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Hypothalamic perifornical Urocortin-3 neurons modulate defensive responses to a potential threat stimulus

Noriko Horii‐Hayashi, Kensaku Nomoto, Nozomi Endo, Akihiro Yamanaka, Takefumi Kikusui, Mayumi Nishi

2020iScience33 citationsDOIOpen Access PDF

Abstract

Defensive behaviors are evolved responses to threat stimuli, and a potential threat elicits risk assessment (RA) behavior. However, neural mechanisms underlying RA behavior are hardly understood. Urocortin-3 (Ucn3) is a member of corticotropin-releasing factor peptide family and here, we report that Ucn3 neurons in the hypothalamic perifornical area (PeFA) are involved in RA of a novel object, a potential threat stimulus, in mice. Histological and in vivo fiber photometry studies revealed that the activity of PeFA Ucn3 neurons was associated with novel object investigation involving the stretch-attend posture, a behavioral marker for RA. Chemogenetic activation of these neurons increased RA and burying behaviors toward a novel object without affecting anxiety and corticosterone levels. Ablation of these neurons caused the abnormal behaviors of gnawing and direct contacts with novel objects, especially in a home-cage. These results suggest that PeFA Ucn3 neurons modulate defensive responses to a potential threat stimulus.

Topics & Concepts

UrocortinNeuroscienceNeuroscientistStimulus (psychology)ChemistryPsychologyMedicineInternal medicineCognitive psychologyCentral nervous systemReceptorMyelinOligodendrocyteStress Responses and CortisolNeuroendocrine regulation and behaviorChild and Adolescent Psychosocial and Emotional Development