叶酸受体不仅仅是叶酸转运体。

Neurogenesis (Austin, Tex.) Pub Date : 2017-01-10 eCollection Date: 2017-01-01 DOI:10.1080/23262133.2016.1263717
Vineet Mohanty, M Rizwan Siddiqui, Tadanori Tomita, Chandra Shekhar Mayanil
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引用次数: 11

摘要

直到最近,叶酸受体α (FRα)只被认为是叶酸转运蛋白。然而,我们的实验室报道了FRα作为转录因子的新作用。最近,我们的实验室发现了FRα的一种新的多效性作用:(a)直接转录激活Oct4、Sox2和Klf4基因;(b)抑制靶向这些基因或其效应分子的mirna的生物发生。这些观察结果引出了一个问题:“像叶酸这样的简单分子是否可以用来操纵内源性神经干细胞(NSCs)的产生和/或分化,这可能为未来的治疗带来希望?”脊髓损伤、运动神经元疾病、阿尔茨海默病和多发性硬化症等疾病可能受益于增加干细胞库和促进特定的分化途径。另一方面,这些NSCs也可能导致某些中枢神经系统肿瘤,因此促进分化可能更有益。FRα可能在这两方面都有希望,因为它具有以上下文依赖的方式重塑染色质的潜力。在这篇评论中,我们讨论了我们以前的数据和在FRα的新作用的背景下产生的新问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Folate receptor alpha is more than just a folate transporter.

Until recently folate receptor alpha (FRα) has only been considered as a folate transporter. However, a novel role of FRα as a transcription factor was reported by our lab. More recently our lab showed a novel pleiotropic role of FRα: (a) direct transcriptional activation of Oct4, Sox2, and Klf4 genes; and (b) repression of biogenesis of miRNAs that target these genes or their effector molecules. These observations beg a question: "Can a simple molecule such as folate be used to manipulate the production and/or differentiation of endogenous neural stem cells (NSCs), which may hold promise for future therapies?" Conditions such as spinal cord injury, motor neuron diseases, Alzheimer's disease and multiple sclerosis may benefit from increasing stem cell pool and promoting specific pathways of differentiation. On the flip-side, these NSCs may also contribute to some CNS tumors therefore promoting differentiation could prove more beneficial. FRα may hold promises for both since it has the potential to remodel chromatin in a context dependent manner. In this commentary we discuss our previous data and new questions arising in the context of the new role for FRα.

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