The two previously reported human glutathione S-transferase isozymes, hGST5.8 and hGSTA4-4, have been suggested to be similar because of their comparable activities toward 4-hydroxynonenal-GSH conjugation. Here, we demonstrate that hGST5.8 and hGSTA4-4 are distinct. Antibodies raised against hGSTA4-4 did not recognize hGST5.8, and antibodies raised against mouse GSTA4-4 that cross-react with hGST5.8 did not recognize hGSTA4-4. The pI value of hGSTA4-4 was found to be 8.4, as opposed to the pI value of 5.8 for hGST5.8. The two isozymes are differentially expressed in human tissues and there are significant differences in their kinetic properties. While both isozymes showed a strong expression in liver and testis, hGSTA4-4 was not detected in brain where hGST5.8 was present. In the pancreas, a strong expression of hGST5.8 was observed while hGSTA4-4 was barely detectable in this tissue.

The incubation of human erythrocytes with 1-chloro-2,4-dinitrobenzene (CDNB) results in almost quantitative conjugation of glutathione (GSH) to form S-(2,4-dinitrophenyl) glutathione. The reaction is catalysed by erythrocyte glutathione S-transferase. During the present studies we have identified the conjugate in the incubation medium of CDNB-treated erythrocytes, indicating that the conjugate of GSH and CDNB is transported out by the erythrocytes. Quantitation of the conjugate in the incubation medium by amino acid analysis and thin layer chromatography indicates that the erythrocytes transport the conjugate at an approximate rate of 140 nmol/h/ml erythrocytes. The transport of the conjugate is inhibited by sodium fluoride. Exhaustion of ATP from the erythrocytes results in a significant decrease in the rate of transport which is restored with the regeneration of ATP by incubating the erythrocytes with adenine and inosine. This indicates that the transport of conjugate is an energy dependent process.