We previously demonstrated that central nervous system (CNS) administration of leptin improves left ventricular (LV) function after myocardial infarction through mechanisms that are poorly understood. Increased cardiac sympathetic activity is an important compensatory mechanism to maintain cardiac output after ischemic injury, and previous studies showed that centrally-administered leptin increases sympathetic outflow to various tissues. In the present study, we tested the hypothesis that leptin’s CNS-mediated cardioprotective effects are mediated via cardiac sympathetic nerves. Male and female Wistar rats (~8 weeks of age) were submitted to cervical ganglia denervation (CGx) and instrumented with an intracerebroventricular (ICV) cannula in the brain lateral ventricle. After recovery and baseline assessment of cardiac function by echocardiography (ECHO) and an exercise performance test (Vmax), myocardial ischemia/reperfusion (I/R) was induced by temporary (60 min) ligation of the left anterior descending coronary artery. Vehicle (saline, 0.5 μL/hr) or leptin (0.62 μg/hr) was infused chronically for 28 days starting 20 min after reperfusion using osmotic pumps implanted subcutaneously in the scapular region and connected to the ICV cannula. Cardiac function was assessed weekly by ECHO. At the end of week 4, a final Vmax was performed and +dP/dt max was accessed by LV catheterization using a Millar catheter. Despite ~70% reduction in cardiac tyrosine hydroxylase positive fibers compared to sham, CGx did not prevent leptin’s CNS-mediated cardioprotective effects as indicated by improved ejection fraction (55±1 vs. 29±3 %), global longitudinal strain (-19±2 vs. -3±2 %), +dP/dt max (10214±614 vs. 7174±716 mmHg/s) and exercise performance (1.3±14 vs. -46.3±14 Δ% compared to baseline before I/R) when compared with CGx vehicle-treated animals. CGx also did not prevent the effect of ICV leptin to reduce septal collagen deposition and heart weight/tibia length post-I/R. These results suggests that leptin, via its CNS actions, improves cardiac function and remodeling after I/R injury independent of cardiac sympathetic innervation.