结节性硬化症动物模型中的突触可塑性和学习。
Synaptic plasticity and learning in animal models of tuberous sclerosis complex.
机构信息
Oscar Langendorff Institute of Physiology, University of Rostock, Gertrudenstrasse 9, 18057 Rostock, Germany.
出版信息
Neural Plast. 2012;2012:279834. doi: 10.1155/2012/279834. Epub 2012 Jul 15.
Abstract
Tuberous sclerosis complex (TSC) is caused by a mutation of either the Tsc1 or Tsc2 gene. As these genes work in concert to negatively regulate the mammalian target of rapamycin (mTOR) kinase which is involved in protein translation, mutations of these genes lead to a disinhibited mTOR activity. Both the clinical appearance of this condition including tumors, cognitive decline, and epileptic seizures and the molecular understanding of the mTOR signaling pathway, not only involved in cell growth, but also in neuronal functioning, have inspired numerous studies on learning behavior as well as on synaptic plasticity which is the key molecular mechanism of information storage in the brain. A couple of interesting animal models have been established, and the data obtained in these animals will be discussed. A special focus will be laid on differences among these models, which may be in part due to different background strains, but also may indicate pathophysiological variation in different mutations.
摘要
结节性硬化症(TSC)是由 Tsc1 或 Tsc2 基因突变引起的。由于这些基因协同作用,负调控参与蛋白质翻译的哺乳动物雷帕霉素靶蛋白(mTOR)激酶,这些基因突变导致 mTOR 活性不受抑制。这种疾病的临床表现,包括肿瘤、认知能力下降和癫痫发作,以及对 mTOR 信号通路的分子理解,不仅涉及细胞生长,还涉及神经元功能,这激发了大量关于学习行为以及突触可塑性的研究,突触可塑性是大脑中信息存储的关键分子机制。已经建立了一些有趣的动物模型,将讨论在这些动物中获得的数据。特别关注这些模型之间的差异,这些差异可能部分归因于不同的背景品系,但也可能表明不同突变的病理生理变化。
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