Oxytocin enables maternal behavior by balancing cortical inhibition

Oxytocin is essential for social interactions and maternal behavior. However, little is known about how oxytocin modulates neural circuits to improve social and maternal outcomes. We describe a synaptic mechanism by which oxytocin enhances signal-to-noise ratio in left primary auditory cortex to improve mouse maternal behavior. Methods: We performed electrophysiological recordings, and used anatomical, optogenetic and behavioral techniques to examine the role of oxytocin in maternal behavior in wild-type C57BL/6 and Oxytocin-IRES-Cre mice. Results: Virgins females, who do not initially retrieve distressed pups, rapidly expressed retrieval behavior after receiving oxytocin under dam and pups co-housing conditions. Retrieval onset was accelerated in 20/36 mice receiving systemic oxytocin and in 5/7 mice receiving optogenetic stimulation (P=0.03, 0.05, respectively; Fisher's two-tailed exact test). To confirm regional sites of action subserving improved maternal behavior, we generated novel antibodies that bind to the mouse oxytocin receptor. Oxytocin receptors were preferentially expressed in the left auditory cortex (19% left cells, 14% right cells, n=21, P=0.001). Finally, we utilitzed in vivo whole-cell recordings to measure spiking/synaptic responses to pup calls. Pup call responses were lateralized, with co-tuned/temporally-precise responses in left auditory cortex of maternally-experienced but not maternal-naive adults. Pairing calls with oxytocin enhanced call-evoked responses in virgin dams by balancing the magnitude/ timing of inhibition with excitation, transitioning the auditory cortex from a virgin-like state to a maternal state.