Abstract
Schizophrenia is a psychiatric disorder with a typical onset occurring during adolescence or young adulthood. The heterogeneity of the disorder complicates our understanding of the pathophysiology. Reduced cortical synaptic densities are commonly observed in schizophrenia and suggest a role for excessive synaptic elimination. A major pathway hypothesised to eliminate synapses during postnatal development is the complement system. This review provides an overview of genetic and functional evidence found for the individual players of the classical complement pathway. In addition, the consequences of the absence of complement proteins, in the form of complement protein deficiencies in humans, are taken into consideration. The collective data provide strong evidence for excessive pruning by the classical complement pathway, contributing to cognitive impairment in schizophrenia. In future studies, it will be important to assess the magnitude of the contribution of complement overactivity to the occurrence and prevalence of phenotypic features in schizophrenia. In addition, more insight is required for the exact mechanisms by which the complement system causes excessive pruning, such as the suggested involvement of microglial engulfment and degradation of synapses. Ultimately, this knowledge is a prerequisite for the development of therapeutic interventions for selective groups of schizophrenia patients.
Highlights
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Current evidence is convincing of a role for the complement system, through excessive pruning, in the observed cognitive deficits in Strong evidence points towards a role for the complement system in postnatal development during the process of synapse elimination
Current evidence is convincing of a role for the complement system, through excessive pruning, in the observed cognitive deficits in schizophrenia
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. It was found that during adolescence the cortical synaptic density reduced disproportionally [5,7] This reduction in synapses can result from impaired synaptogenesis or be the consequence of overactive synapse elimination by faulty pruning mechanisms. To clarify the association of schizophrenia to the MHC locus, Sekar et al focused on human C4 [15] Combining their evidence on the association of schizophrenia to C4, or C4A with previous evidence on C1q-mediated postnatal synaptic pruning [16], provided a strong indication for the involvement of the classical pathway of the complement system in schizophrenia. This review addresses the question whether hyperactivity of the classical pathway of the complement system contributes to the pathophysiology of schizophrenia through excessive synaptic pruning during postnatal development. We provide an overview of the evidence found for complement-mediated synaptic pruning during postnatal development and discuss the specificity of the classical pathway’s role in the pathophysiology of schizophrenia
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