A loss of mature microglial markers without immune activation in schizophrenia.
Gijsje J L J SnijdersWelmoed van ZuidenMarjolein A M SneeboerAmber Berdenis van BerlekomAstrid T van der GeestTatiana SchniederDonald J MacIntyreElly M HolRené S KahnLot D de WittePublished in: Glia (2021)
Microglia, the immune cells of the brain, are important for neurodevelopment and have been hypothesized to play a role in the pathogenesis of schizophrenia (SCZ). Although previous postmortem studies pointed toward presence of microglial activation, this view has been challenged by more recent hypothesis-driven and hypothesis-free analyses. The aim of the present study is to further understand the observed microglial changes in SCZ. We first performed a detailed meta-analysis on studies that analyzed microglial cell density, microglial morphology, and expression of microglial-specific markers. We then further explored findings from the temporal cortex by performing immunostainings and qPCRs on an additional dataset. A random effect meta-analysis showed that the density of microglial cells was unaltered in SCZ (ES: 0.144 95% CI: 0.102 to 0.390, p = .250), and clear changes in microglial morphology were also absent. The expression of several microglial specific genes, such as CX3CR1, CSF1R, IRF8, OLR1, and TMEM119 was decreased in SCZ (ES: -0.417 95% CI: -0.417 to -0.546, p < .0001), consistent with genome-wide transcriptome meta-analysis results. These results indicate a change in microglial phenotype rather than density, which was validated with the use of TMEM119/Iba1 immunostainings on temporal cortex of a separate cohort. Changes in microglial gene expression were overlapping between SCZ and other psychiatric disorders, but largely opposite from changes reported in Alzheimer's disease. This distinct microglial phenotype provides a crucial molecular hallmark for future research into the role of microglia in SCZ and other psychiatric disorders.
Keyphrases
- inflammatory response
- lipopolysaccharide induced
- neuropathic pain
- lps induced
- systematic review
- gene expression
- genome wide
- spinal cord
- dna methylation
- case control
- poor prognosis
- spinal cord injury
- bipolar disorder
- meta analyses
- randomized controlled trial
- multiple sclerosis
- cell therapy
- signaling pathway
- copy number
- induced apoptosis
- immune response
- single molecule
- cerebral ischemia