نتایج جستجو برای: outer hair cells

تعداد نتایج: 1459809  

Journal: :Cell 1990
G Cotsarelis T T Sun R M Lavker

Inconsistent with the view that hair follicle stem cells reside in the matrix area of the hair bulb, we found that label-retaining cells exist exclusively in the bulge area of the mouse hair follicle. The bulge consists of a subpopulation of outer root sheath cells located in the midportion of the follicle at the arrector pili muscle attachment site. Keratinocytes in the bulge area are relative...

Journal: :Proceedings of the National Academy of Sciences of the United States of America 2006
Cyrille Sage Mingqian Huang Melissa A Vollrath M Christian Brown Philip W Hinds David P Corey Douglas E Vetter Zheng-Yi Chen

The retinoblastoma protein pRb is required for cell-cycle exit of embryonic mammalian hair cells but not for their early differentiation. However, its role in postnatal hair cells is unknown. To study the function of pRb in mature animals, we created a new conditional mouse model, with the Rb gene deleted primarily in the inner ear. Progeny survive up to 6 months. During early postnatal develop...

Journal: :PLoS Biology 2009
Richard Robinson

Rock 'n' roll sounds best turned up loud, but as hundreds of aging rockers (and millions of their aging fans) are discovering, the cost of all that glorious noise is hearing loss and tinnitus. And it's not just loud music—our ears are daily assaulted by the roar of the jet engine, the shriek of the power tool, the blare of the car horn, and the pounding of the jackhammer. In most cases, it seem...

Journal: :Journal of biomedical optics 2007
Leann M Tiede Sonia M Rocha-Sanchez Richard Hallworth Michael G Nichols Kirk Beisel

Currently there is no accepted method to measure the metabolic status of the organ of Corti. Since metabolism and mitochondrial dysfunction are expected to play a role in many different hearing disorders, here for the first time we employ two-photon metabolic imaging to assess the metabolic status of the cochlea. When excited with ultrashort pulses of 740-nm light, both inner and outer hair cel...

Journal: :Hearing research 1987
J Schacht H P Zenner

Cochlear outer hair cells are postulated to modulate auditory transduction by their mechanical properties which presumably are controlled by efferent neurons and regulated by the levels of intracellular calcium. In a number of biological systems these calcium levels are controlled by inositol trisphosphate (InsP3), the second messenger of the phosphoinositide cascade. We have investigated wheth...

Journal: :The Journal of neuroscience : the official journal of the Society for Neuroscience 2015
A Paul Nagtegaal Robert N Rainey Ingrid van der Pluijm Renata M C Brandt Gijsbertus T J van der Horst J Gerard G Borst Neil Segil

Sensory hair cells in the cochlea, like most neuronal populations that are postmitotic, terminally differentiated, and non-regenerating, depend on robust mechanisms of self-renewal for lifelong survival. We report that hair cell homeostasis requires a specific sub-branch of the DNA damage nucleotide excision repair pathway, termed transcription-coupled repair (TCR). Cockayne syndrome (CS), caus...

Journal: :The Journal of neuroscience : the official journal of the Society for Neuroscience 2009
Mirna Mustapha Qing Fang Tzy-Wen Gong David F Dolan Yehoash Raphael Sally A Camper R Keith Duncan

The absence of thyroid hormone (TH) during late gestation and early infancy can cause irreparable deafness in both humans and rodents. A variety of rodent models have been used in an effort to identify the underlying molecular mechanism. Here, we characterize a mouse model of secondary hypothyroidism, pituitary transcription factor 1 (Pit1(dw)), which has profound, congenital deafness that is r...

Journal: :Journal of cell science 2014
Takehiko Ueyama Hirofumi Sakaguchi Takashi Nakamura Akihiro Goto Shigefumi Morioka Aya Shimizu Kazuki Nakao Yoshitaka Hishikawa Yuzuru Ninoyu Hidetoshi Kassai Shiro Suetsugu Takehiko Koji Bernd Fritzsch Shigenobu Yonemura Yasuo Hisa Michiyuki Matsuda Atsu Aiba Naoaki Saito

Cdc42 is a key regulator of dynamic actin organization. However, little is known about how Cdc42-dependent actin regulation influences steady-state actin structures in differentiated epithelia. We employed inner ear hair-cell-specific conditional knockout to analyze the role of Cdc42 in hair cells possessing highly elaborate stable actin protrusions (stereocilia). Hair cells of Atoh1-Cre;Cdc42(...

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