Abnormality in GABAergic postsynaptic transmission associated with anxiety in Bronx waltzer mice with an Srrm4 mutation

IF 2 Q3 NEUROSCIENCES

IBRO Neuroscience Reports Pub Date : 2023-12-25 DOI:10.1016/j.ibneur.2023.12.005

Yuka Shirakawa , Heng Li , Yuki Inoue , Hitomi Izumi , Yoshimi Kaga , Yu-ichi Goto , Ken Inoue , Masumi Inagaki

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Abstract

The homozygous Bronx waltzer (bv) mouse, which shows hearing impairment, also exhibits anxiety accompanied by a reduction in cortical parvalbumin (PV)-positive GABAergic interneurons. Recently, a mutation in splicing factor Ser/Arg repetitive matrix 4 (Srrm4) was found in bv mice. However, the cellular consequences of the Srrm4 mutation for anxiety remain unknown. Here, we tested our hypothesis that bv mutant primarily affects interneurons through a cell-intrinsic pathology that leads to a reduction of interneurons and consequently causes anxiety. We found that the anxiety becomes apparent at 6 weeks of age in bv/bv mice. However, in situ hybridization revealed that Srrm4 is not expressed in interneurons, but rather dominates in pyramidal neurons. In addition, the PV-positive GABAergic interneurons were not reduced in number in the bv/bv cortex when anxiety became evident. However, electrophysiological abnormality of GABAergic transmission from interneurons was concomitantly present. Pharmacological blockage of GABA_A receptors revealed increased excitability in bv/bv mice, although no gross change occurred in the expression of an Srrm4-downstream gene, Kcc2, which regulates chloride flux upon GABAergic transmission. These findings suggest that the bv-associated Srrm4 mutation mainly involves post-synaptic GABAergic transmission in the central nervous system, which may be associated with the anxiety phenotype in bv/bv mice.

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Srrm4突变的布朗克斯华尔兹小鼠GABA能突触后传递异常与焦虑有关

听力受损的同卵布朗克斯华尔兹（bv）小鼠也会表现出焦虑，并伴有皮层副阀素（PV）阳性 GABA 能中间神经元的减少。最近，在 bv 小鼠中发现了剪接因子 Ser/Arg 重复基质 4（Srrm4）的突变。然而，Srrm4 突变对焦虑症的细胞后果仍然未知。在这里，我们验证了我们的假设，即 bv 突变主要通过细胞内在病理变化影响中间神经元，导致中间神经元减少，从而引起焦虑。我们发现，bv/bv 小鼠在 6 周龄时焦虑症就会显现。然而，原位杂交显示，Srrm4 并不在中间神经元中表达，而是在锥体神经元中占主导地位。此外，当焦虑变得明显时，bv/bv 大脑皮层中 PV 阳性的 GABA 能中间神经元的数量并没有减少。然而，来自中间神经元的 GABA 能传导的电生理异常也同时存在。药理阻断 GABAA 受体后发现，bv/bv 小鼠的兴奋性增加，但 Srrm4 下游基因 Kcc2 的表达没有发生明显变化，而 Kcc2 在 GABA 能传导过程中调节氯离子通量。这些发现表明，bv相关的Srrm4突变主要涉及中枢神经系统突触后的GABA能传导，这可能与bv/bv小鼠的焦虑表型有关。

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