The human glutathione S-transferases: comparison of isoenzyme expression in normal and astrocytoma brain.

We describe expression of alpha, mu and pi class glutathione S-transferases (GST) in brain tissue from 21 controls and uninfiltrated and tumour tissue from 17 glioma patients. GST were sequentially resolved by chromatofocusing into the GST2, GST1, GST5, GST2 (5.5), GST3, GST6 sets and the contribution of each to total activity determined. The immunological identity of these isoforms was studied using immunoblotting. The pi class GST3 isoform was the major contributor to activity in control tissue (70.9%) and, uninfiltrated (75.1%) and tumour samples (82.4%). Expression was significantly greater in the tumours (P less than 0.05). Expression of alpha isoforms GST2 and GST2 (5.5) was variable with most subjects demonstrating no detectable GST2 (B1 and B2 chromatofocused monomers). An isoform termed GST2 (5.5) chromatofocussed at pH 5.5 and cross-reacted with antisera to B1. It was detected in most control and glioma patients and comprised about 5% of total activity. The contribution of GST2 and GST2 (5.5) to activity was similar in control, uninfiltrated and tumour tissue. Two mu class enzymes, GST1 and GST5, were identified. GST1 isoforms were detected in 9 of 21 control samples, the phenotype of these and matched liver samples were identical. GST1 isoforms were detected in 4 of 16 tumour samples, a significantly lower incidence than in a previously established control group. GST5 was expressed in most samples, the contribution of this locus to activity was significantly reduced in the tumours (5.2%) compared with control samples (14.5%).

The human glutathione S-transferases: a case-control study of the incidence of the GST1 0 phenotype in patients with adenocarcinoma.

The suggestion that individuals with the GST1 0 phenotype have a greater susceptibility to carcinogens than those with other GST1 phenotypes has been examined by using a starch gel zymogram approach to compare the frequency of this phenotype in control subjects and a group of patients with adenocarcinoma of stomach and colon. A significantly greater proportion of the patients with adenocarcinoma demonstrated the null phenotype, odds ratio analysis indicating that individuals with this polymorphic variant have an approximately 3-fold greater risk of developing these cancers.

Human glutathione S-transferases: radioimmunoassay studies on the expression of alpha-, mu- and pi-class isoenzymes in developing lung and kidney.

The developmental expression of the alpha-, mu- and pi-class glutathione S-transferases has been defined in human lung and kidney using radioimmunoassay, immunohistochemistry and column chromatography. Expression of alpha-class enzymes increased significantly after about 40 weeks gestation in kidney but not lung, while expression of mu isoenzymes was continuous throughout development in both tissues. Expression of the pi isoenzyme fell during in utero ontogeny in lung, the pattern of down-regulation being similar to that previously observed in liver. There was no change in the expression of this isoenzyme in kidney. Comparison of the expression of the glutathione S-transferases in developing lung, kidney and liver shows some common patterns of expression suggesting these genes are under similar regulatory control.

The development expression of alpha-, mu- and pi-class glutathione S-transferases in human liver.

The developmental expression of the alpha, mu and pi class glutathione S-transferases has been defined in human liver using radioimmunoassay and immunohistochemistry. Expression of alpha and mu class isoenzymes increased significantly at birth, while that of the pi isoenzyme declined during the first trimester. Mu-class isoenzymes (GST1 1, GST1 2, GST1 2-1) were expressed in hepatocytes but not in other liver cell types.

Alpha, mu and pi glutathione S-transferases: species (Talpa europaea) differences in their expression.

1. Tissue cytosols from Talpa europaea were examined for their glutathione S-transferase isoenzyme content by chromatofocusing, inhibition and immunological techniques and the results compared with data from adult human tissue cytosols. 2. Two sets of glutathione S-transferase isoenzymes were found in liver cytosol of Talpa europaea, they demonstrated similar properties to human alpha and mu isoforms. 3. There was no evidence of expression of the pi isoenzyme set in any of the tissues studied and in this respect Talpa europaea differs from other mammalian species studied so far.