C4 induces pathological synaptic loss by impairing AMPAR trafficking.
Rhushikesh A PhadkeEzra KruzichLuke A FournierAlison BrackMingqi ShaInes PicardConnor JohnsonDimitri StroumbakisMaria SalgadoCharlotte YeungBerta Escude VelascoYen Yu LiuAlberto Cruz-MartínPublished in: bioRxiv : the preprint server for biology (2023)
During development, activation of the complement pathway, an extracellular proteolytic cascade, results in microglia-dependent synaptic elimination via complement receptor 3 (CR3). Here, we report that decreased connectivity caused by overexpression of C4 (C4-OE), a schizophrenia-associated gene, is CR3 independent. Instead, C4-OE triggers GluR1 degradation through an intracellular mechanism involving endosomal trafficking protein SNX27, resulting in pathological synaptic loss. Moreover, the connectivity deficits associated with C4-OE were rescued by increasing levels of SNX27, linking excessive complement activity to an intracellular endolysosomal recycling pathway affecting synapses.
Keyphrases
- prefrontal cortex
- resting state
- functional connectivity
- white matter
- reactive oxygen species
- bipolar disorder
- traumatic brain injury
- cell proliferation
- binding protein
- weight gain
- genome wide
- neuropathic pain
- copy number
- spinal cord injury
- protein protein
- multiple sclerosis
- spinal cord
- body mass index
- small molecule
- genome wide identification
- weight loss