Dopamine (DA) neurons in the ventral tegmental area (VTA) modulate physical activity and feeding behaviors that are disrupted in obesity. Although the heterogeneity of VTA DA neurons has hindered determination of which ones might be leveraged to support weight loss, we have characterized a subset of VTA DA neurons that express NtsR1 (VTA NtsR1 neurons) that are involved in the coordination of energy balance. We hypothesized that 1) increased activity VTA NtsR1 neurons might promote weight loss behaviors, and that 2) deleting NtsR1 specifically from VTA DA neurons would promote weight gain by increasing food intake and decreasing physical activity. We first used Designer Receptors Exclusively Activated by Designer Drugs (DREADDs) to activate VTA NtsR1 neurons in normal weight and diet-induced obese mice. Acute activation of VTA NtsR1 neurons (24hr) significantly decreased body weight in normal weight and obese mice by reducing food intake and increasing physical activity. Moreover, daily activation of VTA NtsR1 neurons in obese mice sustained weight loss over 7 days. Activating VTA NtsR1 neurons also suppressed how much mice worked to obtain sucrose rewards, even when there was high motivation to consume. However, VTA NtsR1 neural activation was not reinforcing, nor did it invoke anxiety, vasodepressor responses or hypothermia. We then used newly generated NtsR1flox/flox mice to study NtsR1 deletion in both development and adulthood. Curiously, developmental deletion of VTA NtsR1 (by crossing DATCre mice with NtsR1flox/flox mice) had no impact on feeding or body weight. Adult deletion of the receptor (by injecting adeno associated Cre into VTA of adult NtsR1flox/flox mice), however, resulted in lower body weight and DA-dependent food intake. Altogether, these data suggest that modulating NtsR1 expression in the adult VTA may be useful to safely promote weight loss, and that NtsR1 is worth further exploration for managing obesity.
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