Tinnitus is associated with increased extracellular matrix density in the auditory cortex of Mongolian gerbils.

IF 2.4 4区医学 Q3 NEUROSCIENCES

BMC Neuroscience Pub Date : 2024-10-17 DOI:10.1186/s12868-024-00904-w

Konstantin Tziridis, Antonia Maul, Jwan Rasheed, Patrick Krauss, Achim Schilling, Holger Schulze

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Abstract

Most scientists agree that subjective tinnitus is the pathological result of an interaction of damage to the peripheral auditory system and central neuroplastic adaptations. Here we investigate such tinnitus related adaptations in the primary auditory cortex (AC) 7 and 13 days after noise trauma induction of tinnitus by quantifying the density of the extracellular matrix (ECM) in the AC of Mongolian gerbils (Meriones unguiculatus). The ECM density has been shown to be relevant for neuroplastic processes and synaptic stability within the cortex. We utilized a mild monaural acoustic noise trauma in overall 22 gerbils to induce tinnitus and a sham exposure in 16 control (C) animals. Tinnitus was assessed by a behavioral response paradigm. Animals were separated for a presence (T) or absence (NT) of a tinnitus percept by a behavioral task. The ECM density 7 and 13 days after trauma was quantified using immunofluorescence luminance of Wisteria floribunda lectin-fluoresceine-5-isothiocyanate (WFA-FITC) on histological slices of the primary AC, relative to the non-auditory brainstem as a reference area. At both timepoints, we found that the WFA-FITC luminance of the AC of NT animals was not significantly different from that of C animals. However, we found a significant increase of luminance in T animals' ACs compared to NT or C animals' cortices. This effect was found exclusively on the AC side contralateral to the trauma ear. These results point to a hemisphere specific process of stabilization of synaptic connections in primary AC, which may be involved in the chronic manifestation of tinnitus.

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耳鸣与蒙古沙鼠听觉皮层细胞外基质密度增加有关。

大多数科学家都认为，主观性耳鸣是外周听觉系统损伤与中枢神经可塑性适应相互作用的病理结果。在此，我们通过量化蒙古沙鼠（Meriones unguiculatus）初级听觉皮层（AC）细胞外基质（ECM）的密度，研究噪声创伤诱发耳鸣 7 天和 13 天后初级听觉皮层（AC）中与耳鸣相关的适应性。ECM 密度已被证明与大脑皮层内的神经可塑性过程和突触稳定性有关。我们在 22 只沙鼠中使用了轻度单声道噪声创伤来诱发耳鸣，并在 16 只对照组（C）动物中使用了假暴露。耳鸣通过行为反应范式进行评估。通过行为任务将动物区分为耳鸣感知存在（T）或不存在（NT）。使用紫藤凝集素-荧光素-5-异硫氰酸酯（WFA-FITC）免疫荧光亮度对创伤后 7 天和 13 天的初级 AC 组织切片上的 ECM 密度进行量化，并将非听觉脑干作为参考区域。我们发现，在两个时间点上，NT 动物 AC 的 WFA-FITC 亮度与 C 动物没有显著差异。然而，我们发现与 NT 或 C 动物的大脑皮层相比，T 动物 AC 的亮度明显增加。这种效应只出现在创伤耳对侧 AC 上。这些结果表明，初级交感神经突触连接的稳定过程具有半球特异性，可能与耳鸣的慢性表现有关。

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

BMC Neuroscience 医学-神经科学

CiteScore

3.90

自引率

0.00%

发文量

审稿时长

16 months

期刊介绍： BMC Neuroscience is an open access, peer-reviewed journal that considers articles on all aspects of neuroscience, welcoming studies that provide insight into the molecular, cellular, developmental, genetic and genomic, systems, network, cognitive and behavioral aspects of nervous system function in both health and disease. Both experimental and theoretical studies are within scope, as are studies that describe methodological approaches to monitoring or manipulating nervous system function.