School of Life Sciences, Tsinghua University, Beijing, China 100084.
IDG (International Data Group)/McGovern Institute for Brain Research at Tsinghua University, Beijing, China 100084.
Proc Natl Acad Sci U S A. 2021 Oct 5;118(40). doi: 10.1073/pnas.2107933118.
Dysregulation of ion and potential homeostasis in the scala media is the most prevalent cause of hearing loss in mammals. However, it is not well understood how the development and function of the stria vascularis regulates this fluid homeostasis in the scala media. From a mouse genetic screen, we characterize a mouse line, named , that displays profound hearing impairment. Histology suggests that mutant mice carry a severe, congenital structural defect of the stria vascularis. The in vivo recording of mice using double-barreled electrodes shows that endocochlear potential is abolished and potassium concentration is reduced to ∼20 mM in the scala media, a stark contrast to the +80 mV endocochlear potential and the 150 mM potassium concentration present in healthy control mice. Genomic analysis revealed a roughly 7-kb-long, interspersed nuclear element (LINE-1 or L1) retrotransposon insertion on chromosome 11. Strikingly, the deletion of this L1 retrotransposon insertion from chromosome 11 restored the hearing of mutant mice. In summary, we characterize a mouse model that enables the study of stria vascularis development and fluid homeostasis in the scala media.
离子和电位动态平衡失调是哺乳动物听力损失的最常见原因。然而,人们对于血管纹如何调节中阶液的这种流体动态平衡还不太了解。通过对小鼠的基因筛选,我们鉴定出一个名为的小鼠品系,该品系表现出严重的听力损伤。组织学研究表明,突变小鼠的血管纹存在严重的先天性结构缺陷。使用双管电极对小鼠进行体内记录显示,内淋巴电位完全消失,中阶液中的钾浓度降低至约 20mM,与健康对照小鼠中存在的+80mV 内淋巴电位和 150mM 钾浓度形成鲜明对比。基因组分析显示,11 号染色体上存在一个大约 7kb 长的散在核元件(LINE-1 或 L1)反转录转座子插入。引人注目的是,从 11 号染色体上删除这个 L1 反转录转座子插入可恢复突变小鼠的听力。总之,我们构建了一个小鼠模型,该模型能够研究血管纹的发育和中阶液的流体动态平衡。