Abstract
OBJECTIVE: This study utilized AAV gene delivery as an approach to induce and reverse hyperphagia in mice. We hypothesized that the delivery of orexigenic neuropeptides to the brain via AAV precipitates obesity and that the implementation of genetic switches to reverse transgene expression would elicit weight loss. METHODS: We utilized capsid-modified AAV-PHP.eB and AAV-CAP.B10 to deliver AgRP, NPY, a leptin superantagonist, and ghrelin to the mouse brain. Cre-LoxP, TETOFF, and cumate expression systems were used to alter transgene expression. RESULTS: Delivery of three out of four orexigenic neuropeptides to the brain precipitated severe obesity. Cre-mediated excision of AgRP from the brain caused a return to baseline weight, confounded by tamoxifen-associated weight loss. Doxycycline-mediated suppression of AgRP in a TETOFF vector paused weight gain but did not elicit weight loss. Cumate induction of AgRP in the brain was unaffected by systemic administration, suggesting that cumate inadequately penetrates the blood-brain barrier. CONCLUSIONS: Brain-targeted delivery of orexigenic peptides induces obesity in mice. This allows for temporally controlled, convenient, and robust preclinical models of obesity. The implementation of genetic switches enabled suppression/removal of AgRP expression, but we unexpectedly observed that removal of hyperphagic stimuli does not elicit robust weight loss.