Basolateral amygdala circuits supporting negative emotional bias in a mouse model for depression

Negative emotional bias is an essential hallmark of depression reflected by negative shift in hedonic valence assignment to emotional stimuli. Pleasant cues become less attractive and unpleasant ones more aversive. Given the crucial role of amygdala in valence coding, we hypothesize that specific basolateral amygdala (BLA) circuits alterations might support negative emotional bias associated with depressive states. Using a translational assay, we evaluate odor valence assignment in an animal model for depression chronically administered by corticosterone (CORT). We show spontaneous negative bias in depressive-like mice that attribute more negative valences for both attractive and aversive odors, mimicking thus the bias observed in depressed bipolar patients. Combining CTB and rabies-based tracing with ex vivo measurements of neuronal activity and chemogenetics experiments, we find that the CORT treatment reduces BLA-to-nucleus accumbens (NAc) neuronal activity and increases BLA-to-central amygdala activity, circuits respectively known to be involved in positive and negative valence encoding. Alterations in presynaptic connectivity of BLA-projecting neurons accompany these activity shifts. Interestingly, inputs from the paraventricular thalamus nucleus (PVT) towards BLA-to-NAc neurons are reduced in CORT-treated mice. Finally, chemogenetically activating the BLA-to-NAc circuit attenuates the negative bias in CORT-treated mice as well as the depressive-like phenotype, similarly than Fluoxetine antidepressant treatment. Altogether, we demonstrate that depressive states are associated with negative emotional bias both in human and mice. This bias is supported by activity shifts of specific BLA circuits along with durable presynaptic connectivity changes, but it could be alleviated by antidepressant drug or activity manipulation of altered BLA circuit. ### Competing Interest Statement The authors have declared no competing interest.