HCF-1 碱性区在维持细胞增殖中的作用。

Role of the HCF-1 basic region in sustaining cell proliferation.

机构信息

Watson School of Biological Sciences, Cold Spring Harbor Laboratory, Cold Spring Harbor, New York, United States of America.

出版信息

PLoS One. 2010 Feb 2;5(2):e9020. doi: 10.1371/journal.pone.0009020.

DOI:10.1371/journal.pone.0009020

PMID:20126307

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2814863/

Abstract

BACKGROUND

The human herpes simplex virus-associated host cell factor 1 (HCF-1) is a conserved human transcriptional co-regulator that links positive and negative histone modifying activities with sequence-specific DNA-binding transcription factors. It is synthesized as a 2035 amino acid precursor that is cleaved to generate an amino- (HCF-1(N)) terminal subunit, which promotes G1-to-S phase progression, and a carboxy- (HCF-1(C)) terminal subunit, which controls multiple aspects of cell division during M phase. The HCF-1(N) subunit contains a Kelch domain that tethers HCF-1 to sequence-specific DNA-binding transcription factors, and a poorly characterized so called "Basic" region (owing to a high ratio of basic vs. acidic amino acids) that is required for cell proliferation and has been shown to associate with the Sin3 histone deacetylase (HDAC) component. Here we studied the role of the Basic region in cell proliferation and G1-to-S phase transition assays.

METHODOLOGY/PRINCIPAL FINDINGS: Surprisingly, much like the transcriptional activation domains of sequence-specific DNA-binding transcription factors, there is no unique sequence within the Basic region required for promoting cell proliferation or G1-to-S phase transition. Indeed, the ability to promote these activities is size dependent such that the shorter the Basic region segment the less activity observed. We find, however, that the Basic region requirements for promoting cell proliferation in a temperature-sensitive tsBN67 cell assay are more stringent than for G1-to-S phase progression in an HCF-1 siRNA-depletion HeLa-cell assay. Thus, either half of the Basic region alone can support G1-to-S phase progression but not cell proliferation effectively in these assays. Nevertheless, the Basic region displays considerable structural plasticity because each half is able to promote cell proliferation when duplicated in tandem. Consistent with a potential role in promoting cell-cycle progression, the Sin3a HDAC component can associate independently with either half of the Basic region fused to the HCF-1 Kelch domain.

CONCLUSIONS/SIGNIFICANCE: While conserved, the HCF-1 Basic region displays striking structural flexibility for controlling cell proliferation.

摘要

背景

人类单纯疱疹病毒相关宿主细胞因子 1（HCF-1）是一种保守的人类转录共调节因子，它将阳性和阴性组蛋白修饰活性与序列特异性 DNA 结合转录因子联系起来。它作为 2035 个氨基酸前体合成，被切割生成氨基（HCF-1（N））末端亚基，促进 G1 到 S 期进展，和羧基（HCF-1（C））末端亚基，控制有丝分裂期间细胞分裂的多个方面。HCF-1（N）亚基包含一个 Kelch 结构域，将 HCF-1 与序列特异性 DNA 结合转录因子连接起来，以及一个特征不明显的所谓“碱性”区域（由于碱性氨基酸与酸性氨基酸的比例较高），该区域对于细胞增殖是必需的，并且已经显示与 Sin3 组蛋白去乙酰化酶（HDAC）成分相关。在这里，我们研究了碱性区域在细胞增殖和 G1 到 S 期过渡测定中的作用。

方法/主要发现：令人惊讶的是，就像序列特异性 DNA 结合转录因子的转录激活结构域一样，碱性区域内没有独特的序列是促进细胞增殖或 G1 到 S 期过渡所必需的。事实上，促进这些活性的能力是大小依赖性的，碱性区域片段越短，观察到的活性越低。然而，我们发现，碱性区域促进 tsBN67 细胞温度敏感试验中细胞增殖的要求比 HCF-1 siRNA 耗尽 HeLa 细胞试验中 G1 到 S 期进展的要求更为严格。因此，单独的碱性区域的一半可以在这些试验中有效地支持 G1 到 S 期过渡，但不能有效地支持细胞增殖。然而，碱性区域显示出相当大的结构可塑性，因为每个一半都能够在串联重复时促进细胞增殖。与促进细胞周期进程的潜在作用一致，Sin3a HDAC 成分可以独立地与融合到 HCF-1 Kelch 结构域的碱性区域的每一半结合。

结论/意义：虽然保守，但 HCF-1 碱性区域在控制细胞增殖方面表现出惊人的结构灵活性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f6fc/2814863/2d9aee04e95a/pone.0009020.g001.jpg

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HCF-1 碱性区在维持细胞增殖中的作用。

Role of the HCF-1 basic region in sustaining cell proliferation.

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