Abstract
Chloroquine (ClQ) inhibited the repair of DNA damage produced in cultured rat liver cells by methyl methanesulfonate (MMS). MMS caused fragmentation of single-strand DNA in alkaline sucrose gradients. Repair of the damage was followed by observing the restoration of the normal sedimentation pattern at intervals after treatment. Repair was significant by 7 h and nearly complete at 24 h. Addition of ClQ during the repair peiod markedly reduced the rate of repair. Also, ClQ increased the lethality of MMS, which could be due to the inhibition of repair. ClQ was found to inhibit protein synthesis, but the effect on repair is probably not due entirely to this action since comparable inhibition of protein synthesis by cycloheximide produced a lesser degree of delay in repair.
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