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一种致病性S250F错义突变导致了轻度芳香族L-氨基酸脱羧酶(AADC)缺乏症的小鼠模型。

A pathogenic S250F missense mutation results in a mouse model of mild aromatic l-amino acid decarboxylase (AADC) deficiency.

作者信息

Caine Charlotte, Shohat Meytal, Kim Jeong-Ki, Nakanishi Koki, Homma Shunichi, Mosharov Eugene V, Monani Umrao R

机构信息

Department of Pathology and Cell Biology.

Center for Motor Neuron Biology and Disease.

出版信息

Hum Mol Genet. 2017 Nov 15;26(22):4406-4415. doi: 10.1093/hmg/ddx326.

Abstract

Homozygous mutations in the aromatic l-amino acid decarboxylase (AADC) gene result in a severe depletion of its namesake protein, triggering a debilitating and often fatal form of infantile Parkinsonism known as AADC deficiency. AADC deficient patients fail to produce normal levels of the monoamine neurotransmitters dopamine and serotonin, and suffer a multi-systemic disorder characterized by movement abnormalities, developmental delay and autonomic dysfunction; an absolute loss of dopamine is generally considered incompatible with life. There is no optimal treatment for AADC deficiency and few truly good models in which to investigate disease mechanisms or develop and refine therapeutic strategies. In this study, we introduced a relatively frequently reported but mildly pathogenic S250F missense mutation into the murine Aadc gene. We show that mutants homozygous for the mutation are viable and express a stable but minimally active form of the AADC protein. Although the low enzymatic activity of the protein resulted in only modestly reduced concentrations of brain dopamine, serotonin levels were markedly diminished, and this perturbed behavior as well as autonomic function in mutant mice. Still, we found no evidence of morphologic abnormalities of the dopaminergic cells in mutant brains. The striatum as well as substantia nigra appeared normal and no loss of dopamine expressing cells in the latter was detected. We conclude that even minute levels of active AADC are sufficient to allow for substantial amounts of dopamine to be produced in model mice harboring the S250F mutation. Such mutants represent a novel, mild model of human AADC deficiency.

摘要

芳香族L-氨基酸脱羧酶(AADC)基因的纯合突变会导致该酶严重缺乏,引发一种严重且通常致命的婴儿帕金森症,即AADC缺乏症。AADC缺乏症患者无法产生正常水平的单胺类神经递质多巴胺和血清素,并患有以运动异常、发育迟缓及自主神经功能障碍为特征的多系统疾病;多巴胺的完全缺失通常被认为无法维持生命。目前尚无针对AADC缺乏症的最佳治疗方法,也缺乏用于研究疾病机制或开发及完善治疗策略的理想模型。在本研究中,我们将一个相对常见但致病性较弱的S250F错义突变引入小鼠Aadc基因。我们发现,该突变的纯合子突变体是可存活的,并表达一种稳定但活性极低的AADC蛋白形式。尽管该蛋白的低酶活性仅导致脑内多巴胺浓度适度降低,但血清素水平显著下降,这扰乱了突变小鼠的行为及自主神经功能。不过,我们未发现突变小鼠脑内多巴胺能细胞存在形态异常的证据。纹状体及黑质外观正常,未检测到黑质中多巴胺表达细胞的丢失。我们得出结论,即使是微量的活性AADC也足以使携带S250F突变的模型小鼠产生大量多巴胺。此类突变体代表了一种新型的、轻度的人类AADC缺乏症模型。

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