The Role of Antioxidant Systems in the Response of Escherichia colito Heat Shock

Shifting the temperature from 30 to 45°C in an aerobic Escherichia coliculture inhibited the expression of the antioxidant genes katG, katE, sodA, and gor.The expression was evaluated by measuring -galactosidase activity in E. colistrains that contained fusions of the antioxidant gene promoters with the lacZoperon. Heat shock inhibited catalase and glutathione reductase, lowered the intracellular level of glutathione, and increased its extracellular level. It also suppressed the growth of mutants deficient in the katG-encoded catalase HPI, whereas the sensitivity of the wild-type andsodA sodBmutant cells to heat shock was almost the same. In the E. coliculture adapted to growth at 42°C, the content of both intracellular and extracellular glutathione was two times higher than in the culture grown at 30°C. The temperature-adapted cells grown aerobically at 42°C showed an increased ability to express the fused katG–lacZgenes.     

The Status and the Role of Glutathione under Disturbed Ionic Balance and pH Homeostasis in Escherichia coli

The study of glutathione status in aerobically grown Escherichia coli cultures showed that the total intracellular glutathione (GSH_in + GSSG_in) level falls by 63% in response to a rapid downshift in the extracellular pH from 6.5 to 5.5. The incubation of E. coli cells in the presence of 50 mM acetate or 10 g/ml gramicidin S decreased the total intracellular glutathione level by 50 and 25%, respectively. The fall in the total intracellular glutathione level was accompanied by a significant decrease in the (GSH_in : GSSG_in) ratio. The most profound effect on the extracellular glutathione level was exerted by gramicidin S, which augmented the total glutathione level by 1.8 times and the (GSH_out : GSSG_out) ratio by 2.1 times. The gramicidin S treatment and acetate stress inhibited the growth of mutant E. coli cells defective in glutathione synthesis 5 and 2 times more severely than the growth of the parent cells. The pH downshift and the exposure of E. coli cells to gramicidin S and 50 mM acetate enhanced the expression of the sodA gene coding for superoxide dismutase SodA.