Abstract
bioRxiv [Preprint]. 2026 Mar 27:2024.04.29.591575. doi: 10.1101/2024.04.29.591575.
ABSTRACT
We developed a high content screening to investigate how Alzheimer disease (AD) genetic risk factors may affect synaptic mechanisms in rat primary neuronal cultures. Out of the target genes identified, we found that Plcg2 downregulation in mouse dentate gyrus neurons consistently disrupted dendritic morphology and synaptic function. In human neuronal cultures (hNCs), PLCG2 downregulation also impaired synaptic function and increased Aβ levels and Tau phosphorylation. Very rare PLCG2 loss-of-function (LoF) variants were associated with a 10-fold increased AD risk. PLCG2 LoF carriers exhibit low mRNA/protein PLCG2/PLCγ2 levels and the R953* LoF mutation compromised synaptic function and increased AD hallmarks in hNCs. Single nuclei RNAseq analyses confirmed that the downregulation of PLCG2 impacted pathways related to synaptic and neuronal functions, potentially through neurexin in neurons. In conclusion, PLCγ2 downregulation could increase AD risk by impairing synaptic functions and increasing the Aβ levels and Tau phosphorylation in neurons.
PMID:41928929 | PMC:PMC13042034 | DOI:10.1101/2024.04.29.591575
UK DRI Authors
