Alteration of C-MYB DNA binding to cognate responsive elements in HL-60 variant cells.

Molecular pathology : MP Pub Date : 2002-10-01 DOI:10.1136/mp.55.5.325

C Gaillard, E Le Rouzic, C Créminon, B Perbal

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Abstract

Aims: To establish whether the MYB protein expressed in HL-60 variant cells, which are cells resistant to 12-O-tetradecanoylphorbol-13-acetate (TPA) induced differentiation, is able to bind MYB recognition elements (MREs) involved in the transcriptional regulation of myb target genes. In addition, to determine whether alterations in the binding of the MYB protein to MREs affects HL-60 cell proliferation and differentiation.

Methods: Nuclear extracts of HL-60 variant cells exhibiting different degrees of resistance to TPA induced monocytic differentiation were used in electrophoretic mobility shift experiments (EMSAs), bandshift experiments performed with labelled oliogonucleotides containing the MYB consensus binding sequences.

Results: The MYB protein contained in nuclear extracts from HL-60 variant cells did not bind efficiently to the MYB recognition elements identified in the mim-1 and PR264 promoters. Molecular cloning of the myb gene and analysis of the MYB protein expressed in the HL-60 variant cells established that the lack of binding did not result from a structural alteration of MYB in these cells. The lack of MRE binding did not abrogate the ability of variant HL-60s to proliferate and to undergo differentiation. Furthermore, the expression of the PR264/SC35 splicing factor was not affected as a result of the altered MYB DNA binding activity.

Conclusions: Because the MYB protein expressed in HL-60 variant cells did not appear to be structurally different from the MYB protein expressed in parental HL-60 cells, it is possible that the HL-60 variant cells contain a MYB binding inhibitory factor (MBIF) that interferes with MYB binding on MREs. The increased proliferation rate of HL-60 variant cells and their reduced serum requirement argues against the need for direct MYB binding in the regulation of cell growth.

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HL-60 变异细胞中 C-MYB DNA 与同源反应元件结合的改变

目的：确定对12-O-十四碳酰樟脑酚-13-乙酸酯（TPA）诱导分化具有抗性的HL-60变异细胞中表达的MYB蛋白是否能与参与myb靶基因转录调控的MYB识别元件（MREs）结合。此外，还要确定 MYB 蛋白与 MREs 结合的改变是否会影响 HL-60 细胞的增殖和分化：方法：将对 TPA 诱导的单核细胞分化具有不同程度抵抗力的 HL-60 变异细胞的核提取物用于电泳迁移实验（EMSA），用含有 MYB 共识结合序列的标记偶联核苷酸进行带移实验：结果：HL-60变体细胞核提取物中含有的MYB蛋白不能与mim-1和PR264启动子中的MYB识别元件有效结合。对myb基因的分子克隆和对HL-60变异细胞中表达的MYB蛋白的分析表明，缺乏结合并不是这些细胞中MYB结构改变的结果。缺乏 MRE 结合并没有削弱变异 HL-60 的增殖和分化能力。此外，PR264/SC35剪接因子的表达也没有因为MYB DNA结合活性的改变而受到影响：结论：由于HL-60变异细胞中表达的MYB蛋白在结构上似乎与亲本HL-60细胞中表达的MYB蛋白并无不同，因此HL-60变异细胞中可能含有一种MYB结合抑制因子（MBIF），该因子会干扰MREs上的MYB结合。HL-60 变体细胞增殖率的提高及其对血清需求的减少，证明细胞生长的调节不需要直接的 MYB 结合。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Molecular pathology : MP

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