Molecular and Epigenetic Control of Wnt/b-catenin-mediated oncogenesis by KDM4B

KDM4B 对 Wnt/b-catenin 介导的肿瘤发生的分子和表观遗传控制

• 批准号: 9892322
• 负责人: CUN-YU WANG
• 金额: $ 42.85万
• 依托单位: UNIVERSITY OF CALIFORNIA LOS ANGELES
• 依托单位国家: 美国
• 财政年份: 2020
• 资助国家: 美国
• 起止时间: 2020-02-01 至 2025-01-31
• 项目状态: 未结题
• 来源: https://reporter.nih.gov/project-details/9892322
• 关键词: APC gene; ASCL2 gene; Alleles; ApcMin/+ mice; Biological Assay; CCND1 gene; CTNNB1 gene; Cause of Death; Cell Proliferation; Cell physiology; Cells; ChIP-seq; Chemicals; Clinical; Colonic Neoplasms; Colorectal; Colorectal Cancer; Cyclin D1; Development; Drug resistance; Enzymes; Epigenetic Process; Exhibits; Feedback; Gene Activation; Gene Silencing; Genes; Genetic; Genetic Transcription; Growth; Human; Impairment; Individual; Intestines; Knock-out; LGR5 gene; Label; Lead; Lysine; Malignant Neoplasms; Mediating; Methylation; Modeling; Modification; Molecular; Molecular Genetics; Mus; Mutation; Oncogenic; Patient-Focused Outcomes; Pharmacology; Phenotype; Play; Property; Reaction; Recurrence; Reporting; Resistance development; Role; Signal Pathway; Signal Transduction; Small Intestines; Stem Cell Factor; TCF Transcription Factor; Therapeutic; Tumor Stem Cells; Weight Gain; adenoma; base; beta catenin; cancer cell; cancer initiation; cancer stem cell; chemotherapy; colorectal cancer progression; demethylation; drug development; histone demethylase; improved; in vivo; knock-down; mouse model; neoplastic cell; new therapeutic target; novel; novel strategies; novel therapeutics; promoter; public health relevance; recruit; self-renewal; small molecular inhibitor; small molecule inhibitor; stem cell model; stem cells; stem-like cell; transcription factor; transcriptome sequencing; treatment strategy; tumor; tumor growth; tumor initiation; tumorigenesis; tumorigenic; villin

Project Summary/Abstract Abnormal Wnt/β-catenin signaling is associated with various types of human cancers, most notably colorectal cancers (CRCs) due to APC and CTNNB1 (β-catenin) mutations. CRCs are the third most common cancer worldwide and the fourth most common cause of death. Wnt/β-catenin signaling exhibits its oncogenic activities by inducing the expression of Wnt target genes such as CCND1 (Cyclin D1) and MYC (c-Myc) through β-catenin/T cell factor (Tcf)-mediated transcription. Although APC and CTNNB1 mutations play a critical role in human CRC initiation and development, emerging evidence suggests that epigenetic modifications act synergistically in human CRC initiation and development. A small subset of cancer stem cells (CSCs) or cancer initiating cells with the ability to self-renew and maintain the tumor has been isolated from human CRCs. We and others have found that β-catenin/Tcf-mediated transcription is hyperactivated in human colorectal CSCs compared to non-CSC tumor cells. In this application, we identified that lysine-specific demethylase 4B (KDM4B) that erases H3K9me3 marks was highly expressed in human CRCs. The knockdown or pharmacological inhibition of KDM4B in human CRC cells significantly inhibited the expression of Wnt target genes. To explore the functional roles of KDM4B in vivo, we generated Kdm4bflox/flox (Kdm4bf/f) mice that carry conditional Kdm4b alleles. Although the deletion of Kdm4b in mice causes intestinal abnormalities and reduced crypt stem cells, unlike the deletion of β-catenin, we found that mice can tolerate KDM4B deficiency, indicating that targeting KDM4B might provide a safe therapeutic window for the treatment of human CRCs. Consistently, we found that the intestinal deletion of Kdm4b completely inhibited intestinal tumorigenesis in ApcMin/+ mice which develop multiple adenomas in the small intestine due to increased β-catenin/Tcf-mediated transcription. Additionally, we found that KDM4B interacts with the intestinal stem cell transcription factor ASCL2 which serve as a positive feedback to enhance β-catenin/Tcf-mediated transcription. Based on these exciting discoveries, we hypothesize that KDM4B might epigenetically control Wnt/β-catenin-mediated oncogenesis and is required for the tumorigenic potentials of human colorectal CSCs. Using molecular, cellular, genetic and epigenetic approaches, we will determine: 1) Whether the knockout or pharmacological inhibition of KDM4B inhibits CRC tumorigenesis in vivo; 2) Whether KDM4B epigenetically controls tumorigenic potentials and self-renewal of CSCs in human CRCs; 3) How KDM4B epigenetically controls Wnt/β-catenin-mediated transcription and tumorigenesis by erasing H3K9me3. Since histone demethylases are enzymes which can be readily targeted by small molecules inhibitors, novel findings from our studies may lead to develop novel strategies for the treatment of human CRCs and other cancers.

