Glutathione transferases (GSTs) are often upregulated in tumors and have been suggested to play an important role in multiple drug resistance in cancer chemotherapy. As a consequence GST-dependent pro-drugs and inhibitors are being developed. Little is known, however, on the potential role of membrane-bound GSTs in drug resistance despite the fact that detoxication of cytostatic drugs and upregulation in tumors has been demonstrated. Therefore, we have studied the involvement of membrane-bound microsomal GST1 (MGST1) in cellular resistance to anticancer drugs. As a tool we have developed a cell system utilizing MCF7 cells stably overexpressing MGST1. Here, we show for the first time that MGST1 can protect cells from several cytostatic drugs, chlorambucil, melphalan and cisplatin in an acute toxicity test (MTT assay) as well as a long-term colony forming efficiency cytotoxicity test. It is of note that these cells do not overexpress multidrug transporters, a prerequisite for protection with certain other GSTs investigated in this system. The cytostatic drugs used comprise both those that are known/predicted to be substrates as well as non-substrates. Thus, the mechanism most probably entails both direct detoxication and downstream protection of the cells from oxidative stress.
Nondeletional gene mutations giving rise to alpha-thalassemia can be found at polymorphic frequency in Southeast Asia. Although the most common is hemoglobin Constant Spring (Hb CS), caused by a termination codon mutation (UAA --> CAA, Gln) in the alpha2-globin gene and resulting in reduced synthesis of the elongated alpha-globin variant, Hb Pakse (UAA --> UAU, Tyr) also has been observed at a significant prevalence. Western blot analysis of ghost membrane proteins separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis from an individual with alpha-thal 1/Hb Pakse revealed the existence of a higher molecular weight globin of 18 kd consistent with an alpha(Pakse)-globin chain. The presence of alpha(Pakse)-globin on membranes of Hb Pakse-containing red blood cells affords an explanation for the severity of anemia observed in such patients. However, because the 2 Hb variants cannot be distinguished by current biochemical techniques, we developed a convenient single-tube polymerase chain reaction-single-strand conformational polymorphism (PCR-SSCP) protocol for the simultaneous diagnosis of Hb CS and Hb Pakse by amplifying a short fragment covering the termination codon of the alpha2-globin gene. This PCR-SSCP method required no internal control coamplification or use of restriction enzymes and has the potential of identifying all the other possible termination codon mutations in a single reaction with only 1 pair of primers.
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