Nasanbuyan Naranbat, Yoshida Masahide, Inutsuka Ayumu, Takayanagi Yuki, Kato Shigeki, Hidema Shizu, Nishimori Katsuhiko, Kobayashi Kazuto, Onaka Tatsushi
Division of Brain and Neurophysiology, Department of Physiology, Jichi Medical University, Tochigi, Japan.
Division of Brain and Neurophysiology, Department of Physiology, Jichi Medical University, Tochigi, Japan.
Biol Psychiatry. 2025 May 1;97(9):874-886. doi: 10.1016/j.biopsych.2024.09.015. Epub 2024 Sep 27.
The flexibility to adjust actions and attitudes in response to varying social situations is a fundamental aspect of adaptive social behavior. Adaptive social behaviors influence an individual's vulnerability to social stress. While it has been proposed that oxytocin is a facilitator of active coping behaviors during social stress, the exact mechanisms remain unknown.
Using a social defeat stress paradigm in male mice, we identified the distribution of oxytocin receptor (OXTR)-expressing neurons in the ventrolateral part of the ventromedial hypothalamus (vlVMH) that are activated during stress by detection of c-Fos protein expression. We then investigated the role of vlVMH OXTR-expressing neurons in social defeat stress responses by chemogenetic methods or deletion of local OXTRs. The social defeat posture was measured for quantification of adaptive social behavior during repeated social stress.
Social defeat stress activated OXTR-expressing neurons rather than estrogen receptor 1-expressing neurons in the rostral vlVMH. OXTR-expressing neurons in the vlVMH were glutamatergic. Chemogenetic activation of vlVMH OXTR-expressing neurons facilitated exhibition of the social defeat posture during exposure to social stress, while local OXTR deletion suppressed it. In contrast, overactivation of vlVMH-OXTR neurons induced generalized social avoidance after exposure to chronic social defeat stress. Neural circuits for the social defeat posture centered on OXTR-expressing neurons were identified by viral tracers and c-Fos mapping.
vlVMH OXTR-expressing neurons are a functionally unique population of neurons that promote active coping behavior during social stress, but their excessive and repetitive activation under chronic social stress impairs subsequent social behavior.
根据不同社会情境调整行为和态度的灵活性是适应性社会行为的一个基本方面。适应性社会行为会影响个体对社会压力的易感性。虽然有人提出催产素是社会压力期间积极应对行为的促进因素,但其确切机制仍不清楚。
我们利用雄性小鼠的社会挫败应激范式,通过检测c-Fos蛋白表达来确定在应激期间被激活的腹内侧下丘脑腹外侧部分(vlVMH)中表达催产素受体(OXTR)的神经元的分布。然后,我们通过化学遗传学方法或局部OXTR缺失来研究vlVMH中表达OXTR的神经元在社会挫败应激反应中的作用。测量社会挫败姿势以量化重复社会应激期间的适应性社会行为。
社会挫败应激激活了吻侧vlVMH中表达OXTR而非表达雌激素受体1的神经元。vlVMH中表达OXTR的神经元是谷氨酸能的。化学遗传学激活vlVMH中表达OXTR的神经元促进了在暴露于社会应激期间社会挫败姿势的表现,而局部OXTR缺失则抑制了它。相比之下,vlVMH-OXTR神经元的过度激活在暴露于慢性社会挫败应激后导致普遍的社会回避。通过病毒示踪剂和c-Fos图谱确定了以表达OXTR的神经元为中心的社会挫败姿势的神经回路。
vlVMH中表达OXTR的神经元是一组功能独特的神经元,它们在社会应激期间促进积极的应对行为,但在慢性社会应激下它们的过度和重复激活会损害随后的社会行为。
