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弱的 C' 盒使 U3 snoRNA 的水平依赖于 hU3-55K 的结合。

A weak C' box renders U3 snoRNA levels dependent on hU3-55K binding.

机构信息

Institute for Cell and Molecular Biosciences, Newcastle University, Newcastle upon Tyne NE24HH, United Kingdom.

出版信息

Mol Cell Biol. 2011 Jun;31(12):2404-12. doi: 10.1128/MCB.05067-11. Epub 2011 Apr 19.

DOI:10.1128/MCB.05067-11
PMID:21505065
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3133427/
Abstract

The rate of ribosome biogenesis, which is downregulated in terminally differentiated cells and upregulated in most cancers, regulates the growth rate and is linked to the cell's proliferative potential. The U3 box C/D small nucleolar RNP (snoRNP) is an integral component of the small subunit (SSU) processome and is essential for 18S rRNA processing. We show that U3 snoRNP assembly, and therefore U3 snoRNA accumulation, is regulated through the U3-specific protein hU3-55K. Furthermore, we report that the levels of several SSU processome components, including the U3 snoRNA but not other box C/D snoRNAs, are specifically downregulated during human lung (CaCo-2) and colon (CaLu-3) epithelial cell differentiation. c-Myc is reported to play an integral role in regulating ribosome production by controlling the expression of many ribosome biogenesis factors. Our data, however, indicate that this regulation is not dependent on c-Myc since the level of this protein does not change during epithelial cell differentiation. In addition, depletion of c-Myc had only a mild affect on the levels of SSU processome proteins. CaCo-2 cells are colon adenocarcinoma epithelial cells that are believed to revert to their precancerous state during differentiation. This suggests a significant increase in the levels of specific SSU processome components during tumorogenesis.

摘要

核糖体生物发生的速率在终末分化细胞中被下调,而在大多数癌症中被上调,它调节着细胞的生长速度,并与细胞的增殖潜能相关。U3 盒 C/D 小核仁 RNP(snoRNP)是小亚基(SSU)加工体的一个组成部分,对于 18S rRNA 的加工是必不可少的。我们表明,U3 snoRNP 的组装,因此 U3 snoRNA 的积累,受到 U3 特异性蛋白 hU3-55K 的调节。此外,我们报告说,几种 SSU 加工体成分的水平,包括 U3 snoRNA,但不包括其他盒 C/D snoRNAs,在人肺(CaCo-2)和结肠(CaLu-3)上皮细胞分化过程中特异性地下调。据报道,c-Myc 通过控制许多核糖体生物发生因子的表达,在调节核糖体产生中起着不可或缺的作用。然而,我们的数据表明,这种调节不依赖于 c-Myc,因为这种蛋白质的水平在上皮细胞分化过程中不会发生变化。此外,c-Myc 的耗竭对 SSU 加工体蛋白的水平只有轻微的影响。CaCo-2 细胞是结肠腺癌上皮细胞,据信在分化过程中会恢复到其癌前状态。这表明在肿瘤发生过程中,特定的 SSU 加工体成分的水平显著增加。

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