Department of Pharmacology and Experimental Therapeutics, Thomas Jefferson University, Philadelphia, Pennsylvania.
Department of Cancer Biology, Thomas Jefferson University, Philadelphia, Pennsylvania.
Cell Mol Gastroenterol Hepatol. 2022;13(4):1276-1296. doi: 10.1016/j.jcmgh.2021.12.014. Epub 2021 Dec 22.
BACKGROUND & AIMS: Sporadic colorectal cancers arise from initiating mutations in APC, producing oncogenic β-catenin/TCF-dependent transcriptional reprogramming. Similarly, the tumor suppressor axis regulated by the intestinal epithelial receptor GUCY2C is among the earliest pathways silenced in tumorigenesis. Retention of the receptor, but loss of its paracrine ligands, guanylin and uroguanylin, is an evolutionarily conserved feature of colorectal tumors, arising in the earliest dysplastic lesions. Here, we examined a mechanism of GUCY2C ligand transcriptional silencing by β-catenin/TCF signaling.
We performed RNA sequencing analysis of 4 unique conditional human colon cancer cell models of β-catenin/TCF signaling to map the core Wnt-transcriptional program. We then performed a comparative analysis of orthogonal approaches, including luciferase reporters, chromatin immunoprecipitation sequencing, CRISPR/Cas9 (clustered regularly interspaced short palindromic repeats) knockout, and CRISPR epigenome editing, which were cross-validated with human tissue chromatin immunoprecipitation sequencing datasets, to identify functional gene enhancers mediating GUCY2C ligand loss.
RNA sequencing analyses reveal the GUCY2C hormones as 2 of the most sensitive targets of β-catenin/TCF signaling, reflecting transcriptional repression. The GUCY2C hormones share an insulated genomic locus containing a novel locus control region upstream of the guanylin promoter that mediates the coordinated silencing of both genes. Targeting this region with CRISPR epigenome editing reconstituted GUCY2C ligand expression, overcoming gene inactivation by mutant β-catenin/TCF signaling.
These studies reveal DNA elements regulating corepression of GUCY2C ligand transcription by β-catenin/TCF signaling, reflecting a novel pathophysiological step in tumorigenesis. They offer unique genomic strategies that could reestablish hormone expression in the context of canonical oncogenic mutations to reconstitute the GUCY2C axis and oppose transformation.
散发性结直肠癌起源于 APC 中的起始突变,产生致癌β-连环蛋白/TCF 依赖性转录重编程。同样,受肠上皮受体 GUCY2C 调节的肿瘤抑制轴是肿瘤发生中最早沉默的途径之一。保留受体,但丧失其旁分泌配体,即 guanylin 和 uroguanylin,是结直肠肿瘤的一个进化上保守的特征,发生在最早的发育不良病变中。在这里,我们研究了β-连环蛋白/TCF 信号传导对 GUCY2C 配体转录沉默的机制。
我们对 4 种独特的条件性人结肠癌β-连环蛋白/TCF 信号传导细胞模型进行了 RNA 测序分析,以绘制核心 Wnt 转录程序图谱。然后,我们进行了比较分析,包括 luciferase 报告基因、染色质免疫沉淀测序、CRISPR/Cas9(成簇的、规律间隔的短回文重复序列)敲除和 CRISPR 表观基因组编辑,这些方法与人类组织染色质免疫沉淀测序数据集进行了交叉验证,以鉴定介导 GUCY2C 配体丢失的功能性基因增强子。
RNA 测序分析显示,GUCY2C 激素是β-连环蛋白/TCF 信号传导最敏感的靶标之一,反映了转录抑制。GUCY2C 激素共享一个隔离的基因组位置,该位置包含一个位于 guanylin 启动子上游的新型基因座控制区,介导两个基因的协同沉默。使用 CRISPR 表观基因组编辑靶向该区域可重建 GUCY2C 配体表达,克服突变型β-连环蛋白/TCF 信号传导的基因失活。
这些研究揭示了调节β-连环蛋白/TCF 信号传导对 GUCY2C 配体转录共抑制的 DNA 元件,反映了肿瘤发生中的一个新的病理生理步骤。它们提供了独特的基因组策略,可以在典型致癌突变的背景下重新建立激素表达,重建 GUCY2C 轴并反对转化。
Zotero 插件
