Neural Development (Jul 2024)

A zebrafish gephyrinb mutant distinguishes synaptic and enzymatic functions of Gephyrin

  • Emma J. Brennan,
  • Kelly R. Monk,
  • Jiaxing Li

DOI
https://doi.org/10.1186/s13064-024-00191-5
Journal volume & issue
Vol. 19, no. 1
pp. 1 – 13

Abstract

Read online

Abstract Gephyrin is thought to play a critical role in clustering glycine receptors at synapses within the central nervous system (CNS). The main in vivo evidence for this comes from Gephyrin (Gphn)-null mice, where glycine receptors are depleted from synaptic regions. However, these mice die at birth, possibly due to impaired molybdenum cofactor (MoCo) synthesis, an essential role Gephyrin assumes throughout an animal. This complicates the interpretation of synaptic phenotypes in Gphn-null mice and raises the question whether the synaptic and enzymatic functions of Gephyrin can be investigated separately. Here, we generated a gephyrinb zebrafish mutant, vo84, that almost entirely lacks Gephyrin staining in the spinal cord. gephyrinb vo84 mutants exhibit normal gross morphology at both larval and adult stages. In contrast to Gphn-null mice, gephyrinb vo84 mutants exhibit normal motor activity and MoCo-dependent enzyme activity. Instead, gephyrinb vo84 mutants display impaired rheotaxis and increased mortality in late development. To investigate what may mediate these defects in gephyrinb vo84 mutants, we examined the cell density of neurons and myelin in the spinal cord and found no obvious changes. Surprisingly, in gephyrinb vo84 mutants, glycine receptors are still present in the synaptic regions. However, their abundance is reduced, potentially contributing to the observed defects. These findings challenge the notion that Gephyrin is absolutely required to cluster glycine receptors at synapses and reveals a new role of Gephyrin in regulating glycine receptor abundance and rheotaxis. They also establish a powerful new model for studying the mechanisms underlying synaptic, rather than enzymatic, functions of Gephyrin.

Keywords