Microglia-dependent LPS preconditioning prevents neuroinflammation-induced behavioral deficits in male mice

Neuroinflammation contributes to psychiatric disorders, but preventive strategies targeting brain immune cells remain unexplored. Here we demonstrate that low-dose lipopolysaccharide (LPS) preconditioning prevents systemic inflammation-induced behavioral abnormalities through microglia-dependent mechanisms in male mice. Mice received preconditioning with 0.2 mg/kg LPS or saline for two consecutive days, followed by high-dose LPS challenge (5 mg/kg) or saline seven days later. Behavioral assessment revealed that preconditioning specifically prevented social preference deficits induced by systemic inflammation (preference score: -0.49+/-0.19 vs 0.14+/-0.10, p<0.01), while showing limited effects on locomotor activity and depression-like behaviors. Additionally, LPS preconditioning prevented anxiety-like behavior in a chronic corticosterone model and attenuated hippocampal inflammatory gene expression. Immunohistochemical analysis demonstrated that preconditioning suppressed microglial activation in hippocampal CA1 region, particularly reducing PBR/IBA1 ratio (37.5+/-2.4% vs 27.6+/-2.8%, p<0.01), with less pronounced effects in CA3. Critically, pharmacological microglial depletion using PLX3397 during the preconditioning period completely abolished these protective effects, establishing the causal role of microglia. Flow cytometric analysis revealed preconditioning-induced shifts in brain macrophage subpopulations defined by TMEM119 and CD45 expression patterns. Transcriptomic profiling identified subpopulation-specific responses, with one subset showing LPS-response pathway enrichment despite minimal gene expression changes, while another displayed extensive but functionally non-specific transcriptional alterations. These findings establish microglial preconditioning as a novel preventive strategy for neuroinflammation-induced social behavioral deficits and suggest potential therapeutic applications for psychiatric disorders involving neuroinflammatory components.