Litcius/Paper detail

Social isolation produces a sex‐ and brain region‐specific alteration of microglia state

Alex P. Vu, D. K. Lam, Cayla Denney, Kelly V. Lee, Jason R. Plemel, Jesse Jackson

2023European Journal of Neuroscience11 citationsDOIOpen Access PDF

Abstract

Social isolation is a profound form of psychological stress that impacts the mental health of a large proportion of society. Other experimental models of stress have demonstrated a microglia response that serves either a protective or pathological function. However, the effect of adult social isolation on microglia has not been thoroughly investigated. We measured microglia territory, branching, end points and phagocytic-lysosomal activity in group housed C57Bl/6 mice and mice that were socially isolated for 2 weeks. Our results show that the dorsomedial hypothalamus and hippocampal CA2 region of adult male mice undergo increased microglia volume, territory and endpoints following social isolation, whereas females exhibit this increase in the hypothalamus only. Males exhibited decreases in the phagocytic-lysosomal marker CD68 in microglia in these regions, whereas females showed an increase in CD68 in the hypothalamus suggesting sexually dimorphic and brain region-specific change in microglia state in response to social isolation. The prefrontal cortex, central amygdala, nucleus accumbens shell and visual cortex did not exhibit changes in microglia structure in either male or female mice. These data show that microglia in different brain regions undergo a distinct response to social isolation which may account for changes in cognition and behaviour associated with this prevalent form of psychological stress.

Topics & Concepts

MicrogliaNucleus accumbensPrefrontal cortexAmygdalaHypothalamusNeuroscienceSocial isolationHippocampal formationHippocampusSocial stressPsychologyBiologyEndocrinologyInternal medicineMedicineCentral nervous systemInflammationCognitionPsychiatryNeuroinflammation and Neurodegeneration MechanismsStress Responses and CortisolTryptophan and brain disorders