Genetic depletion of de novo coenzyme A biosynthesis exacerbates puromycin toxicity

Abstract

AbstractPuromycin is an amino nucleoside that inhibits protein synthesis by interrupting elongation of nascent peptide chains. It is a commonly used selection antibiotic in molecular biology research via engineered expression of a puromycin resistance transgene. The enzyme puromycin acetyl transferase (pac) or PuroR inactivates puromycin by N-acetylating its reactive amino group. Puromycin acetylation by pac requires the central metabolite and acetyl group donor acetyl-CoA as a substrate. We found that puromycin treatment exacerbates sensitivity of cancer cells to knockdown of pantothenate kinases, the proteins that catalyze the rate-limiting step of de novo coenzyme A production in cells. Mechanistically, we found that ablation of PANKs together with puromycin depletes acetyl-CoA levels, in a manner modulated by the dose of puromycin. Our findings provide a note of caution and context in the use of puromycin for metabolism research in that interference with the major acyl donor used for inactivating biotransformation may exacerbate toxicity under selection. Broadly, our findings also invite studies to explore how targeting CoA and acetyl-CoA synthesis may be exploited to enhance cytotoxic effects of cancer drugs that undergo acetylation.