Long-term training alters response dynamics in the aging auditory cortex

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-01-28 DOI:10.1016/j.heares.2024.108965

Jonah K. Mittelstadt , Kelson V. Shilling-Scrivo , Patrick O. Kanold

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Abstract

Age-related auditory dysfunction, presbycusis, is caused in part by functional changes in the auditory cortex (ACtx) such as altered response dynamics and increased population correlations. Given the ability of cortical function to be altered by training, we tested if performing auditory tasks might benefit auditory function in old age. We examined this by training adult mice on a low-effort tone-detection task for at least six months and then investigated functional responses in ACtx at an older age (∼18 months). Task performance remained stable well into old age. Comparing sound-evoked responses of thousands of ACtx neurons using in vivo 2-photon Ca²⁺ imaging, we found that many aspects of youthful neuronal activity, including low activity correlations, lower neural excitability, and a greater proportion of suppressed responses, were preserved in trained old animals as compared to passively-exposed old animals. Thus, consistent training on a low-effort task can benefit age-related functional changes in ACtx and may preserve many aspects of auditory function.

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长期训练改变老化听觉皮层的反应动态

与年龄相关的听觉功能障碍（老花眼）部分是由听觉皮层（ACtx）的功能变化引起的，如反应动力学改变和群体相关性增加。鉴于大脑皮层功能可通过训练发生改变，我们测试了执行听觉任务是否会对老年期的听觉功能有益。我们对成年小鼠进行了至少 6 个月的低强度音调检测任务训练，然后在小鼠较大年龄（18 个月∼）时对 ACtx 的功能反应进行了研究。任务表现在老年期仍保持稳定。通过使用体内双光子 Ca2+ 成像比较数千个 ACtx 神经元的声诱发反应，我们发现与被动暴露的老年动物相比，训练后的老年动物保留了年轻时神经元活动的许多方面，包括低活动相关性、较低的神经兴奋性和更大比例的抑制反应。因此，在低强度任务中进行持续训练可有益于与年龄相关的 ACtx 功能变化，并可保留听觉功能的许多方面。

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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