Reduced C9orf72 expression exacerbates polyGR toxicity in patient iPSC-derived motor neurons and a Type I protein arginine methyltransferase inhibitor reduces that toxicity

C9orf72 表达降低会加剧患者 iPSC 衍生运动神经元中的 polyGR 毒性，而 I 型蛋白精氨酸甲基转移酶抑制剂可降低该毒性

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作者：Therese L Dane, Anna L Gill, Fernando G Vieira, Kyle R Denton

期刊：	Frontiers in Cellular Neuroscience	影响因子：	4.200
时间：	2023	起止号：	2023 Apr 17:17:1134090.
doi：	10.3389/fncel.2023.1134090	研究方向：	神经

Discussion

This study explores the interplay of loss-of-function and gain-of-function toxicity in C9orf72 ALS. It also implicates type I PRMT inhibitors as a possible modulator of polyGR toxicity.

Methods

To study this, we generated a panel of C9orf72 homozygous and hemizygous knockout iPSCs to examine the contribution of C9orf72 loss-of-function toward disease pathogenesis. We differentiated these iPSCs into spinal motor neurons (sMNs).

Results

We found that reduced levels of C9orf72 exacerbate polyGR15 toxicity in a dose-dependent manner. Type I PRMT inhibition was able to partially rescue polyGR15 toxicity in both wild-type and C9orf72-expanded sMNs.

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