Rapidly reversible enzyme inhibition in a temperature-sensitive mammalian cell mutant lacks thermotolerance

The temperature-sensitive (ts) Chinese hamster ovary (CHO) cell mutant tsH1 contains a thermolabile leucyl-tRNA synthetase. Upon incubation at the nonpermissive temperature of 39.5 degrees C, the enzyme became reversibly inhibited over a period of minutes, and the cells lost viability over a period of many hours. However, killing of tsH1 by acute heating at 45 degrees C was identical to that of wild-type (SC) cells. In addition, the heat-induced inhibition of protein synthesis was similar for both cell types, as measured after acute heating at 45 degrees C. Furthermore, both killing and inhibition of protein synthesis showed thermotolerance in both cell types. In contrast to the effects at 45 degrees C, at 39.5 degrees C, neither the inhibition of leucyl-tRNA synthetase activity nor the killing of tsH1 expressed thermotolerance. Also, treatment of tsH1 at 39.5 degrees C did not induce thermotolerance to killing at 45 degrees C. The inhibition of leucyl-tRNA synthetase activity in tsH1 at 39.5 degrees C was further distinguished from the 45 degrees C-induced inhibition of protein synthesis in SC cells by a much more rapid reversal of the inhibition of leucyl-tRNA synthetase activity. Also, the rate of reversal of the inhibition of protein synthesis by 45 degrees C in SC cells was decreased by increased heat dose. Such was not true for the 39.5 degrees C inhibition of leucyl-tRNA synthetase activity in tsH1. The data indicate that there exist two distinct types of thermal inhibition--one slowly reversible type which was observed during and after heating at 45 degrees C and both induced and expressed thermotolerance, and a second, rapidly reversible type, which was evident only during heating of tsH1 at 39.5 degrees C and neither induced nor expressed thermotolerance.