机构地区:[1]华中科技大学同济医学院附属同济医院耳鼻咽喉科,湖北武汉430030
出 处:《中国病理生理杂志》2007年第9期1823-1827,共5页Chinese Journal of Pathophysiology
基 金:国家自然科学基金资助项目(No.30371526);湖北省自然科学基金资助项目(No.2002AB127);教育部留学回国人员启动基金资助项目(No.教外司留2004-527号)
摘 要:目的:培育突变型纯合子NKCC1-/-、杂合子NKCC1+/-及野生型NKCC1+/+小鼠,将这3种基因型小鼠作为实验平台,研究NKCC1离子通道(Na-K-2Cl,co-transporter)在耳蜗听觉平衡功能中的作用,并观察不同基因型小鼠的内耳形态特征。方法:利用同窝生各个基因型小鼠NKCC1-/-(突变纯合子)、NKCC1+/-(杂合子)和NKCC1+/+(野生型)为实验对象,采用听觉脑干反应(ABR)和耳蜗内电位(EP)检测技术,对各基因型小鼠的听觉功能和EP进行检测;同时利用光学显微镜观察不同基因型小鼠的内耳形态变化。结果:NKCC1+/+野生型小鼠听力正常,ABR检测的click短音阈值为[(23.13±3.78)dB,SPL];EP为(98±16)mV。NKCC1+/-杂合子小鼠听力低于同窝生的NKCC1+/+野生型小鼠,ABR检测其Click短音阈值为[(38.49±12.29)dB,SPL],EP为(78±7)mV。NKCC1+/+和NKCC1+/-小鼠ABR的阈值均值在各个频率的差异显著(P<0.01);两者EP的均值差异也显著(P<0.05)。NKCC1-/-突变型纯合子小鼠呈现全聋,ABR各个频率在100dB均无反应,其EP接近消失(4mV±6mV)。NKCC1-/-突变型纯合子小鼠表现出听觉功能丧失和旋转为主的平衡失调。光镜下NKCC1+/+野生型小鼠和NKCC1+/-杂合子小鼠的耳蜗解剖结构无明显异常;NKCC1-/-突变纯合子小鼠的耳蜗出现前庭膜塌陷、内淋巴腔缩小而致中阶完全消失,并有血管纹萎缩、Corti器缺失、螺旋神经节萎缩;且球囊和椭圆囊膜迷路失去正常结构并出现塌陷等病理改变。结论:NKCC1离子通道在内耳K+循环和维系内耳正常听觉平衡功能中起重要作用。NKCC1通道的缺失或功能受限,均可导致耳蜗内淋巴K+负荷水平,进而影响耳蜗的听觉平衡功能。AIM: We generated transgenic mice of NKCC1^-/- (homozygous mutant), NKCC1^+/- (heterozygous) and NKCC1^+/+(wild -type) that have a targeted disruption in the NKCC1 gene to investigate the role of Na -K - 2Cl (NKCC1) channel in auditory function of the inner ear. METHODS: Hearing threshold and endocochlear potential (EP) were measured in the NKCC1^-/- , NKCC1^+/- and NKCC1^+/+ mice by auditory brainstem response (ABR) and EP recordings, respectively. The inner ears of the mice were removed and examined morphologically with the light microscope. RESULTS: The auditory function of NKCC1^+/+ mice was normal, the mean value for ABR thresholds in response to click sound was [ (23. 13±3.78)dB, SPL], EP was (98 ±16) mV. The mean value for ABR thresholds to click sound was elevated in NKCC1 ^+/-mice [(38.49± 12.29) dB, SPL], relative to that significantly increased in NKCC1^+/+ mice (P〈0.01). EP in NKCC1^+/- mice was about (78±7) mV, significantly decreased than that in NKCC1^+/+ mice (P 〈0.05 ). NKCC1^-/- mice were completely deaf, the ABR waveform was not observed for even 100 dB SPL sound stimuli used and EP was nearly disappeared (EP, 4 mV±6 mV). NKCC1^-/- mice were deaf and demonstrated difficulties in maintaining their balance. NKCC1^-/- mice exhibited a marked atrophy of the stria vascularis, contraction of the endolymphatic compartments and collapse. CONCLUSION: NKCC1 channel plays a critical role in potassium homeostasis of endolymph in the inner ear. Mice lacking of NKCC1 can lead to changing K^+ concentration in endolymph and influence auditory function subsequently. NKCCI knockout mice exhibit marked structural abnormalities of the cochlea as well.
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