免疫系统
神经炎症
下调和上调
细胞生物学
髓鞘
调节器
生物
少突胶质细胞
表型
瓜纳本茨
神经科学
核糖核酸
基因
体内
信号转导
中枢神经系统
小胶质细胞
信号灯
化学
未折叠蛋白反应
基因表达
HEK 293细胞
拉伤
慢性应激
免疫学
发病机制
炎症
神经免疫学
战斗或逃跑反应
作者
Miguel M. Madeira,Zachary Hage,Dimitris Koliatsis,Alexandros G. Kokkosis,Kimberly Nnah,Alexander J. Rhee,Gilbert J. Rahme,Katherine Kamvisios,Antonis E. Koromilas,Barbara Rosati,David McKinnon,Stella E. Tsirka
标识
DOI:10.1073/pnas.2511231123
摘要
Chronic psychosocial stress is a major precipitant of Major Depressive Disorder (MDD), yet the glial mechanisms that translate sustained stress into maladaptive myelin and immune changes remain unclear. Using chronic social defeat stress and single-nucleus RNA sequencing of anterior medial PFC (mPFC) oligodendroglia, we identified a mature-oligodendrocyte cluster almost exclusively from stress-susceptible animals, marked by immune genes (MHCII) and upregulated Pde4b. Integration with a human MDD single-nucleus RNA sequencing dataset confirmed a conserved immune-like oligodendrocyte (ImOL) subset coexpressing Plp1 and Cd74 and enriched for Pde4b. Mechanistically, PDE4 inhibition with crisaborole elevated cAMP-PKA-CREB signaling, blocked IFNγ-induced MHCII expression, and engaged the eIF2α-ATF4/CHOP arm of the integrated stress response (ISR). In vivo modulation of the ISR with ISRIB or guanabenz bidirectionally controlled ImOL prevalence and stress-related behaviors. These findings position Pde4b-cAMP-ISR signaling as a regulator of oligodendroglial immune phenotypes and a promising target to modulate myelination and neuroinflammation in stress-related disorders.
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