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This study investigated how prolonged aggression in male CD1 mice alters responses to chronic LPS-induced inflammation. Aggression experience induced pathological aggression in 36% of mice. Following LPS, aggressors resolved systemic inflammation within five days—evidenced by normalized locomotor activity, WBC, and lymphocyte counts—while controls remained inflamed. LPS did not alter established aggression or anxiety. Furthermore, aggressors demonstrated accelerated inflammation resolution in the brain, showing a higher proportion of resting microglia and a lower percentage of activated microglia following LPS-induced inflammation compared to control animals. Gene expression analysis revealed a more pronounced inflammatory response in the hypothalamus than in the nucleus accumbens. Aggressive mice exhibited a profile associated with inflammation resolution, indicated by increased expression of the Trem2 gene. These differential immune responses may be modulated by the dopaminergic system. Elevated Drd1 gene expression in the hypothalamus likely enhances anti-inflammatory signaling, while changes in nucleus accumbens dopaminergic activity, involving D2 receptor activation, appear linked to the development of pathological aggression. Thus, this study demonstrates that prolonged aggression induces persistent changes in behavioral, neuroimmune, and neuroendocrine systems in male CD1 mice. Aggressive animals develop a distinct neuroimmune phenotype characterized by accelerated resolution of both systemic and brain inflammation following LPS challenge.