Central infusion of leptin improves insulin resistance and suppresses β-cell function, but not β-cell mass, primarily through the sympathetic nervous system in a type 2 diabetic rat model

AimsWe investigated whether hypothalamic leptin alters β-cell function and mass directly via the sympathetic nervous system (SNS) or indirectly as the result of altered insulin resistant states.Main methodsThe 90% pancreatectomized male Sprague Dawley rats had sympathectomy into the pancreas by applying phenol into the descending aorta (SNSX) or its sham operation (Sham). Each group was divided into two sections, receiving either leptin at 300 ng/kg bw/h or artificial cerebrospinal fluid (aCSF) via intracerebroventricular (ICV) infusion for 3 h as a short-term study. After finishing the infusion study, ICV leptin (3 μg/kg bw/day) or ICV aCSF (control) was infused in rats fed 30 energy % fat diets by osmotic pump for 4 weeks. At the end of the long-term study, glucose-stimulated insulin secretion and islet morphometry were analyzed.Key findingsAcute ICV leptin administration in Sham rats, but not in SNSX rats, suppressed the first- and second-phase insulin secretion at hyperglycemic clamp by about 48% compared to the control. Regardless of SNSX, the 4-week administration of ICV leptin improved glucose tolerance during oral glucose tolerance tests and insulin sensitivity at hyperglycemic clamp, compared to the control, while it suppressed second-phase insulin secretion in Sham rats but not in SNSX rats. However, the pancreatic β-cell area and mass were not affected by leptin and SNSX, though ICV leptin decreased individual β-cell size and concomitantly increased β-cell apoptosis in Sham rats.SignificanceLeptin directly decreases insulin secretion capacity mainly through the activation of SNS without modulating pancreatic β-cell mass.