Background: Brain-derived neurotrophic factor (BDNF) regulates food intake and body weight, but is not useful as a therapeutic because of its short half-life. Chronic activation of its receptor, tyrosine kinase receptor B (TrkB), represents an alternative strategy for lowering body weight. However, because BDNF can raise blood pressure (BP) acutely, it is possible that chronic TrkB activation will produce adverse cardiovascular effects.
Methods: We used radiotelemetry to test whether treatment with a TrkB agonist antibody (Ab) causes adverse cardiovascular effects in mice with diet-induced obesity.
Results: High-dose (1 mg/kg) TrkB Ab reduced body weight and significantly increased BP, whereas low-dose (0.3 mg/kg) treatment lowered body weight without adverse cardiovascular effects. Rimonabant, through a different mechanism of action, lowered body weight in this model more than TrkB activation, but showed no adverse effects on heart rate (HR) or BP. These data suggest that elevated BP was a direct effect of high-dose TrkB Ab treatment rather than secondary to substantial weight loss.
Conclusions: Overall, high-dose TrkB Ab lowered body weight and increased BP, whereas low-dose TrkB Ab treatment caused therapeutic weight loss without adverse cardiovascular effects. We conclude that TrkB activation dose-dependently lowers body weight and transiently raises BP in mice with diet-induced obesity.