一种保守的Myc蛋白结构域MBIV可调节DNA结合、细胞凋亡、细胞转化及G2期阻滞。

A conserved Myc protein domain, MBIV, regulates DNA binding, apoptosis, transformation, and G2 arrest.

作者信息

Cowling Victoria H, Chandriani Sanjay, Whitfield Michael L, Cole Michael D

机构信息

Department of Pharmacology, Norris Cotton Cancer Center, Dartmouth Medical School, One Medical Center Drive, Lebanon, NH 03756, USA.

出版信息

Mol Cell Biol. 2006 Jun;26(11):4226-39. doi: 10.1128/MCB.01959-05.

DOI:10.1128/MCB.01959-05

PMID:16705173

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1489101/

Abstract

The myc family of oncogenes is well conserved throughout evolution. Here we present the characterization of a domain conserved in c-, N-, and L-Myc from fish to humans, N-Myc317-337, designated Myc box IV (MBIV). A deletion of this domain leads to a defect in Myc-induced apoptosis and in some transformation assays but not in cell proliferation. Unlike other Myc mutants, MycDeltaMBIV is not a simple loss-of-function mutant because it is hyperactive for G2 arrest in primary cells. Microarray analysis of genes regulated by N-MycDeltaMBIV reveals that it is weakened for transactivation and repression but not nearly as defective as N-MycDeltaMBII. Although the mutated region is not part of the previously defined DNA binding domain, we find that N-MycDeltaMBIV has a significantly lower affinity for DNA than the wild-type protein in vitro. Furthermore, chromatin immunoprecipitation shows reduced binding of N-MycDeltaMBIV to some target genes in vivo, which correlates with the defect in transactivation. Thus, this conserved domain has an unexpected role in Myc DNA binding activity. These data also provide a novel separation of Myc functions linked to the modulation of DNA binding activity.

摘要

癌基因的myc家族在整个进化过程中高度保守。在此，我们描述了一个从鱼类到人类在c-Myc、N-Myc和L-Myc中保守的结构域，即N-Myc317 - 337，命名为Myc框IV（MBIV）。该结构域的缺失导致Myc诱导的细胞凋亡出现缺陷，在一些转化实验中也有缺陷，但对细胞增殖没有影响。与其他Myc突变体不同，MycDeltaMBIV不是一个简单的功能丧失突变体，因为它在原代细胞中对G2期阻滞具有高活性。对受N-MycDeltaMBIV调控的基因进行微阵列分析表明，它在反式激活和抑制方面有所减弱，但不像N-MycDeltaMBII那样有严重缺陷。尽管突变区域不是先前定义的DNA结合结构域的一部分，但我们发现N-MycDeltaMBIV在体外对DNA的亲和力明显低于野生型蛋白。此外，染色质免疫沉淀显示N-MycDeltaMBIV在体内与一些靶基因的结合减少，这与反式激活缺陷相关。因此，这个保守结构域在Myc的DNA结合活性中具有意想不到的作用。这些数据还提供了与DNA结合活性调节相关的Myc功能的新分离。

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