Neurotensin-specific corticothalamic circuit regulates innate response conflict

Authors
Park, GeunhongPark, YongjunYang, SeulkeeCho, YoonjeongSerikov, AlmasJung, DajungSeo, Dong-ChanLee, Seung EunNam, Min-HoKim, DaesooKim, Jeongjin
Issue Date
2024-08
Publisher
Cell Press
Citation
Current Biology, v.34, no.15, pp.3473 - 3487
Abstract
Animals must simultaneously select and balance multiple action contingencies in ambiguous situations: for instance, evading danger during feeding. This has rarely been examined in the context of information selection; despite corticothalamic pathways that mediate sensory attention being relatively well characterized, neural mechanisms filtering conflicting actions remain unclear. Here, we develop a new loom/feed test to observe conflict between naturally induced fear and feeding and identify a novel anterior cingulate cortex (ACC) output to the ventral anterior and ventral lateral thalamus (VA/VL) that adjusts selectivity between these innate actions. Using micro-endoscopy and fiber photometry, we reveal that activity in corticofugal outputs was lowered during unbalanced/singularly occupied periods, as were the resulting decreased thalamic initiation-related signals for less-favored actions, suggesting that the integration of ACC-thalamic firing may directly regulate the output of behavior choices. Accordingly, the optoinhibition of ACC-VA/VL circuits induced high bias toward feeding at the expense of defense. To identify upstream "commander"cortical cells gating this output, we established dual-order tracing (DOT)-translating ribosome affinity purification (TRAP)-a scheme to label upstream neurons with transcriptome analysis-and found a novel population of neurotensin-positive interneurons (ACCNts).The Nts ).The photoexcitation of ACCNts Nts cells indeed caused similarly hyper-selective behaviors. Collectively, this new "corticofugal action filter"scheme suggests that communication in multi-step cingulate circuits may critically influence the summation of motor signals in thalamic out
Keywords
ANTERIOR CINGULATE CORTEX; CANINE ADENOVIRUS VECTORS; LATERAL HYPOTHALAMUS; DEFENSIVE BEHAVIOR; CELL-TYPES; ORGANIZATION; ATTENTION; NEURONS; PATHWAYS; THALAMUS
ISSN
0960-9822
URI
https://pubs.kist.re.kr/handle/201004/150469
DOI
10.1016/j.cub.2024.06.068
Appears in Collections:
KIST Article > 2024
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