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内耳耳蜗计算模型预测基因突变的作用

Role of Gene Mutations Predicted from a Computational Model of the Cochlea of the Inner Ear
课程网址: http://videolectures.net/licsb09_mistrik_rgm/  
主讲教师: Pavel Mistrík
开课单位: 格拉斯哥大学
开课时间: 2009-04-16
课程语种: 英语
中文简介:
编码连接蛋白26(Cx26)蛋白的GJB2基因中的突变是非综合征性耳聋形式的最常见来源。 Cx26是间隙连接(GJ)的构建块,在不同的耳蜗区室中的细胞之间建立电相互连接。离子如钾(K)和代谢物如IP3的耳蜗循环对于正常听力是必不可少的:Corti器官(其中一个隔室)中Cx26缺乏的动物模型似乎表明感觉细胞死亡(外部和内部)由于K稳态失败作为潜在问题,毛细胞,OHC和IHC(分别)。但是,这种机制可能不是唯一的机制。为了寻找替代机制,我们使用了耳蜗中声音的机械电转换的大规模三维模型(Mistrik等,2009)。实际上,仔细分析显示,Corti器官中GJ电导率的降低会降低穿过OHC基底外侧膜的受体电位。由于OHC电动势对声音放大至关重要,同时给予耳蜗灵敏度和频率选择性,我们得出结论,OHC体细胞电动力的减少可能代表Cx26相关耳聋形式的另一种病理机制。
课程简介: The mutations in the GJB2 gene encoding for the connexin 26 (Cx26) protein are the most common source of nonsyndromic forms of deafness. Cx26 is a building block of gap junctions (GJ), establishing electrical intercellular connectivity between cells in distinct cochlear compartments. Cochlear circulation of ions such as potassium (K+) and metabolites such as IP3 is essential for normal hearing: animal models of the Cx26 deficiency in the organ of Corti (one of the compartments) seem to suggest the death of sensory cells (outer and inner hair cells, OHC and IHC, respectively) due to failed K+ homeostasis as the underlying problem. However, this mechanism may not be the only one. In search for alternative mechanisms we have used a large scale three-dimensional model of mechano-electrical transduction of sound in the cochlea (Mistrik et al., 2009). Indeed, a careful analysis revealed that reduced GJ conductivity in the organ of Corti would decrease the receptor potential across the OHC basolateral membrane. As the OHC electromotility is crucial for sound amplification granting the cochlear sensitivity and frequency selectivity we conclude that the reduction of the OHC somatic electromotility could represent an additional pathological mechanism in the Cx26 related forms of deafness.
关 键 词: 编码连接蛋白; 机械电转换; 耳蜗
课程来源: 视频讲座网
最后编审: 2019-05-14:lxf
阅读次数: 61

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