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聋摇小鼠内淋巴钙浓度较低,表明质膜钙ATP酶2(PMCA2)有助于维持内淋巴钙水平。

Low endolymph calcium concentrations in deafwaddler2J mice suggest that PMCA2 contributes to endolymph calcium maintenance.

作者信息

Wood J David, Muchinsky Sara J, Filoteo Adelaida G, Penniston John T, Tempel Bruce L

机构信息

The Virginia Merrill Bloedel Hearing Research Center, University of Washington School of Medicine, Seattle, WA 98195-7923, USA.

出版信息

J Assoc Res Otolaryngol. 2004 Jun;5(2):99-110. doi: 10.1007/s10162-003-4022-1.

DOI:10.1007/s10162-003-4022-1
PMID:15357414
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2538403/
Abstract

In vertebrates, transduction of sound into an electrochemical signal is carried out by hair cells that rely on calcium to perform specialized functions. The apical surfaces of hair cells are surrounded by endolymphatic fluid containing calcium at concentrations that must be maintained by active transport. The mechanism of this transport is unknown, but an ATP-dependent pump is believed to participate. Mutation of the Atp2b2 gene that encodes plasma membrane calcium ATPase type 2 (PMCA2) produces the deaf, ataxic mouse: deafwaddler2J (dfw2J). We hypothesized that PMCA2 might transport calcium into the endolymph and that dfw2J mice would have low endolymph calcium concentrations, possibly contributing to their deafness and ataxia. First, using immunocytochemistry, we demonstrated that PMCA2 is present in control mice inner and outer hair cell stereocilia where it could pump calcium into the endolymph and that PMCA2 is absent in dfw2J stereocilia. Second, using an aspirating microelectrode and calcium-sensitive fluorescent dye, we found that dfw2J mice endolymph calcium concentrations are significantly lower than those of control mice. These findings suggest that PMCA2, located in hair cell stereocilia, contributes significantly to endolymph calcium maintenance.

摘要

在脊椎动物中,声音转化为电化学信号是由依赖钙来执行特殊功能的毛细胞完成的。毛细胞的顶端表面被含有钙的内淋巴液包围,其钙浓度必须通过主动转运来维持。这种转运机制尚不清楚,但据信一种依赖ATP的泵参与其中。编码质膜钙ATP酶2型(PMCA2)的Atp2b2基因突变会产生耳聋、共济失调的小鼠:聋摇尾2J(dfw2J)。我们假设PMCA2可能将钙转运到内淋巴中,并且dfw2J小鼠的内淋巴钙浓度会较低,这可能导致它们的耳聋和共济失调。首先,通过免疫细胞化学,我们证明PMCA2存在于对照小鼠的内、外毛细胞静纤毛中,在那里它可以将钙泵入内淋巴,而在dfw2J静纤毛中不存在PMCA2。其次,使用抽吸微电极和钙敏荧光染料,我们发现dfw2J小鼠的内淋巴钙浓度明显低于对照小鼠。这些发现表明,位于毛细胞静纤毛中的PMCA2对内淋巴钙的维持有显著贡献。

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