Abstract

Single or repeated treatments with cocaine (15 mg/kg, i.p.) in rats modify rates of local cerebral protein synthesis (ICPSleu) measured with the [1-14C]leucine method. A single dose of cocaine to naive rats reduced ICPSleu by about 10% throughout the brain; the most statistically significant reduction was in the nucleus accumbens, shell portion (P = .0003). A comparable dose of cocaine administered acutely after 1 wk of daily cocaine injections had no effects on ICPSleu. Delayed effects of prior chronic cocaine treatment were studied in experiments in which one rat of each pair received injections with saline for 8 days and the other cocaine, and on the 15th day ICPSleu was measured. In these experiments delayed effects of the chronic cocaine treatment were observed; in the cocaine-treated rats ICPSleu was significantly increased in selective brain regions, i.e., prefrontal and primary olfactory cortex (P < .006). These results suggest that acute effects of a single dose of cocaine and residual effects of chronic cocaine treatment on ICPSleu are distinctly different and occur in different regions of the brain.