项目概要/摘要 异常的 Wnt/β-连环蛋白信号传导与多种类型的人类癌症相关，尤其是 由 APC 和 CTNNB1（β-连环蛋白）突变引起的结直肠癌 (CRC) 是第三常见的 CRC。 Wnt/β-连环蛋白信号传导显示出其致癌性，是全球第四大常见癌症。 通过诱导 Wnt 靶基因的表达来发挥活性，例如 CCND1 (Cyclin D1) 和 MYC (c-Myc) 尽管 APC 和 CTNNB1 突变在 β-连环蛋白/T 细胞因子 (Tcf) 介导的转录中发挥着关键作用。 人类结直肠癌的发生和发展，新出现的证据表明表观遗传修饰起作用 一小部分癌症干细胞 (CSC) 或癌症在人类 CRC 的发生和发展中发挥协同作用。 我们已经从人类结直肠癌中分离出了具有自我更新和维持肿瘤能力的起始细胞。 其他人发现 β-catenin/Tcf 介导的转录在人类结直肠 CSC 中过度激活 与非 CSC 肿瘤细胞相比，我们鉴定了赖氨酸特异性去甲基化酶 4B (KDM4B)。 消除 H3K9me3 标记的基因在人类 CRC 中高度表达。 抑制人CRC细胞中KDM4B显着抑制Wnt靶基因的表达。 为了研究 KDM4B 在体内的功能作用，我们生成了携带条件 Kdm4b 的 Kdm4bflox/flox (Kdm4bf/f) 小鼠 虽然小鼠中 Kdm4b 的缺失会导致肠道异常和隐窝干细胞减少， 与删除 β-连环蛋白不同，我们发现小鼠可以耐受 KDM4B 缺陷，这表明靶向 我们一致发现，KDM4B 可能为人类 CRC 的治疗提供安全的治疗窗口。 Kdm4b 肠道缺失完全抑制了 ApcMin/+ 小鼠肠道肿瘤的发生 由于 β-catenin/Tcf 介导的转录增加，导致小肠多发性腺瘤。 发现 KDM4B 与肠干细胞转录因子 ASCL2 相互作用，从而发挥积极作用 基于这些令人兴奋的发现，我们通过反馈来增强 β-catenin/Tcf 介导的转录。 KDM4B 可能通过表观遗传方式控制 Wnt/β-catenin 介导的肿瘤发生，并且是 使用分子、细胞、遗传和表观遗传学方法研究人类结直肠癌干细胞的致瘤潜力。 我们将确定： 1) KDM4B 的敲除或药物抑制是否会抑制 CRC 肿瘤发生 体内；2）KDM4B是否通过表观遗传控制人类CSC的致瘤潜力和自我更新 CRC；3) KDM4B 如何通过表观遗传控制 Wnt/β-catenin 介导的转录和肿瘤发生 由于组蛋白去甲基酶是很容易被小分子靶向的酶。 抑制剂，我们研究的新发现可能会导致开发治疗人类结直肠癌的新策略 和其他癌症。