Brain-specific Drp1 regulates postsynaptic endocytosis and dendrite formation independently of mitochondrial division

Abstract

Dynamin-related protein 1 (Drp1) divides mitochondria as a mechano-chemical GTPase. However, the function of Drp1 beyond mitochondrial division is largely unknown. Multiple Drp1 isoforms are produced through mRNA splicing. One such isoform, Drp1_ABCD, contains all four alternative exons and is specifically expressed in the brain. Here, we studied the function of Drp1_ABCD in mouse neurons in both culture and animal systems using isoform-specific knockdown by shRNA and isoform-specific knockout by CRISPR/Cas9. We found that the expression of Drp1_ABCD is induced during postnatal brain development. Drp1_ABCD is enriched in dendritic spines and regulates postsynaptic clathrin-mediated endocytosis by positioning the endocytic zone at the postsynaptic density, independently of mitochondrial division. Drp1_ABCD loss promotes the formation of ectopic dendrites in neurons and enhanced sensorimotor gating behavior in mice. These data reveal that Drp1_ABCD controls postsynaptic endocytosis, neuronal morphology and brain function.

Keywords: Drp1; brain; cell biology; endocytosis; mitochondria; mouse.