Abstract
ABSTRACTFear is a protective response to perceived danger that allows an organism to identify and respond to threats to avoid harm. Though fear is critical for survival, excessive fear can impede normal biological processes; thus, accurate risk assessment is key for well-being. Here we investigate the neural underpinnings of two distinct behavioral states: phasic and sustained fear. Phasic fear is considered an adaptive response and is characterized by response to a clear and discrete cue that dissipates rapidly once the threat is no longer present. Conversely, sustained fear or anxiety is a heightened state of arousal and apprehension that is not clearly associated with specific cues and lasts for longer periods of time. Here, we directly examine the contribution of BNST CRF signaling to phasic and sustained fear in male and female mice using a partially reinforced fear paradigm to test the overarching hypothesis that plasticity in BNST CRF neurons drive distinct behavioral responses to unpredictable threat in males and females.
Publisher
Cold Spring Harbor Laboratory
Reference55 articles.
1. Adaptations to Predators and Prey
2. Risk assessment as an evolved threat detection and analysis process
3. Fanselow, M. S. & Lester, L. S . A functional behavioristic approach to aversively motivated behavior: Predatory imminence as a determinant of the topography of defensive behavior. in Evolution and learning 185–212 (Lawrence Erlbaum Associates, Inc, 1988).
4. Antipredator responses and defensive behavior: ecological and ethological approaches for the neurosciences
5. Mobbs, D. , Hagan, C. C. , Dalgleish, T. , Silston, B. & Prévost, C . The ecology of human fear: survival optimization and the nervous system. Front. Neurosci. 9, (2015).
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献