A zebrafish gephyrinb mutant distinguishes synaptic and enzymatic functions of Gephyrin

IF 4 3区 生物学 Q1 DEVELOPMENTAL BIOLOGY
Emma J. Brennan, Kelly R. Monk, Jiaxing Li
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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. gephyrinbvo84 mutants exhibit normal gross morphology at both larval and adult stages. In contrast to Gphn-null mice, gephyrinbvo84 mutants exhibit normal motor activity and MoCo-dependent enzyme activity. Instead, gephyrinbvo84 mutants display impaired rheotaxis and increased mortality in late development. To investigate what may mediate these defects in gephyrinbvo84 mutants, we examined the cell density of neurons and myelin in the spinal cord and found no obvious changes. Surprisingly, in gephyrinbvo84 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.
斑马鱼 gephyrinb 突变体可区分 Gephyrin 的突触功能和酶功能
Gephyrin 被认为在中枢神经系统(CNS)内甘氨酸受体在突触处的聚集中发挥着关键作用。这方面的主要体内证据来自 Gephyrin(Gphn)缺失小鼠,在这种小鼠中,突触区域的甘氨酸受体被耗尽。然而,这些小鼠可能由于钼辅助因子(MoCo)合成障碍而在出生时死亡,而钼辅助因子是 Gephyrin 在整个动物体内发挥的重要作用。这使得对 Gphn 缺失小鼠突触表型的解释变得复杂,并提出了一个问题:是否可以分别研究 Gephyrin 的突触功能和酶功能?在这里,我们产生了一种 gephyrinb 斑马鱼突变体 vo84,它的脊髓几乎完全缺乏 Gephyrin 染色。与 Gphn 缺失小鼠相反,geephyrinbvo84 突变体表现出正常的运动活性和 MoCo 依赖性酶活性。相反,gephyrinbvo84突变体在发育后期表现出流变性受损和死亡率增加。为了研究可能是什么介导了 gephyrinbvo84 突变体的这些缺陷,我们检查了脊髓中神经元和髓鞘的细胞密度,结果没有发现明显的变化。令人惊讶的是,在 gephyrinbvo84 突变体中,突触区仍然存在甘氨酸受体。然而,它们的丰度降低了,这可能是导致观察到的缺陷的原因。这些发现挑战了 Gephyrin 绝对需要在突触处聚集甘氨酸受体的观点,并揭示了 Gephyrin 在调节甘氨酸受体丰度和流变性方面的新作用。这些发现还为研究 Gephyrin 的突触功能而非酶功能的机制建立了一个强大的新模型。
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来源期刊
Neural Development
Neural Development 生物-发育生物学
CiteScore
6.60
自引率
0.00%
发文量
11
审稿时长
>12 weeks
期刊介绍: Neural Development is a peer-reviewed open access, online journal, which features studies that use molecular, cellular, physiological or behavioral methods to provide novel insights into the mechanisms that underlie the formation of the nervous system. Neural Development aims to discover how the nervous system arises and acquires the abilities to sense the world and control adaptive motor output. The field includes analysis of how progenitor cells form a nervous system during embryogenesis, and how the initially formed neural circuits are shaped by experience during early postnatal life. Some studies use well-established, genetically accessible model systems, but valuable insights are also obtained from less traditional models that provide behavioral or evolutionary insights.
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