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Hair Cell Development

毛细胞发育

基本信息

批准号：
7802489
负责人：
Zheng-Yi Chen
金额：
$ 4.93万
依托单位：
MASSACHUSETTS EYE AND EAR INFIRMARY
依托单位国家：
美国
项目类别：
财政年份：
2005
资助国家：
美国
起止时间：
2005-04-01 至 2010-03-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7802489
关键词：
Acute Adenovirus Vector Adenoviruses Affect Aging Antibodies Birds Cell Cycle Cell Cycle Arrest Cell Cycle Regulation Cell Line Cell Maintenance Cells Characteristics Commit Development Dyes Ear Environment Epithelial Cells Epithelium Event Exposure to Future Gene Expression Generations Genes Hair Cells Hearing Immunohistochemistry In Situ Hybridization Intervention Knock-out Knockout Mice Labyrinth Lead Maintenance Microarray Analysis Mitotic Molecular Profiling Mus Noise Organ Culture Techniques Pathway interactions Pattern Principal Investigator Process Proliferating Property Purpose RBL2 gene Research Retinoblastoma Genes Role Sensory Staging Stem cells Supporting Cell System Testing Therapeutic Utricle structure established cell line functional genomics hair cell regeneration hearing impairment human RBL2 protein member mouse model novel strategies patch clamp programs recombinase uptake

项目摘要

DESCRIPTION (provided by applicant): Millions of people suffer from irreversible hearing loss due to hair cell degeneration as a result of aging and early exposure to hazardous environment such as noise. Unlike other species such as birds, the mammalian inner ear does not replace the damaged hair cells spontaneously. Any intervention aiming at replacing damaged hair cells requires understanding the developmental controls of the hair cells, so that by manipulating the determining factors it will be possible to induce the regeneration of hair cells. The development of the hair cell is controlled by proliferation of progenitor cells, initiation of cell fate determination and the terminal differentiation. Little is known, however, about the identity of genes and associated pathways that control the cell cycle exit of progenitor cells and the maintenance of the quiescent post mitotic status of the hair cells and the supporting cells. In this application we propose to accomplish fours aims. First, to test our hypothesis that the retinoblastoma gene (Rb) is critically involved in the cell cycle exit of the sensory epithelium in the inner ear. This will be accomplished using the conditional Rb knockout mouse model in which Rb is abolished in the sensory epithelial cells. Furthermore two hair cell- specific Rb conditional mouse models will be studied, to understand whether Rb is required for the maintenance of post mitotic hair cells. These mouse models will also provide us with the answers to questions including whether Rb is involved in the differentiation of hair cells, or whether functional hair cells can be produced in the absence of pRb function. Second, to test our hypothesis that Rb is required for the quiescent status of mature hair cells. The proliferation potential of mature hair cells will be studied, after acute deletion of Rb in the mature lox-P Rb utricle organ culture system. The newly derived hair cells will be studied to determine if they are functional, by dye FM1-43 uptake and patch clamping. The re-entry into the cell cycle by the mature hair cells to produce the functional hair cells will have enormous potential for hair cell regeneration for future therapy. Third, using the functional genomic approach, we will identify the pathways controlled by Rb in the inner ear. Identification of critical molecules involved in the Rb pathway will offer us the possibility to fine-tune the process controlling the hair cell post mitotic status. Lastly, by taking advantage of proliferating properties of differentiated Rb-null hair cells, we will establish cell lines enriched with hair cell properties. The cell lines will be characterized for hair-cell-specific gene expression. Such cell lines will be of great value to hearing research in general. Completion of the project will provide better understanding of the mechanism involved in cell cycle control of hair cells, and help to open new avenues in hair cell regeneration.

描述（由申请人提供）：数百万人由于衰老和早期暴露于有害环境（如噪音）而导致毛细胞退化，导致不可逆转的听力损失。与鸟类等其他物种不同，哺乳动物的内耳不会自发地替换受损的毛细胞。任何旨在替换受损毛细胞的干预都需要了解毛细胞的发育控制，这样通过操纵决定因素就有可能诱导毛细胞再生。