Pheromones induce social behaviours through the main olfactory system (MOS) and vomeronasal system (VNS). However, functional dissociation of the MOS and VNS in pheromone processing has never been achieved, because a complete loss of the MOS blocks access of pheromones to the VNS. Therefore, assessing the direct contribution of the MOS to social behaviour is a challenge.

Here, we show that mice with loss of function only in the dorsal zone of the MOS maintain pheromone recognition and VNS activity, but fail to demonstrate attraction to female urine and accompanying ultrasonic vocalisations, chemoinvestigatory preference, aggression, or maternal behaviours. Functional dissociation of pheromone detection and induction of behaviours enabled us to identify the anterior olfactory nucleus (AON) as a regulator of social behaviours downstream from the MOS and the MOS-AON pathway as a conveyor of pheromone information to multiple amygdaloid and hypothalamic nuclei, independent of the VNS. Identification of the MOS-AON pathway may shed light on pheromone signalling in animals that do not possess a functional VNS, such as humans.