CAK 对 RAR{alpha}的磷酸化缺失介导了视黄酸诱导的癌细胞分化的转录控制。

Loss of CAK phosphorylation of RAR{alpha} mediates transcriptional control of retinoid-induced cancer cell differentiation.

机构信息

Department of Pathology, MS# 103, Childrens Hospital Los Angeles, University of Southern California Keck School of Medicine, 4650 Sunset Blvd, Los Angeles, CA 90027, USA.

出版信息

FASEB J. 2010 Mar;24(3):833-43. doi: 10.1096/fj.09-142976. Epub 2009 Nov 16.

DOI:10.1096/fj.09-142976

PMID:19917671

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2830139/

Abstract

Although the role of the classic retinoic acid (RA)-induced genomic pathway in cancer cell differentiation is well recognized, the underlying mechanisms remain to be dissected. Retinoic acid receptor alpha (RARalpha) is a transcription factor activated by RA, and its serine 77 (RARalphaS77) is the main residue phosphorylated by the cyclin-dependent kinase (CDK)-activating kinase (CAK) complex. We report here that in both human myeloid leukemia and mouse embryonic teratocarcinoma stem cells, either RA-suppressed CAK phosphorylation of RARalpha or mutation of RARalphaS77 to alanine (RARalphaS77A) coordinates CAK-dependent G(1) arrest with cancer cell differentiation by transactivating RA-target genes. Both hypophosphorylated RARalpha and RARalphaS77A reduce binding to retinoic acid-responsive elements (RARE) in the promoters of RA-target genes while stimulating gene transcription. The enhanced transactivation and reduced RARalpha-chromatin interaction are accompanied by RARalpha dissociation from the transcriptional repressor N-CoR and are association with the coactivator NCoA-3. Such effects of decreased CAK phosphorylation of RARalphaS77 on mediating RA-dependent transcriptional control of cancer cell differentiation are examined correspondingly in both RA-resistant myeloid leukemia and embryonic teratocarcinoma stem RARalpha(-/-) cells. These studies demonstrate, for the first time, that RA couples G(1) arrest to transcriptional control of cancer cell differentiation by suppressing CAK phosphorylation of RARalpha to release transcriptional repression.-Wang, A., Alimova, I. N., Luo, P. Jong, A., Triche, T. J., Wu, L. Loss of CAK phosphorylation of RARalpha mediates transcriptional control of retinoid-induced cancer cell differentiation.

摘要

虽然经典维甲酸（RA）诱导的基因组途径在癌细胞分化中的作用已得到充分认识，但潜在的机制仍有待剖析。视黄酸受体α（RARα）是一种被 RA 激活的转录因子，其丝氨酸 77（RARαS77）是被细胞周期蛋白依赖性激酶（CDK）激活激酶（CAK）复合物磷酸化的主要残基。我们在此报告，在人髓性白血病和小鼠胚胎畸胎癌干细胞中，无论是 RA 抑制 CAK 对 RARα的磷酸化，还是将 RARαS77 突变为丙氨酸（RARαS77A），通过反式激活 RA 靶基因，都能协调 CAK 依赖性 G1 期阻滞与癌细胞分化。低磷酸化的 RARα和 RARαS77A 均减少了 RA 靶基因启动子中与视黄酸反应元件（RARE）的结合，同时刺激了基因转录。增强的反式激活和 RARα染色质相互作用减少伴随着 RARα与转录抑制因子 N-CoR 的解离，并与共激活因子 NCoA-3 结合。在 RA 耐药性髓性白血病和胚胎畸胎癌干细胞 RARα（-/-）细胞中，相应地检查了 RARαS77 中 CAK 磷酸化减少对介导 RA 依赖性癌细胞分化转录控制的影响。这些研究首次表明，RA 通过抑制 CAK 对 RARα的磷酸化，将 G1 期阻滞与癌细胞分化的转录控制偶联起来，从而释放转录抑制。-Wang, A., Alimova, I. N., Luo, P. Jong, A., Triche, T. J., Wu, L. Loss of CAK phosphorylation of RARα mediates transcriptional control of retinoid-induced cancer cell differentiation.

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