Dynamic fatty acylation of p21N‐ras.

To study the acylation of p21N‐ras with palmitic acid we have used cells which express the human N‐ras gene to high levels under control of the steroid‐inducible MMTV–LTR promoter. Addition of [3H]palmitate to these cells resulted in detectable incorporation of label into p21N‐ras within 5 min, which continued linearly for 30‐60 min. Inhibition of protein synthesis for up to 24 h before addition of [3H]palmitate had no effect on acylation of p21N‐ras, suggesting that this can occur as a late post‐translational event. Acylated p21N‐ras with a high SDS–PAGE mobility is found only in the membrane fraction, whereas approximately 50% of the [35S]methionine‐labelled p21N‐ras is cytoplasmic and has a lower mobility. Conversion of the acylated high mobility form to a deacylated form of slightly lower mobility can be achieved with neutral hydroxylamine, which is known to cleave thioesters. This treatment also results in partial removal of p21N‐ras from the membranes. A remarkably high rate of turnover of the palmitate moiety can be demonstrated by pulse–chase studies (t1/2 approximately 20 min in serum‐containing medium) which cannot be attributed to protein degradation. The data suggest an active acylation–deacylation cycle for p21N‐ras, which may be involved in its proposed function as a signal transducing protein.