Phospholipid scramblase Xkr8 is required for developmental axon pruning via phosphatidylserine exposure

EMBO J. 2023 Jul 17;42(14):e111790. doi: 10.15252/embj.2022111790. Epub 2023 May 22.

Abstract

The mature mammalian brain connectome emerges during development via the extension and pruning of neuronal connections. Glial cells have been identified as key players in the phagocytic elimination of neuronal synapses and projections. Recently, phosphatidylserine has been identified as neuronal "eat-me" signal that guides elimination of unnecessary input sources, but the associated transduction systems involved in such pruning are yet to be described. Here, we identified Xk-related protein 8 (Xkr8), a phospholipid scramblase, as a key factor for the pruning of axons in the developing mammalian brain. We found that mouse Xkr8 is highly expressed immediately after birth and required for phosphatidylserine exposure in the hippocampus. Mice lacking Xkr8 showed excess excitatory nerve terminals, increased density of cortico-cortical and cortico-spinal projections, aberrant electrophysiological profiles of hippocampal neurons, and global brain hyperconnectivity. These data identify phospholipid scrambling by Xkr8 as a central process in the labeling and discrimination of developing neuronal projections for pruning in the mammalian brain.

Keywords: callosal projections; circuit maturation; phosphatidylserine; phospholipid scrambling; synaptic pruning.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Animals
  • Apoptosis
  • Apoptosis Regulatory Proteins* / metabolism
  • Axons / metabolism
  • Mammals
  • Membrane Proteins / metabolism
  • Mice
  • Neuronal Plasticity
  • Phosphatidylserines / metabolism
  • Phospholipid Transfer Proteins* / genetics

Substances

  • Phospholipid Transfer Proteins
  • Apoptosis Regulatory Proteins
  • Phosphatidylserines
  • Xkr8 protein, mouse
  • Membrane Proteins