雄激素受体
前列腺癌
生物
抗雄激素
糖皮质激素受体
串扰
染色质
癌症研究
人口
恩扎鲁胺
雄激素
内分泌学
受体
内科学
细胞生物学
糖皮质激素
癌症
遗传学
医学
激素
基因
物理
光学
环境卫生
作者
Johannes Hiltunen,Laura Helminen,Niina Aaltonen,Kaisa‐Mari Launonen,Hanna M. Laakso,Marjo Malinen,Einari A. Niskanen,Jorma J. Palvimo,Ville Paakinaho
出处
期刊:Genome Research
[Cold Spring Harbor Laboratory Press]
日期:2025-06-02
卷期号:: gr.280224.124-gr.280224.124
标识
DOI:10.1101/gr.280224.124
摘要
Steroid receptors are involved in a wide array of crosstalk mechanisms that regulate diverse biological processes, with significant implications in diseases, particularly in cancers. In prostate cancer, indirect crosstalk between androgen receptor (AR) and glucocorticoid receptor NR3C1 (also known as GR) is well-documented, wherein AR suppression by antiandrogen therapy leads to elevated GR levels, enabling GR to compensate for and replace AR signaling. However, the existence and impact of direct chromatin crosstalk between AR and GR in prostate cancer remain elusive. Our genome-wide investigations reveal that AR activation significantly expands GR chromatin binding. Mechanistically, AR induces remodeling of closed chromatin sites, facilitating GR binding to inaccessible sites. Importantly, coactivation of AR and GR results in distinct transcriptional responses at both the cell population and single-cell levels. Pathways affected by these transcriptional changes are generally associated with improved patient survival. Thus, the direct crosstalk between AR and GR yields markedly different outcomes from the known role of GR in circumventing AR blockade by antiandrogens.
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