Nova-1在调节α 2n(一种新型甘氨酸受体剪接变体)在脊髓神经元发育中的作用。

David V Kumar, A. Nighorn, P. S. St john
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引用次数: 10

摘要

抑制性甘氨酸受体(GlyR)亚基参与发育调控,但GlyR调控神经元发育的分子机制尚不清楚。利用RT-PCR技术,我们研究了大鼠脊髓发育过程中GlyR α -亚基剪接形式的调控。通过比较发育中的大鼠脊髓中GlyR α 2亚基(α 2a和α 2b)的两种已知剪接变体的mRNA数量的实验,发现了一种缺乏任何外显子3的新变体,在此称为“α 2n”。对不同年龄大鼠脊髓RNA的检测显示,在产前发育过程中,α 2n mRNA显著下调:α 2n mRNA在E14时形成了α 2亚基库的重要部分,但其相对水平在出生时降低了85%,在成年鼠中检测不到。先前涉及调节GlyR alpha2前mrna剪接的两种蛋白质,神经肿瘤学腹侧抗原-1 (Nova-1)和多嘧啶束结合蛋白(brPTB)的脑同种异构体,在同一时期经历了与alpha2N水平变化不直接相关的小变化,这让人质疑它们是否参与了alpha2N的发育调节。然而,用反义寡核苷酸选择性地敲除三种Nova-1变异体中的一种,对培养的脊髓神经元进行处理,显著改变了GlyR alpha2N的相对水平,表明Nova-1亚型可以调节发育中的神经元中GlyR alpha2前mrna剪接。这些结果为GlyR alpha2亚基的新剪接变体经历了显著的发育调节提供了证据,揭示了Nova-1和brPTB在发育中的脊髓表达谱,并提示Nova-1在发育中的神经元中调节GlyR alpha2N发挥作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Role of Nova-1 in regulating alpha2N, a novel glycine receptor splice variant, in developing spinal cord neurons.
Inhibitory glycine receptor (GlyR) subunits undergo developmental regulation, but the molecular mechanisms of GlyR regulation in developing neurons are little understood. Using RT-PCR, we investigated the regulation of GlyR alpha-subunit splice forms during the development of the spinal cord of the rat. Experiments to compare the amounts of mRNA for two known splice variants of the GlyR alpha2 subunit, alpha2A and alpha2B, in the developing rat spinal cord revealed the presence of an additional, novel variant that lacked any exon 3, herein named "alpha2N." Examination of the RNA from spinal cords of different-aged rats showed a dramatic down-regulation of alpha2N during prenatal development: alpha2N mRNA formed a significant portion of the alpha2 subunit pool at E14, but its relative level was reduced by 85% by birth and was undetectable in adults. Two proteins previously implicated in regulating the splicing of GlyR alpha2 pre-mRNA, the neurooncological ventral antigen-1 (Nova-1) and the brain isoform of the polypyrimidine tract binding protein (brPTB), underwent small changes over the same period that did not correlate directly with the changes in the level of alpha2N, calling into question their involvement in the developmental regulation of alpha2N. However, treatment of spinal cord neurons in culture with antisense oligonucleotides designed selectively to knock down one of three Nova-1 variants significantly altered the relative level of GlyR alpha2N, showing that Nova-1 isoforms can regulate GlyR alpha2 pre-mRNA splicing in developing neurons. These results provide evidence for a novel splice variant of the GlyR alpha2 subunit that undergoes dramatic developmental regulation, reveal the expression profiles of Nova-1 and brPTB in the developing spinal cord, and suggest that Nova-1 plays a role in regulating GlyR alpha2N in developing neurons.
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