Modification of potentially lethal damage repair by some intrinsic intra- and extracellular agents: I. Proteinases and proteinase inhibitors.

Abstract

The effects of nine intra- and extracellular proteinases and six proteinase inhibitors on the repair of potentially lethal damage (PLDR) induced by gamma-rays in plateau-phase V79 cells were examined. It was demonstrated that these agents, which are intrinsic factors produced within mammalian cells, can modify PLDR activity. A stimulatory effect on PLDR was seen with calf liver neutral proteinase, and to a lesser extent, with inhibitor pepstatin A. Other proteinases which belong to serine, cysteine and aspartic superfamilies, as well as proteinase inhibitors, inhibited PLDR to different degrees. The effects of some of these agents, present during the PLDR period, on the rate of tritiated thymidine incorporation into the acid-insoluble cell fraction was also examined. They can modify the DNA synthesis of cells when subcultured from plateau phase for the assessment of colony-forming ability. There is no clear evidence that the effects observed are entirely attributed to the alteration of cellular proliferative processes. It seems more likely that many serine and cysteine proteinases and their inhibitors can adversely affect the PLDR process by modulating the activity of proteinase(s) and other enzymes involved more directly in PLDR because of interrelationships of the entire intracellular proteinase system.