Valence and salience encoding by parallel circuits from the paraventricular thalamus to the nucleus accumbens.

The anterior and posterior subregions of the paraventricular thalamus (aPVT and pPVT, respectively) play unique roles in learned behaviors, from fear conditioning to alcohol/drug intake, potentially through differentially organized projections to limbic brain regions including the nucleus accumbens medial shell (mNAcSh). Here, we found that the aPVT projects broadly to the mNAcSh and that the aPVT-mNAcSh circuit encodes positive valence, such that in vivo manipulations of the circuit modulated both innately programmed and learned behavioral responses to positively and negatively valenced stimuli, particularly in females. Further, the endogenous activity of aPVT presynaptic terminals in the mNAcSh was greater in response to positively than negatively valenced stimuli, and the probability of synaptic glutamate release from aPVT neurons in the mNAcSh was higher in females than males. In contrast, we found that the pPVT-mNAcSh circuit encodes stimulus salience regardless of valence. While pPVT-mNAcSh circuit inhibition suppressed behavioral responses in both sexes, circuit activation increased behavioral responses to stimuli only in males. Our results point to circuit-specific stimulus feature encoding by parallel PVT-mNAcSh circuits that have sex-dependent biases in organization and function.

Citation

Jean K Rivera-Irizarry, Peter U Hámor, Sydney A Rowson, Joseph Asfouri, Dezhi Liu, Lia J Zallar, Aaron F Garcia, Mary Jane Skelly, Kristen E Pleil. Valence and salience encoding by parallel circuits from the paraventricular thalamus to the nucleus accumbens. bioRxiv : the preprint server for biology. 2023 Jul 03

PMID: 37461604

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