TY - JOUR
T1 - Oxytocin signaling regulates maternally-directed behavior during early life
AU - Zelmanoff, Daniel
AU - Kaufman, Menachem
AU - Dine, Julien
AU - Wietek, Jonas
AU - Litvin, Anna
AU - Abraham, Shaked
AU - Cohen, Savanna
AU - Yizhar, Ofer
N1 - NA
PY - 2024/2/15
Y1 - 2024/2/15
N2 - Oxytocin is essential in shaping social behavior across the lifespan. While the role of oxytocin signaling in parental care has been widely investigated, little is known about its function in social behavior during early life. This is partly due to the lack of precise technologies for studying the developing brain. Here, we studied the role of oxytocin in pup social behavior under acute separation from and reunion with the mother. We show that the activity of oxytocin neurons was increased by acute maternal separation and returned to baseline after reunion. Behaviorally, maternally-separated pups emitted more ultrasonic vocalizations upon reunion, which were further modulated by nipple attachment behavior. These effects were attenuated by blocking the oxytocin receptor during maternal separation. To investigate the role of oxytocin neurons with higher precision, we established a method for transcranial optogenetic silencing of neuronal activity in untethered and freely behaving pups. Using this approach, we found that silencing of oxytocin neurons during maternal separation disrupted vocal behavior during separation and reunion in a sex-specific manner. Our findings reveal an important role of oxytocin in context-dependent vocal communication in pups, offering new insights into the mechanisms of social behavior during early life.Competing Interest StatementOY is listed as an inventor on a patent application (US20210403518A1) filed with the US Patent Office regarding type II bistable opsins, and serves as a consultant for Modulight.bio.
AB - Oxytocin is essential in shaping social behavior across the lifespan. While the role of oxytocin signaling in parental care has been widely investigated, little is known about its function in social behavior during early life. This is partly due to the lack of precise technologies for studying the developing brain. Here, we studied the role of oxytocin in pup social behavior under acute separation from and reunion with the mother. We show that the activity of oxytocin neurons was increased by acute maternal separation and returned to baseline after reunion. Behaviorally, maternally-separated pups emitted more ultrasonic vocalizations upon reunion, which were further modulated by nipple attachment behavior. These effects were attenuated by blocking the oxytocin receptor during maternal separation. To investigate the role of oxytocin neurons with higher precision, we established a method for transcranial optogenetic silencing of neuronal activity in untethered and freely behaving pups. Using this approach, we found that silencing of oxytocin neurons during maternal separation disrupted vocal behavior during separation and reunion in a sex-specific manner. Our findings reveal an important role of oxytocin in context-dependent vocal communication in pups, offering new insights into the mechanisms of social behavior during early life.Competing Interest StatementOY is listed as an inventor on a patent application (US20210403518A1) filed with the US Patent Office regarding type II bistable opsins, and serves as a consultant for Modulight.bio.
U2 - 10.1101/2024.02.15.580483
DO - 10.1101/2024.02.15.580483
M3 - Article
SN - 2692-8205
JO - BioRxiv
JF - BioRxiv
M1 - 2024.02.15.580483
ER -