Summary
The basolateral amygdala (BLA) is an evolutionarily conserved brain region, well known for valence processing. Despite this central role, the relationship between activity of BLA neuronal ensembles in response to appetitive and aversive stimuli and the subsequent expression of valence-specific behavior has remained elusive. Here we leverage 2-photon calcium imaging combined with single cell holographic photostimulation through an endoscopic lens implanted in the deep brain to demonstrate a direct causal role for discrete ensembles of BLA neurons in the control of oppositely valenced behavior. We report that targeted photostimulation of individual groups of appetitive or aversive BLA neurons shifts behavioral responses toward those behaviors which recruited a specific consumption or avoidance ensemble. Here we identify that neuronal encoding of valence in the BLA is graded and relies on the relative proportion of individual BLA neurons recruited in a stable appetitive or aversive ensemble.
Competing Interest Statement
The authors have declared no competing interest.
