The upregulation of K+ and HCN channels in developing spiral ganglion neurons is mediated by cochlear inner hair cells

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL ACS Applied Energy Materials Pub Date : 2024-09-26 DOI:10.1113/JP286134
Linus J. Conrad, Fiorella C. Grandi, Adam J. Carlton, Jing-Yi Jeng, Lara de Tomasi, Patryk Zarecki, Walter Marcotti, Stuart L. Johnson, Mirna Mustapha
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Abstract

Spiral ganglion neurons (SGNs) are primary sensory afferent neurons that relay acoustic information from the cochlear inner hair cells (IHCs) to the brainstem. The response properties of different SGNs diverge to represent a wide range of sound intensities in an action-potential code. This biophysical heterogeneity is established during pre-hearing stages of development, a time when IHCs fire spontaneous Ca2+ action potentials that drive glutamate release from their ribbon synapses onto the SGN terminals. The role of spontaneous IHC activity in the refinement of SGN characteristics is still largely unknown. Using pre-hearing otoferlin knockout mice (Otof−/−), in which Ca2+-dependent exocytosis in IHCs is abolished, we found that developing SGNs fail to upregulate low-voltage-activated K+-channels and hyperpolarisation-activated cyclic-nucleotide-gated channels. This delayed maturation resulted in hyperexcitable SGNs with immature firing characteristics. We have also shown that SGNs that synapse with the pillar side of the IHCs selectively express a resurgent K+ current, highlighting a novel biophysical marker for these neurons. RNA-sequencing showed that several K+ channels are downregulated in Otof−/− mice, further supporting the electrophysiological recordings. Our data demonstrate that spontaneous Ca2+-dependent activity in pre-hearing IHCs regulates some of the key biophysical and molecular features of the developing SGNs.

Key points

  • Ca2+-dependent exocytosis in inner hair cells (IHCs) is otoferlin-dependent as early as postnatal day 1.
  • A lack of otoferlin in IHCs affects potassium channel expression in SGNs.
  • The absence of otoferlin is associated with SGN hyperexcitability.
  • We propose that type I spiral ganglion neuron functional maturation depends on IHC exocytosis.

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发育中的螺旋神经节神经元中 K+ 和 HCN 通道的上调是由耳蜗内毛细胞介导的。
螺旋神经节神经元(SGN)是初级感觉传入神经元,负责将耳蜗内毛细胞(IHC)的声音信息传递到脑干。不同 SGNs 的响应特性各不相同,可以用动作电位代码来表示各种声音强度。这种生物物理异质性是在听觉发育的前阶段建立起来的,此时内毛细胞会自发发射 Ca2+ 动作电位,驱动谷氨酸从其带状突触释放到 SGN 终端。IHC 的自发活动在完善 SGN 特征中的作用在很大程度上仍不为人所知。我们利用听前奥托费林基因敲除小鼠(Otof-/-)发现,发育中的SGN不能上调低电压激活的K+通道和超极化激活的环核苷酸门控通道。这种延迟成熟导致了具有不成熟发射特性的高兴奋性 SGN。我们还发现,与 IHC 的支柱侧发生突触的 SGN 选择性地表达一种复活的 K+ 电流,为这些神经元提供了一种新的生物物理标记。RNA 序列分析表明,在 Otof-/- 小鼠体内有几种 K+ 通道被下调,这进一步支持了电生理记录。我们的数据证明,听前 IHC 中依赖 Ca2+ 的自发活动调节着发育中 SGN 的一些关键生物物理和分子特征。关键点早在出生后第 1 天,内毛细胞(IHC)的 Ca2+ 依赖性外渗就依赖于奥托费林。IHC 中缺乏奥托费林会影响 SGN 中钾通道的表达。奥托费林的缺失与 SGN 的过度兴奋有关。我们认为,I型螺旋神经节神经元的功能成熟取决于IHC的外泌。
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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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