NKCC1 in Neonatal Cochlear Support Cells Reloads Ions Necessary for Cochlear Spontaneous Activity.

IF 1.8 4区 医学 Q3 MEDICINE, RESEARCH & EXPERIMENTAL Experimental Neurobiology Pub Date : 2024-04-30 DOI:10.5607/en24003
Kwon-Woo Kang, Kushal Sharma, Shi-Hyun Park, Jae Kwang Lee, Justin C Lee, Eunyoung Yi
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Abstract

In the auditory system, the spontaneous activity of cochlear inner hair cells (IHCs) is initiated by the release of ATP from inner supporting cells (ISCs). This ATP release sets off a cascade, activating purinergic autoreceptors, opening of Ca2+-activated Cl- channel TMEM16A, Cl- efflux and osmotic cell shrinkage. Then, the shrunken ISCs efficiently regain their original volume, suggesting the existence of mechanisms for refilling Cland K+, priming them for subsequent activity. This study explores the potential involvement of NKCCs (Na+-K+-Cl- cotransporters) and KCCs (K+-Cl- cotransporters) in ISC spontaneous activity, considering their capability to transport both Cl- and K+ ions across the cell membrane. Employing a combination of immunohistochemistry, pharmacological interventions, and shRNA experiment, we unveiled the pivotal role of NKCC1 in cochlear spontaneous activity. Immunohistochemistry revealed robust NKCC1 expression in ISCs, persisting until the 2nd postnatal week. Intriguingly, we observed a developmental shift in NKCC1 expression from ISCs to synaptophysin-positive efferent terminals at postnatal day 18, hinting at its potential involvement in modulating synaptic transmission during the post-hearing period. Experiments using bumetanide, a well-known NKCC inhibitor, supported the functional significance of NKCC1 in ISC spontaneous activity. Bumetanide significantly reduced the frequency of spontaneous extracellular potentials (sEP) and spontaneous optical changes (sOCs) in ISCs. NKCC1-shRNA experiments conducted in cultured cochlear tissues further supported these findings, demonstrating a substantial decrease in event frequency and area. Taken together, we revealed the role of NKCC1 in shaping the ISC spontaneous activity that govern auditory pathway development.

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新生儿耳蜗支持细胞中的 NKCC1 重载耳蜗自发活动所需的离子
在听觉系统中,耳蜗内毛细胞(IHC)的自发活动是由内支持细胞(ISC)释放的 ATP 启动的。ATP 的释放会引发一系列连锁反应,包括激活嘌呤能自受体、打开 Ca2+ 激活的 Cl- 通道 TMEM16A、Cl- 外流和渗透性细胞收缩。然后,萎缩的 ISC 会有效地恢复其原有体积,这表明存在重新填充 Cland K+ 的机制,从而为其后续活动做好准备。考虑到NKCCs(Na+-K+-Cl-共转运体)和KCCs(K+-Cl-共转运体)具有跨细胞膜转运Cl-和K+离子的能力,本研究探讨了它们参与ISC自发活动的可能性。通过免疫组化、药物干预和 shRNA 实验,我们揭示了 NKCC1 在耳蜗自发活动中的关键作用。免疫组化显示,NKCC1在ISC中的表达很强,一直持续到出生后第2周。耐人寻味的是,我们观察到 NKCC1 的表达在发育过程中发生了转变,即在出生后第 18 天从 ISC 转移到突触素阳性的传出末梢,这表明它可能参与了听觉后时期突触传递的调节。使用著名的 NKCC 抑制剂布美他尼进行的实验证实了 NKCC1 在 ISC 自发活动中的重要功能。布美他尼显著降低了 ISC 的自发胞外电位(sEP)和自发光学变化(sOC)的频率。在培养的耳蜗组织中进行的 NKCC1-shRNA 实验进一步证实了这些发现,证明了事件频率和面积的大幅减少。综上所述,我们揭示了 NKCC1 在影响听觉通路发育的 ISC 自发活动中的作用。
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来源期刊
Experimental Neurobiology
Experimental Neurobiology Neuroscience-Cellular and Molecular Neuroscience
CiteScore
4.30
自引率
4.20%
发文量
29
期刊介绍: Experimental Neurobiology is an international forum for interdisciplinary investigations of the nervous system. The journal aims to publish papers that present novel observations in all fields of neuroscience, encompassing cellular & molecular neuroscience, development/differentiation/plasticity, neurobiology of disease, systems/cognitive/behavioral neuroscience, drug development & industrial application, brain-machine interface, methodologies/tools, and clinical neuroscience. It should be of interest to a broad scientific audience working on the biochemical, molecular biological, cell biological, pharmacological, physiological, psychophysical, clinical, anatomical, cognitive, and biotechnological aspects of neuroscience. The journal publishes both original research articles and review articles. Experimental Neurobiology is an open access, peer-reviewed online journal. The journal is published jointly by The Korean Society for Brain and Neural Sciences & The Korean Society for Neurodegenerative Disease.
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