tTARGIT AAVs: A sensitive and flexible method to manipulate intersectional neuronal populations

While Cre-dependent viral systems permit the manipulation of many neuron types, some cell populations cannot be targeted by a single DNA recombinase. Although the combined use of Flp and Cre recombinases can overcome this limitation, insufficient recombinase activity can reduce the efficacy of existing Cre+Flp-dependent viral systems. We developed a sensitive dual recombinase-activated viral approach: tTA-driven Recombinase-Guided Intersectional Targeting (tTARGIT) AAVs. tTARGIT AAVs utilize a Flp-dependent tetracycline transactivator (tTA) “Driver” AAV and a tetracycline response element (TRE)-driven, Cre-dependent “Payload” AAV to express the transgene of interest. We employed this system inSlc17a6^FlpO;Lepr^Cremice to manipulate LepRb neurons of the ventromedial hypothalamus (VMH; LepRb^VMHneurons) while omitting neighboring LepRb populations. We defined the circuitry of LepRb^VMHneurons and roles for these cells in the control of food intake and energy expenditure. Thus, the tTARGIT system mediates robust recombinase-sensitive transgene expression, permitting the precise manipulation of previously intractable neural populations.