Microbiota-Driven microglia reprogramming reverses depressive-like behaviors through Peripheral-to-Central immune crosstalk
摘要
Major depressive disorder (MDD) is a major psychiatric condition associated with neuroimmune dysregulation. Microglia, the principal innate immune cells of the central nervous system, have been implicated in MDD. Nevertheless, the specific subpopulations involved and the mechanisms that govern their responses are still elusive. Here, we found that gut microbiota intervention using bedding from control non-stressed mice reverses chronic unpredictable mild stress (CUMS)-induced alterations in behavior. Using CD45+ immune cell sorting and single-cell RNA sequencing (scRNA-seq), we built an atlas of brain-resident microglia and non-microglial immune cells in the central and peripheral compartments. CUMS primarily induced transcriptional alterations in microglia and monocytes, while the reversed changes induced by bedding exchange mainly detected in microglia (85%). Among the microglial subtypes, homeostatic microglia 2 (HM2) primarily responded to CUMS. HM2 shaped microglial states through activation trajectory: the HM2→chemokine-related microglia 3→inflame microglia 1, which could be reversed by bedding exchange. Brain Mdcs served as the mainly immune cells interact with microglia. Furthermore, we systematically characterized alterations in the myeloid-derived cells across the brain, skull, and peripheral blood mononuclear cells (PBMC). Meanwhile, CUMS disrupted immune cell differentiation by suppressing chromatin openness in global accessibility sequencing analyses, and Krüppel-like factors Klf2 emerged as a master regulator expressed in monocytes and HM2 microglial subtype. Remarkably, microbiota remodeling partially reversed this epigenetic dysregulation, restoring immune cell migration and activation processes. In summary, this study revealed that gut microbiota intervention ameliorates depressive phenotypes by dynamically reprogramming microglia via the “periphery-CNS immune” axis, providing a novel entry for antidepressant strategies targeting neuro-immune interactions.