果蝇Na+/K+ ATP酶α亚基突变体中的神经功能障碍和神经退行性变
Neural dysfunction and neurodegeneration in Drosophila Na+/K+ ATPase alpha subunit mutants.
作者信息
Palladino Michael J, Bower Jill E, Kreber Robert, Ganetzky Barry
机构信息
Laboratory of Genetics, University of Wisconsin, Madison, Wisconsin 53706, USA.
出版信息
J Neurosci. 2003 Feb 15;23(4):1276-86. doi: 10.1523/JNEUROSCI.23-04-01276.2003.
Abstract
The Na+/K+ ATPase asymmetrically distributes sodium and potassium ions across the plasma membrane to generate and maintain the membrane potential in many cell types. Although these pumps have been hypothesized to be involved in various human neurological disorders, including seizures and neurodegeneration, direct genetic evidence has been lacking. Here, we describe novel mutations in the Drosophila gene encoding the alpha (catalytic) subunit of the Na+/K+ ATPase that lead to behavioral abnormalities, reduced life span, and severe neuronal hyperexcitability. These phenotypes parallel the occurrence of extensive, age-dependent neurodegeneration. We have also discovered that the ATPalpha transcripts undergo alternative splicing that substantially increases the diversity of potential proteins. Our data show that maintenance of neuronal viability is dependent on normal sodium pump activity and establish Drosophila as a useful model for investigating the role of the pump in human neurodegenerative and seizure disorders.
摘要
钠钾ATP酶可跨质膜不对称地分布钠离子和钾离子,从而在多种细胞类型中产生并维持膜电位。尽管这些泵被推测与包括癫痫和神经退行性变在内的多种人类神经疾病有关,但一直缺乏直接的遗传学证据。在此,我们描述了果蝇中编码钠钾ATP酶α(催化)亚基的基因发生的新突变,这些突变导致行为异常、寿命缩短以及严重的神经元过度兴奋。这些表型与广泛的、年龄依赖性神经退行性变的发生情况相似。我们还发现,ATPalpha转录本会发生可变剪接,这大幅增加了潜在蛋白质的多样性。我们的数据表明,神经元活力的维持依赖于正常的钠泵活性,并确立果蝇为研究该泵在人类神经退行性疾病和癫痫疾病中作用的有用模型。
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