Self-administration of heroin in rats: effects of low-level lead exposure during gestation and lactation.

Abstract

Developmental lead exposure has been found to produce differential patterns of drug self-administration in adult animals. The present study examined the effects of perinatal (gestation/lactation) lead exposure on adult patterns of heroin self-administration. Female rats were gavaged daily with 0 mg or 16 mg lead for 30 days prior to breeding with non-exposed males. Metal administration continued through pregnancy and lactation and was discontinued at weaning [postnatal day 21 (PND 21)]. Animals born to control or lead-exposed dams received indwelling jugular catheters as adults and were randomly assigned to one of two studies. In experiment 1, animals were tested on a FR-2 schedule in an effort to examine differential sensitivity to heroin in an intravenous self-administration paradigm. Seven doses of heroin were selected ranging from 0.56 microg/kg to 36 microg/kg per infusion. In experiment 2, littermates were tested on a progressive ratio (PR) schedule in order to more explicitly determine the nature of the change in sensitivity to the drug. In experiment 1, lead-exposed animals responded for heroin at significantly lower rates across most doses as evidenced by a downward shift in the inverted-U dose-effect curve. Congruent with these findings, lead-exposed animals in experiment 2 exhibited a decrease in progressive ratio responding (lower breaking points) across all heroin doses, further suggesting that perinatal lead exposure attenuates opiate self-administration in adult animals by altering the rewarding efficacy of the drug. In experiment 2, it was determined further that lead-exposed animals had lower latencies to make the initial lever press for heroin. These results support previous literature suggesting that perinatal exposure to inorganic lead attenuates the effectiveness of opiates as a reinforcer when animals are tested in the adult life cycle.