Rate-dependent cochlear outer hair cell force generation: Models and parameter estimation.

IF 3.2 3区生物学 Q2 BIOPHYSICS

Biophysical journal Pub Date : 2024-10-01 Epub Date: 2024-08-14 DOI:10.1016/j.bpj.2024.08.007

Wen Cai, Karl Grosh

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Abstract

The outer hair cells (OHCs) of the mammalian cochlea are the mediators of an active, nonlinear electromechanical process necessary for sensitive, frequency-specific hearing. The membrane protein prestin conveys to the OHC a piezoelectric-like behavior hypothesized to actuate a high frequency, cycle-by-cycle conversion of electrical to mechanical energy to boost cochlear responses to low-level sound. This hypothesis has been debated for decades, with two key remaining issues: the influence of the rate dependence of conformal changes in prestin and the OHC transmembrane impedance. In this paper, we mainly focus on the rate dependence of the conformal change in prestin. A theoretical electromechanical model of the OHC that explicitly includes rate dependence of conformal transitions, viscoelasticity, and piezoelectricity. Using this theory, we show the influence of rate dependence and viscoelasticity on electromechanical force generation and transmembrane impedance. Furthermore, we stress the importance of using the correct mechanical boundary conditions when estimating the transmembrane capacitance. Finally, a set of experiments is described to uniquely estimate the constitutive properties of the OHC from whole-cell measurements.

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依赖速率的耳蜗外毛细胞力生成：模型与参数估计

哺乳动物耳蜗的外毛细胞（OHC）是灵敏的特定频率听觉所必需的主动非线性机电过程的媒介。膜蛋白预蛋白（prestin）向外毛细胞传递一种类似压电的行为，据推测，这种行为能推动电能向机械能的高频率、逐周期转换，从而增强耳蜗对低频声音的反应。几十年来，人们一直在争论这一假说，其中仍存在两个关键问题：预塑蛋白保形变化的速率依赖性和 OHC 跨膜阻抗的影响。在本文中，我们主要关注预素保形变化的速率依赖性。OHC的机电理论模型明确包括保形变化的速率依赖性、粘弹性和压电性。利用这一理论，我们展示了速率依赖性和粘弹性对机电力产生和跨膜阻抗的影响。此外，我们还强调了在估算跨膜电容时使用正确的机械边界条件的重要性。最后，我们介绍了一组实验，通过全细胞测量来唯一估计 OHC 的构成特性。

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

Biophysical journal 生物-生物物理

CiteScore

6.10

自引率

5.90%

发文量

3090

审稿时长

2 months

期刊介绍： BJ publishes original articles, letters, and perspectives on important problems in modern biophysics. The papers should be written so as to be of interest to a broad community of biophysicists. BJ welcomes experimental studies that employ quantitative physical approaches for the study of biological systems, including or spanning scales from molecule to whole organism. Experimental studies of a purely descriptive or phenomenological nature, with no theoretical or mechanistic underpinning, are not appropriate for publication in BJ. Theoretical studies should offer new insights into the understanding ofexperimental results or suggest new experimentally testable hypotheses. Articles reporting significant methodological or technological advances, which have potential to open new areas of biophysical investigation, are also suitable for publication in BJ. Papers describing improvements in accuracy or speed of existing methods or extra detail within methods described previously are not suitable for BJ.