源自哺乳动物内耳的永生化听觉毛细胞前体。
Auditory hair cell precursors immortalized from the mammalian inner ear.
作者信息
Rivolta M N, Grix N, Lawlor P, Ashmore J F, Jagger D J, Holley M C
机构信息
Department of Physiology, School of Medical Sciences, University of Bristol, UK.
出版信息
Proc Biol Sci. 1998 Sep 7;265(1406):1595-603. doi: 10.1098/rspb.1998.0477.
Abstract
Mammalian auditory hair cells are few in number, experimentally inaccessible, and do not proliferate postnatally or in vitro. Immortal cell lines with the potential to differentiate into auditory hair cells would substantially facilitate auditory research, drug development, and the isolation of critical molecules involved in hair cell biology. We have established two conditionally immortal cell lines that express at least five characteristic hair cell markers. These markers are the transcription factor Brn3.1, the alpha 9 subunit of the acetylcholine receptor, the stereociliary protein fimbrin and the myosins VI and VIIA. These hair cell precursors permit functional studies of cochlear genes and in the longer term they will provide the means to explore therapeutic methods of stimulating auditory hair cell regeneration.
摘要
哺乳动物的听觉毛细胞数量稀少,难以通过实验获取,并且在出生后或体外都不会增殖。具有分化为听觉毛细胞潜力的永生细胞系将极大地促进听觉研究、药物开发以及与毛细胞生物学相关的关键分子的分离。我们已经建立了两种条件永生细胞系,它们至少表达五种特征性毛细胞标记物。这些标记物是转录因子Brn3.1、乙酰胆碱受体的α9亚基、静纤毛蛋白fimbrin以及肌球蛋白VI和VIIA。这些毛细胞前体允许对耳蜗基因进行功能研究,从长远来看,它们将提供探索刺激听觉毛细胞再生治疗方法的手段。
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