The present study compared cocaine-induced hyperlocomotion and cocaine i.v. self-administration in DBA/2J and C57BL/6J mice. In the locomotor activity experiment, these strains were tested for hyperlocomotion after i.p. cocaine injection (0-60.0 mg/kg), using a Digiscan Animal Activity Monitoring System. In the cocaine i.v. self-administration experiment, they were compared for their ability to acquire and maintain cocaine self-administration in operant chambers with levers as the manipulanda. Animals were first trained to respond for food as a reinforcer (condensed milk solution); they were then submitted to surgical i.v. insertion of an in-dwelling catheter, and required to respond for i.v. cocaine (0.25-4.0 mg/kg per injection) as a reinforcer. DBA/2J mice showed significantly higher maximal cocaine-induced hyperlocomotion, more rapid acquisition of cocaine self-administration, and significantly lower rates of cocaine self-administration. Cocaine concentration in the brains of DBA/2J and C57BL/6J mice failed to differ following i.p. injection, suggesting that distribution factors were not involved in the differential responses to cocaine. Although not conclusive, this pattern of effects may suggest that cocaine has greater reinforcing efficacy in DBA/2J mice, confirming genetic make-up as a determinant factor in cocaine taking behavior.
Met-enkephalin-Arg-Phe (MEAP) has been identified in acid extracts of canine heart tissue. The effects of synthetic MEAP on the vagal control of heart rate were investigated in anesthetized dogs. The arterial infusion of MEAP (3 nmol.min-1.kg-1) inhibited the bradycardia observed during electrical stimulation of the right vagus nerve by 72%. After the infusion was stopped, the responsiveness to vagal stimulation returned to normal, with a half-time between 2 and 3 min. The inhibition by MEAP was reversed by the high-affinity opiate antagonist diprenorphine (100 micrograms/kg). MEAP did not alter the negative chronotropic effect of the direct-acting muscarinic agonist methacholine. This observation suggested that MEAP exerted its effect at a site in the efferent vagal tract proximal to nodal muscarinic receptors. Increasing MEAP infusions (0.09-3.00 nmol.min-1.kg-1) produced a graded suppression of vagal bradycardia, with a half-maximal effect near 0.3 nmol.min-1.kg-1. Met-enkephalin (ME) produced responses very similar to those obtained with MEAP. The effects of ME were also blocked by prior administration of diprenorphine. Dose responses to ME were shifted to the right of those for MEAP, and half-maximal responses for ME were obtained at two to four times the dose required for MEAP. The data suggest that the intrinsic cardiac enkephalin MEAP can regulate vagal control of heart rate at physiologically achievable concentrations and may serve as a local regulator of the parasympathetic-myocardial interface.
Although preproenkephalin mRNA is abundant in the heart, the myocardial synthesis and processing of proenkephalin is largely undefined. Isolated working rat hearts were perfused to determine the rate of myocardial proenkephalin synthesis, its processing into enkephalin-containing peptides, their subsequent release into the coronary arteries, and the influence of prior sympathectomy. Enkephalin-containing peptides were separated by gel filtration and quantified with antisera for specific COOH-terminal sequences. Proenkephalin, peptide B, and [Met(5)]enkephalin-Arg(6)-Phe(7) (MEAP) comprised 95% of the extracted myocardial enkephalins (35 pmol/g). Newly synthesized enkephalins, estimated during a 1-h perfusion with [(14)C]phenylalanine (4 pmol x h(-1) x g wet wt(-1)), were rapidly cleared from the heart during a second isotope-free hour. Despite a steady release of enkephalins into the coronary effluent (4 pmol x h(-1) x g wet wt(-1)), enkephalin replacement apparently exceeded its release, and tissue enkephalins actually accumulated during hour 2. In contrast to the tissue, methionine-enkephalin accounted for more than half of the released enkephalin. Chemical sympathectomy produced an increase in total enkephalin content similar to that observed after 2-h control perfusion. This observation suggested that the normal turnover of myocardial enkephalin may depend in part on continued sympathetic influences.
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