Whole‐brain mapping of neuronal activity evoked by maternal separation in neonatal mice: An association with ultrasound vocalization

Neonatal mice emit ultrasonic vocalizations (USVs) when separated from their mothers. Since the USVs attract their mothers' attention and trigger maternal retrieval, they are considered to serve as social signals for communication. We have modeled paternal aging effects on the vocal communication of offspring in mice. However, little is known about the neural basis underlying neonatal USV production. To identify responsible brain regions driving the vocal behavior, we comprehensively mapped the neuronal activity associated with USV production in the entire brain of mice at postnatal day 6 (P6). Using an expression of immediate‐early gene c‐Fos as a neuronal activity marker, correlations between the numbers of USVs and c‐Fos positive neurons were analyzed. We identified 23 candidate brain regions associated with USV production in the mice at P6. Our study would be a first step toward comprehensively understanding the neuronal mechanisms that regulate and develop vocal behaviors in neonatal mice. To identify important brain areas driving the vocal behavior in early postnatal mice, we examined the neuronal activity related to vocalization production in the entire brain of mice at postnatal day 6 (P6). Using c‐Fos as a neuronal activity marker, we identified 23 potential brain areas potentially linked with vocalization production.