadvantage of abnormally high levels of GPx activity produced constitutively in other transgenic models.

Isolation and chromosomal localization of the human glutathione peroxidase gene

We have isolated cDNA clones for the gene, termed GPX1, encoding the major human selenoprotein, glutathione peroxidase. Sequence analysis confirmed previous findings that the unusual amino acid selenocysteine is encoded by the opal terminator codon UGA. Southern blot analysis of human genomic DNA with the GPX1 cDNA showed that restriction endonucleases without sites in the probe sequence produced three hybridizing bands at standard stringency, diminishing to one strongly and one weakly hybridizing band at high stringency. In situ hybridization localized the human GPX1 gene to a single site on chromosome 3, at region 3q11–13.1. Thus, three genomic sites bear sequence homology to the GPX1 cDNA, and the one most homologous maps to 3q11–13.1.