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维甲酸(RA)信号受损会导致RARβ2基因表观遗传沉默和RA耐药。

Impaired retinoic acid (RA) signal leads to RARbeta2 epigenetic silencing and RA resistance.

作者信息

Ren Mingqiang, Pozzi Silvia, Bistulfi Gaia, Somenzi Giulia, Rossetti Stefano, Sacchi Nicoletta

机构信息

Roswell Park Cancer Institute, Elm & Carlton Streets, C&V Bldg., RM 226, Buffalo, NY 14263.

出版信息

Mol Cell Biol. 2005 Dec;25(23):10591-603. doi: 10.1128/MCB.25.23.10591-10603.2005.

DOI:10.1128/MCB.25.23.10591-10603.2005
PMID:16287870
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1291229/
Abstract

Resistance to the growth-inhibitory action of retinoic acid (RA), the bioactive derivative of vitamin A, is common in human tumors. One form of RA resistance has been associated with silencing and hypermethylation of the retinoic acid receptor beta2 gene (RARbeta2), an RA-regulated tumor suppressor gene. The presence of an epigenetically silent RARbeta2 correlates with lack of the RA receptor alpha (RARalpha). Normally, RARalpha regulates RARbeta2 transcription by mediating dynamic changes of RARbeta2 chromatin in the presence and absence of RA. Here we show that interfering with RA signal through RARalpha (which was achieved by use of a dominant-negative RARalpha, by downregulation of RARalpha by RNA interference, and by use of RARalpha antagonists) induces an exacerbation of the repressed chromatin status of RARbeta2 and leads to RARbeta2 transcriptional silencing. Further, we demonstrate that RARbeta2 silencing causes resistance to the growth-inhibitory effect of RA. Apparently, RARbeta2 silencing can also occur in the absence of DNA methylation. Conversely, we demonstrate that restoration of RA signal at a silent RARbeta2 through RARalpha leads to RARbeta2 reactivation. This report provides proof of principle that RARbeta2 silencing and RA resistance are consequent to an impaired integration of RA signal at RARbeta2 chromatin.

摘要

对维生素A的生物活性衍生物视黄酸(RA)的生长抑制作用产生抗性在人类肿瘤中很常见。一种形式的RA抗性与视黄酸受体β2基因(RARβ2)的沉默和高甲基化有关,RARβ2是一种受RA调节的肿瘤抑制基因。表观遗传沉默的RARβ2的存在与视黄酸受体α(RARα)的缺失相关。正常情况下,RARα在有或没有RA的情况下通过介导RARβ2染色质的动态变化来调节RARβ2转录。在这里,我们表明通过RARα干扰RA信号(这是通过使用显性负性RARα、通过RNA干扰下调RARα以及使用RARα拮抗剂来实现的)会导致RARβ2的抑制染色质状态加剧,并导致RARβ2转录沉默。此外,我们证明RARβ2沉默会导致对RA生长抑制作用产生抗性。显然,RARβ2沉默也可能在没有DNA甲基化的情况下发生。相反,我们证明通过RARα在沉默的RARβ2处恢复RA信号会导致RARβ2重新激活。本报告提供了原理证明,即RARβ2沉默和RA抗性是由于RA信号在RARβ2染色质处整合受损所致。

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