Multicausal disruption of complement system activity in schizophrenia: abnormal transcription of C4, complement control proteins and microglia specific genes in brain and blood
R. Rey, A. Fiorito, E. C. Ibrahim, E. Fakra, G. Sescousse, R. Tamouza, M. Leboyer

TL;DR
The study finds that the complement system and microglia genes are abnormally expressed in the brains of people with schizophrenia, which may affect synaptic pruning and contribute to the disorder.
Contribution
This study provides new evidence of altered complement system and microglia gene expression in multiple brain regions of individuals with schizophrenia.
Findings
C4 overexpression is observed in several brain regions of individuals with schizophrenia.
Microglia-specific genes are underexpressed in brain tissues of individuals with schizophrenia.
Altered gene expression patterns in blood suggest a potential peripheral signature of schizophrenia.
Abstract
The synaptic pruning process is based on the joint action of the complement system and microglia. In schizophrenia, accumulating evidence support that abnormal synaptic pruning during adolescence may be due to an altered Complement system activity. While this hypothesis is supported by C4 overexpression in various brain regions of individuals with schizophrenia, such alterations should be replicated and extended to other brain regions. Moreover, transcriptional studies of genes encoding regulators of the complement system activity (complement control proteins, CCP) and microglia-specific genes are lacking. Furthermore, it remains unknown whether brain and peripheral expression of such genes are related. To explore expression of C4 as well as 4 CCP encoding genes and 10 microglia-specific genes at the brain and peripheral levels in individuals with schizophrenia as compared to healthy…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsComplement system in diseases · Adenosine and Purinergic Signaling · Neuroinflammation and Neurodegeneration Mechanisms
