Lu YuFeng, Goldenberg Inna, Bei Ling, Andrejic Jelena, Eklund Elizabeth A
Fineberg School of Medicine and Robert H. Lurie Comprehensive Cancer Center, Northwestern University, and Chicago Lakeside Veterans Affairs Hospital, Illinois 60611, USA.
J Biol Chem. 2003 Nov 28;278(48):47792-802. doi: 10.1074/jbc.M305885200. Epub 2003 Sep 25.
The homeodomain proteins, HoxA10 and Pbx1a, interact with negative cis elements to repress gene transcription in undifferentiated myeloid cells. The CYBB and NCF2 genes, which encode the gp91PHOX and p67PHOX proteins, are two such HoxA10-Pbx1a target genes. In previous studies, we found that HoxA10-Pbx1a represses transcription of these genes by two mechanisms: competition for DNA binding with transcriptional activators and endogenous repression activity. In these studies, we identify a novel molecular mechanism of endogenous transcriptional repression by HoxA10-Pbx1a. Endogenous repression activity of other Hox-Pbx1a complexes requires recruitment of transcriptional co-repressor proteins by Pbx1a. In contrast, our investigations have determined that HoxA10 has Pbx1a-independent endogenous repression activity. We find that this transcriptional repression activity is abrogated by histone deacetylase inhibitors, suggesting involvement of co-repressor proteins. Consistent with this, we identify HoxA10 amino acids 224-249 as a Pbx1-independent repression domain, which interacts with histone deacetylase 2. We have determined that this HoxA10 domain is not conserved with other Abd Hox proteins, although homology exists with other transcription factors and co-repressors. Understanding the roles different Hox proteins play in myeloid differentiation is a challenging problem. Our results suggest that insight into this problem can be obtained from biochemical characterization of the various molecular mechanisms of Hox protein function.
同源结构域蛋白HoxA10和Pbx1a与负性顺式元件相互作用,以抑制未分化髓系细胞中的基因转录。编码gp91PHOX和p67PHOX蛋白的CYBB和NCF2基因就是这样两个HoxA10 - Pbx1a靶基因。在先前的研究中,我们发现HoxA10 - Pbx1a通过两种机制抑制这些基因的转录:与转录激活因子竞争DNA结合以及内源性抑制活性。在这些研究中,我们确定了HoxA10 - Pbx1a内源性转录抑制的一种新分子机制。其他Hox - Pbx1a复合物的内源性抑制活性需要Pbx1a招募转录共抑制蛋白。相比之下,我们的研究确定HoxA10具有不依赖Pbx1a的内源性抑制活性。我们发现这种转录抑制活性被组蛋白去乙酰化酶抑制剂消除,这表明有共抑制蛋白参与。与此一致的是,我们将HoxA10的224 - 249位氨基酸鉴定为一个不依赖Pbx1的抑制结构域,它与组蛋白去乙酰化酶2相互作用。我们已经确定,这个HoxA10结构域与其他Abd Hox蛋白不保守,尽管与其他转录因子和共抑制蛋白存在同源性。了解不同Hox蛋白在髓系分化中所起的作用是一个具有挑战性的问题。我们的结果表明,通过对Hox蛋白功能的各种分子机制进行生化特征分析,可以深入了解这个问题。
