Bibliographic Details
| Title: |
Ventromedial prefrontal neurons represent self-states shaped by vicarious fear in male mice. |
| Authors: |
Huang, Ziyan, Chung, Myung, Tao, Kentaro, Watarai, Akiyuki, Wang, Mu-Yun, Ito, Hiroh, Okuyama, Teruhiro |
| Source: |
Nature Communications; 7/3/2023, Vol. 14 Issue 1, p1-16, 16p |
| Subject Terms: |
NEURONS, AVERSIVE stimuli, PREFRONTAL cortex, MACHINE learning, RODENTS, CINGULATE cortex |
| Abstract: |
Perception of fear induced by others in danger elicits complex vicarious fear responses and behavioral outputs. In rodents, observing a conspecific receive aversive stimuli leads to escape and freezing behavior. It remains unclear how these behavioral self-states in response to others in fear are neurophysiologically represented. Here, we assess such representations in the ventromedial prefrontal cortex (vmPFC), an essential site for empathy, in an observational fear (OF) paradigm in male mice. We classify the observer mouse's stereotypic behaviors during OF using a machine-learning approach. Optogenetic inhibition of the vmPFC specifically disrupts OF-induced escape behavior. In vivo Ca2+ imaging reveals that vmPFC neural populations represent intermingled information of other- and self-states. Distinct subpopulations are activated and suppressed by others' fear responses, simultaneously representing self-freezing states. This mixed selectivity requires inputs from the anterior cingulate cortex and the basolateral amygdala to regulate OF-induced escape behavior. Observational fear is accompanied by both freezing and escape behavior in rodents. Here, the authors show that ventromedial prefrontal cortex (vmPFC) inhibition disrupts escape behavior specifically, and that vmPFC neural activity represents intermingled information of other- and self-states. [ABSTRACT FROM AUTHOR] |
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| Database: |
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