Genomic structure of human GST omega 1

The omega class glutathione transferases is the most recently identified class of GSTs. Omega GSTs have several unique features, including a conserved cysteine residue in the active site, and a unique N-terminal extension. Some members of the omega clas

Functional polymorphism of human glutathione transferase A3: effects on xenobiotic metabolism and steroid biosynthesis

The alpha class glutathione transferase GSTA3-3 is involved in steroid biosynthesis and the metabolism of some xenobiotics. A bioinformatics approach was utilized to identify novel coding region polymorphisms in the glutathione transferase A3 gene (GSTA3). We describe an I71L polymorphism in GSTA3 that occurs at a low frequency in African populations. The activity of the leucine containing isoform was significantly reduced in a range of glutathione- conjugating reactions due to a diminished affinity for reduced glutathione, indicating that this allele could be implicated in disease caused by oxidative stress in steroidogenic tissue. By contrast, the Δ5-androsten- 3,17-dione isomerase activity of GSTA3-3 was not affected by this substitution, indicating that there is no direct effect on steroid synthesis. However, the L71 isoform displayed diminished stability at 45°C. If this relative instability is mirrored in vivo, testosterone and progesterone synthesis may be affected in individuals carrying this allele

Polymorphisms in the human glutathione transferase Kappa (GSTK1) promoter alter gene expression

The level of glutathione transferase Kappa (GSTK1-1) has been correlated with obesity (Liu et.al. 2008 PNAS 105: 18302-7) and a polymorphism in the hGSTK1 promoter has been associated with insulin secretion and fat deposition (Gao et al 2009 Endocr J 56

CLIC-2 modulates cardiac ryanodine receptor Ca(2+) release channels

We have examined the biochemical and functional properties of the recently identified, uncharacterised CLIC-2 protein. Sequence alignments showed that CLIC-2 has a high degree of sequence similarity with CLIC-1 and some similarity to the omega class of glutathione transferases (GSTO). A homology model of CLIC-2 based on the crystal structure of CLIC-1 suggests that CLIC-2 belongs to the GST structural family but, unlike the GSTs, CLIC-2 exists as a monomer. It also has an unusual enzyme activity profile. While the CXXC active site motif is conserved between CLIC-2 and the glutaredoxins, no thiol transferase activity was detected. In contrast, low glutathione peroxidase activity was recorded. CLIC-2 was found to be widely distributed in tissues including heart and skeletal muscle. Functional studies showed that CLIC-2 inhibited cardiac ryanodine receptor Ca2+ release channels in lipid bilayers when added to the cytoplasmic side of the channels and inhibited Ca2+ release from cardiac sarcoplasmic reticulum vesicles. The inhibition of RyR channels was reversed by removing CLIC-2 from the solution or by adding an anti-CLIC-2 antibody. The results suggest that one function of CLIC-2 might be to limit Ca2+ release from internal stores in cells

Polymorphisms in the human glutathione transferase Kappa (GSTK1) promoter alter gene expression.

AbstractThe level of glutathione transferase Kappa (GSTK1-1) has been correlated with obesity (Liu et.al. 2008 PNAS 105: 18302-7) and a polymorphism in the hGSTK1 promoter has been associated with insulin secretion and fat deposition (Gao et al 2009 Endocr J 56: 487-94). We searched for additional polymorphisms that may influence GSTK1-1 function or expression. Two SNPs were identified in the 5’ non-coding region. A SNP at -1308 that occurs in Chinese subjects is predicted to eliminate a FXR/RXR transcription factor-binding site and causes a 55% increase in transcription rate in HepG2 cells and a 59% decrease in HEK293 cells. These data suggest that the impact of this polymorphism is complex and tissue specific. A SNP at -1032 alters a methylation site and represses transcription by 38%. These observations provide the first functional insight into genetic factors that regulate hGSTK1 expression and may directly influence insulin secretion and fat deposition

Characterization of the Omega Class of Glutathione Transferases

The Omega class of cytosolic glutathione transferases was initially recognized by bioinformatic analysis of human sequence databases, and orthologous sequences were subsequently discovered in mouse, rat, pig, Caenorhabditis elegans, Schistosoma mansoni, and Drosophila melanogaster. In humans and mice, two GSTO genes have been recognized and their genetic structures and expression patterns identified. In both species, GSTO1 mRNA is expressed in liver and heart as well as a range of other tissues. GSTO2 is expressed predominantly in the testis, although moderate levels of expression are seen in other tissues. Extensive immunohistochemistry of rat and human tissue sections has demonstrated cellular and subcellular specificity in the expression of GSTO1-1. The crystal structure of recombinant human GSTO1-1 has been determined, and it adopts the canonical GST fold. A cysteine residue in place of the catalytic tyrosine or serine residues found in other GSTs was shown to form a mixed disulfide with glutathione. Omega class GSTs have dehydroascorbate reductase and thioltransferase activities and also catalyze the reduction of monomethylarsonate, an intermediate in the pathway of arsenic biotransformation. Other diverse actions of human GSTO1-1 include modulation of ryanodine receptors and interaction with cytokine release inhibitory drugs. In addition, GSTO1 has been linked to the age at onset of both Alzheimer's and Parkinson's diseases. Several polymorphisms have been identified in the coding regions of the human GSTO1 and GSTO2 genes. Our laboratory has expressed recombinant human GSTO1-1 and GSTO2-2 proteins, as well as a number of polymorphic variants. The expression and purification of these proteins and determination of their enzymatic activity is described

Polymorphism of glutathione transferase Omega 1 in a population exposed to a high environmental arsenic burden

OBJECTIVES AND METHODS: The aim of this study was to investigate genetic variation in glutathione transferase omega 1 (GSTO1-1) in Atacameños, an indigenous population from Chile that has been exposed to environmental arsenic for many generations. GSTO1

The identification and structural characterization of C7orf24 as γ-glutamyl cyclotransferase: an essential enzyme in the γ-glutamyl cycle

The hypothetical protein C7orf24 has been implicated as a cancer marker with a potential role in cell proliferation. We have identified C7orf24 as γ-glutamyl cyclotransferase (GGCT) that catalyzes the formation of 5-oxoproline (pyroglutamic acid) from