Chronic activity-wheel running enhances male copulation and is associated with brain noradrenergic adaptations that may be modulated by the neuropeptide galanin (GAL). When injected into the medial pre-optic area (MPOA) of the hypothalamus, norepinephrine facilitates, and the beta-adrenoreceptor antagonist propranolol inhibits, male copulation. The present experiment tested whether chronic exercise mitigates copulatory decrements induced by adrenergic blockade in the MPOA. It was hypothesized that 3 weeks of activity-wheel running would (1) reverse deficits in male copulatory performance and (2) increase GAL mRNA in the MPOA after beta-adrenoreceptor blockade with propranolol.
Materials and methods: Long-Evans male rats were randomly assigned to three experimental groups: sedentary/propranolol, activity-wheel/propranolol, and home-cage control. Animals were chronically administered propranolol in saline vehicle (6 microm/day) via an osmotic mini-pump connected to a cannula implanted into the third ventricle. After 3 weeks of activity-wheel running, rats underwent copulatory testing. After rapid decapitation 24h later, rat brains were analyzed utilizing in situ hybridization histochemistry for GAL mRNA in the MPOA.
Results: Chronic exercise mitigated reductions in the percentage of males that intromitted and ejaculated after propranolol treatment, but there was no effect of exercise on GAL mRNA.
Conclusion: The findings are consistent with noradrenergic adaptations in the MPOA that facilitate male copulation after wheel running independently of GAL mRNA expression.