PACAPergic BAC engages basolateral amygdalar and anterodorsal thalamic networks during looming-threat learning and memory in a labyrinth

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PACAPergic BAC engages basolateral amygdalar and anterodorsal thalamic networks during looming-threat learning and memory in a labyrinth

Authors

Zhang, L.; Hernandez, V.; Segura-Chama, P.; Zhang, H.-Y.; Jiang, S. Z.; Eiden, L. E.

Abstract

The bed nucleus of the anterior commissure (BAC) is a small pituitary adenylate cyclase-activating polypeptide (PACAP)-rich glutamatergic cell population located at the intersection of the anterior commissure, stria terminalis, stria medullaris, and fornix. Here, we provide functional neuroanatomical characterization of the BAC using PACAP-Cre mice and Cre-dependent viral tracing. BAC axons traverse these major forebrain conduits to engage distributed limbic and diencephalic networks, with dense innervation of the posterior basolateral amygdala (pBLA) and anterior dorsal thalamic nucleus (AD), both implicated in emotional processing and spatial orientation. To determine the functional significance of the BAC, we developed a novel looming-threat memory test (LTMT) paradigm in which mice learned the location of a shelter within a dual-maze labyrinth before exposure to an overhead looming stimulus. Chemogenetic inhibition of BAC PACAP neurons impaired shelter-directed escape, increased freezing behavior, prolonged escape trajectories, and disrupted efficient safety-seeking responses. Selective deletion of PACAP from BAC neurons also blocked key aspects of the looming-induced behavioral phenotype. Fos mapping revealed robust neuronal activation by the looming stimulus, within the AD, pBLA, and dorsal periaqueductal gray (dPAG). BAC silencing blocked Fos induction. PACAPBAC depletion blocked fos induction in AD, but not in pBLA or dPAG. Preliminary ex-vivo recordings further indicated that PACAP modulates the intrinsic excitability of AD (and pBLA) neurons. Together, these findings identify the BAC as a previously unrecognized PACAPergic forebrain hub that links emotional and spatial-orientation networks to coordinate looming-threat learning, memory, and adaptive defensive behavior.

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