Local delivery of soluble fractalkine (CX3CL1) peptide restores ribbon synapses after noise-induced cochlear synaptopathy.

IF 4.2 3区医学 Q2 NEUROSCIENCES

Frontiers in Cellular Neuroscience Pub Date : 2024-10-30 eCollection Date: 2024-01-01 DOI:10.3389/fncel.2024.1486740

Vijayprakash Manickam, Sibaprasad Maity, Sree Varshini Murali, Dinesh Y Gawande, Andrew R Stothert, Lyudamila Batalkina, Astrid E Cardona, Tejbeer Kaur

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Abstract

Cochlear ribbon synapses between sensory inner hair cells (IHCs) and spiral ganglion neurons (SGNs) are vulnerable to rapid and primary damage and/or loss due to noise overexposure. Such damaged ribbon synapses can repair spontaneously in mouse and guinea pig. However, the mechanisms for synaptic repair are unclear. Previously, we have demonstrated a critical role for the fractalkine signaling axis (CX₃CL1-CX₃CR1) in synaptic repair, wherein noise-damaged ribbon synapses are spontaneously repaired in the presence of fractalkine receptor (CX₃CR1) expressed by cochlear macrophages. Here, we examined whether local administration of chemokine fractalkine ligand (CX₃CL1 or FKN) in the form of a peptide is effective in restoring synapses and hearing loss after noise-induced cochlear synaptopathy (NICS). Specifically, the efficacy of different isoforms of FKN was evaluated for restoration of loss of IHC ribbon synapses and hearing after NICS. A single transtympanic injection of soluble isoform of FKN (sFKN) peptide at 1 day after synaptopathic noise trauma for 2 hours at 93 decibel sound pressure level led to significant recovery of auditory brainstem response (ABR) thresholds, ABR peak I amplitudes and ribbon synapses in FKN knockout mice when compared to mice injected with membrane-bound FKN peptide (mFKN). Likewise, local treatment with sFKN peptide in FKN wild type mice restored synaptopathic noise-damaged ribbon synapses and ABR peak I amplitudes. Mechanistically, FKN regulates macrophage numbers in the damaged cochlea and in the absence of macrophages, sFKN failed to restore loss of synapses and hearing after NICS. Furthermore, sFKN treatment attenuated cochlear inflammation after NICS without altering the expression of CX₃CR1. Finally, injected sFKN peptide was detectable inside the cochlea for 24 h localized to the basilar membrane and spiral lamina near the sensory epithelium. These data provide a proof-of-principle that local delivery of an immune factor, sFKN is effective in restoring ribbon synapses and hearing loss after NICS in a macrophage-dependent manner and highlights the potential of sFKN as an immunotherapy for cochlear synaptopathy due to noise.

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局部输送可溶性分叉碱（CX3CL1）肽可在噪声诱发耳蜗突触病后恢复带状突触。

由于过度暴露于噪声环境中，感觉内毛细胞（IHC）和螺旋神经节神经元（SGN）之间的耳蜗带状突触很容易受到快速的原发性损伤和/或丢失。在小鼠和豚鼠体内，这种受损的带状突触可以自发修复。然而，突触修复的机制尚不清楚。在此之前，我们已经证明了分叉碱信号轴（CX3CL1-CX3CR1）在突触修复中的关键作用，即在耳蜗巨噬细胞表达分叉碱受体（CX3CR1）的情况下，噪声损伤的带状突触可自发修复。在此，我们研究了以多肽形式局部施用趋化因子分叉碱配体（CX3CL1 或 FKN）是否能有效恢复突触和噪声诱导的耳蜗突触病（NICS）后的听力损失。具体来说，我们评估了不同异构体的 FKN 对恢复 NICS 后 IHC 带突触和听力损失的功效。与注射膜结合型 FKN 肽（mFKN）的小鼠相比，在 93 分贝声压级的突触病性噪声创伤 2 小时后的 1 天，经鼓膜注射一次可溶性 FKN 异构体肽（sFKN）可显著恢复 FKN 基因敲除小鼠的听性脑干反应（ABR）阈值、ABR 峰值 I 振幅和带状突触。同样，用 sFKN 肽对 FKN 野生型小鼠进行局部处理，可恢复突触病理噪声损伤的带状突触和 ABR 峰 I 波幅。从机理上讲，FKN能调节受损耳蜗中巨噬细胞的数量，在巨噬细胞缺失的情况下，sFKN不能恢复NICS后的突触损失和听力。此外，sFKN 处理可减轻 NICS 后的耳蜗炎症，但不会改变 CX3CR1 的表达。最后，注射的sFKN肽可在耳蜗内检测到24小时，定位在基底膜和感觉上皮附近的螺旋层。这些数据提供了一个原则性证明，即局部注射免疫因子 sFKN 能以巨噬细胞依赖的方式有效恢复带状突触和非损伤性听力障碍后的听力损失，并突出了 sFKN 作为一种免疫疗法治疗噪声引起的耳蜗突触病的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Frontiers in Cellular Neuroscience NEUROSCIENCES-

CiteScore

7.90

自引率

3.80%

发文量

627

审稿时长

6-12 weeks

期刊介绍： Frontiers in Cellular Neuroscience is a leading journal in its field, publishing rigorously peer-reviewed research that advances our understanding of the cellular mechanisms underlying cell function in the nervous system across all species. Specialty Chief Editors Egidio D‘Angelo at the University of Pavia and Christian Hansel at the University of Chicago are supported by an outstanding Editorial Board of international researchers. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide.