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导致双基因性耳聋的质膜钙泵同工型2突变体的功能研究。

A functional study of plasma-membrane calcium-pump isoform 2 mutants causing digenic deafness.

作者信息

Ficarella R, Di Leva F, Bortolozzi M, Ortolano S, Donaudy F, Petrillo M, Melchionda S, Lelli A, Domi T, Fedrizzi L, Lim D, Shull G E, Gasparini P, Brini M, Mammano F, Carafoli E

机构信息

Telethon Institute of Genetics and Medicine, 80131 Naples, Italy.

出版信息

Proc Natl Acad Sci U S A. 2007 Jan 30;104(5):1516-21. doi: 10.1073/pnas.0609775104. Epub 2007 Jan 18.

DOI:10.1073/pnas.0609775104
PMID:17234811
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1785272/
Abstract

Ca2+ enters the stereocilia of hair cells through mechanoelectrical transduction channels opened by the deflection of the hair bundle and is exported back to endolymph by an unusual splicing isoform (w/a) of plasma-membrane calcium-pump isoform 2 (PMCA2). Ablation or missense mutations of the pump cause deafness, as described for the G283S mutation in the deafwaddler (dfw) mouse. A deafness-inducing missense mutation of PMCA2 (G293S) has been identified in a human family. The family also was screened for mutations in cadherin 23, which accentuated hearing loss in a previously described human family with a PMCA2 mutation. A T1999S substitution was detected in the cadherin 23 gene of the healthy father and affected son but not in that of the unaffected mother, who presented instead the PMCA2 mutation. The w/a isoform was overexpressed in CHO cells. At variance with the other PMCA2 isoforms, it became activated only marginally when exposed to a Ca2+ pulse. The G293S and G283S mutations delayed the dissipation of Ca2+ transients induced in CHO cells by InsP3. In organotypic cultures, Ca2+ imaging of vestibular hair cells showed that the dissipation of stereociliary Ca2+ transients induced by Ca2+ uncaging was compromised in the dfw and PMCA2 knockout mice, as was the sensitivity of the mechanoelectrical transduction channels to hair bundle displacement in cochlear hair cells.

摘要

钙离子通过毛束偏转打开的机械电转导通道进入毛细胞的静纤毛,并由质膜钙泵同工型2(PMCA2)的一种特殊剪接异构体(w/a)运回内淋巴。如在聋摇椅(dfw)小鼠中G283S突变所描述的那样,该泵的缺失或错义突变会导致耳聋。在一个人类家族中已鉴定出PMCA2的致聋错义突变(G293S)。该家族还进行了钙黏蛋白23突变的筛查,在先前描述的一个有PMCA2突变的人类家族中,该突变会加重听力损失。在健康父亲和患病儿子的钙黏蛋白23基因中检测到T1999S替换,但在未患病母亲的基因中未检测到,而未患病母亲存在PMCA2突变。w/a异构体在CHO细胞中过表达。与其他PMCA2异构体不同,当暴露于钙离子脉冲时,它仅轻微激活。G293S和G283S突变延迟了由肌醇三磷酸(InsP3)在CHO细胞中诱导的钙离子瞬变的消散。在器官型培养中,前庭毛细胞的钙离子成像显示,在dfw和PMCA2基因敲除小鼠中,由钙离子光解诱导的静纤毛钙离子瞬变的消散受损,耳蜗毛细胞中机械电转导通道对毛束位移的敏感性也受损。

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