Stem cells have been widely assumed to be capable of replacing lost or damaged cells in a number of diseases, including Parkinson's disease (PD), in which neurons of the substantia nigra (SN) die and fail to provide the neurotransmitter, dopamine (DA), to the striatum. We report that undifferentiated human neural stem cells (hNSCs) implanted into 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-treated Parkinsonian primates survived, migrated, and had a functional impact as assessed quantitatively by behavioral improvement in this DA-deficit model, in which Parkinsonian signs directly correlate to reduced DA levels. A small number of hNSC progeny differentiated into tyrosine hydroxylase (TH) and/or dopamine transporter (DAT) immunopositive cells, suggesting that the microenvironment within and around the lesioned adult host SN still permits development of a DA phenotype by responsive progenitor cells. A much larger number of hNSC-derived cells that did not express neuronal or DA markers was found arrayed along the persisting nigrostriatal path, juxtaposed with host cells. These hNSCs, which express DA-protective factors, were therefore well positioned to influence host TH+ cells and mediate other homeostatic adjustments, as reflected in a return to baseline endogenous neuronal number-to-size ratios, preservation of extant host nigrostriatal circuitry, and a normalizing effect on alpha-synuclein aggregation. We propose that multiple modes of reciprocal interaction between exogenous hNSCs and the pathological host milieu underlie the functional improvement observed in this model of PD.

译文

人们普遍认为干细胞能够替代许多疾病中丢失或受损的细胞,包括帕金森氏病 (PD),其中黑质 (SN) 的神经元死亡,无法向纹状体提供神经递质多巴胺 (DA)。我们报告了植入1-甲基-4-苯基-1,4,2,3-四氢吡啶处理的帕金森氏灵长类动物中的未分化人类神经干细胞 (hNSCs) 存活,迁移并通过行为改善定量评估具有功能影响在这个DA-缺陷模型中,其中帕金森氏征与DA水平降低直接相关。少数hNSC后代分化为酪氨酸羟化酶 (TH) 和/或多巴胺转运蛋白 (DAT) 免疫阳性细胞,这表明受损的成年宿主SN内部和周围的微环境仍允许通过反应性祖细胞发展DA表型。发现大量不表达神经元或DA标记的hNSC衍生细胞沿持续的黑质纹状体路径排列,与宿主细胞并列。因此,这些表达DA保护因子的hNSCs可以很好地影响宿主TH细胞并介导其他稳态调节,这反映在恢复到基线内源性神经元数量与大小之比,保留现存的宿主黑质纹状体回路以及对 α-突触核蛋白聚集的正常化作用。我们建议外源性hNSCs与病理性宿主环境之间相互作用的多种模式是该PD模型中观察到的功能改善的基础。

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