小鼠和人类的血管纹是年龄相关性耳蜗变性、巨噬细胞功能障碍和炎症的早期部位

H. Lang, Kenyaria V. Noble, J. Barth, J. Rumschlag, Tyreek R. Jenkins, Shelby Storm, M. Eckert, J. Dubno, B. A. Schulte
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引用次数: 4

摘要

与年龄相关的听力损失,或称老年性耳聋,是一种常见的退行性疾病,影响数百万老年人的沟通和生活质量。多种病理生理表现,以及许多细胞和分子的改变,都与老年性耳聋有关;然而,最初的事件和原因尚未明确确定。在“正常”年龄相关性听力损失的小鼠模型(男女)中,侧壁(LW)与其他耳蜗区域的转录组比较显示,血管纹(SV)的早期病理生理改变与巨噬细胞激活增加和炎症的分子特征相关,炎症是一种常见的免疫功能障碍形式。对小鼠的结构-功能相关性分析表明,血管纹中巨噬细胞激活的年龄依赖性增加与听觉敏感性下降有关。中老年小鼠和人耳蜗中巨噬细胞激活的高分辨率成像分析,以及小鼠耳蜗巨噬细胞基因表达年龄依赖性变化的转录组学分析,支持巨噬细胞异常活性是年龄依赖性审体功能障碍、耳蜗病理和听力损失的重要因素的假设。因此,本研究强调SV是年龄相关性耳蜗变性的主要部位,巨噬细胞活性异常和免疫系统失调是年龄相关性耳蜗病理和听力损失的早期指标。重要的是,本文描述的新型成像方法现在提供了一种分析人类颞骨的方法,这种方法以前是不可行的,因此代表了耳病理学评估的重要新工具。意义声明:年龄相关性听力损失是一种常见的影响沟通和生活质量的神经退行性疾病。目前的干预措施(主要是助听器和人工耳蜗)提供的治疗效果并不完美,而且往往不成功。确定早期病理和病因对于开发新的治疗方法和早期诊断测试至关重要。在这里,我们发现耳蜗的非感觉成分SV是小鼠和人类结构和功能病理的早期部位,其特征是异常的免疫细胞活性。我们还建立了一种评估人类颞骨耳蜗的新技术,这是一个重要但研究不足的研究领域,因为缺乏保存完好的人类标本和困难的组织制备和处理方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Stria Vascularis in Mice and Humans Is an Early Site of Age-Related Cochlear Degeneration, Macrophage Dysfunction, and Inflammation
Age-related hearing loss, or presbyacusis, is a common degenerative disorder affecting communication and quality of life for millions of older adults. Multiple pathophysiologic manifestations, along with many cellular and molecular alterations, have been linked to presbyacusis; however, the initial events and causal factors have not been clearly established. Comparisons of the transcriptome in the lateral wall (LW) with other cochlear regions in a mouse model (of both sexes) of “normal” age-related hearing loss revealed that early pathophysiological alterations in the stria vascularis (SV) are associated with increased macrophage activation and a molecular signature indicative of inflammaging, a common form of immune dysfunction. Structure-function correlation analyses in mice across the lifespan showed that the age-dependent increase in macrophage activation in the stria vascularis is associated with a decline in auditory sensitivity. High-resolution imaging analysis of macrophage activation in middle-aged and aged mouse and human cochleas, along with transcriptomic analysis of age-dependent changes in mouse cochlear macrophage gene expression, support the hypothesis that aberrant macrophage activity is an important contributor to age-dependent strial dysfunction, cochlear pathology, and hearing loss. Thus, this study highlights the SV as a primary site of age-related cochlear degeneration and aberrant macrophage activity and dysregulation of the immune system as early indicators of age-related cochlear pathology and hearing loss. Importantly, novel new imaging methods described here now provide a means to analyze human temporal bones in a way that had not previously been feasible and thereby represent a significant new tool for otopathological evaluation. SIGNIFICANCE STATEMENT Age-related hearing loss is a common neurodegenerative disorder affecting communication and quality of life. Current interventions (primarily hearing aids and cochlear implants) offer imperfect and often unsuccessful therapeutic outcomes. Identification of early pathology and causal factors is crucial for the development of new treatments and early diagnostic tests. Here, we find that the SV, a nonsensory component of the cochlea, is an early site of structural and functional pathology in mice and humans that is characterized by aberrant immune cell activity. We also establish a new technique for evaluating cochleas from human temporal bones, an important but understudied area of research because of a lack of well-preserved human specimens and difficult tissue preparation and processing approaches.
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