BUB1 in Chromosomal Instability and Tumorigenesis

BUB1 在染色体不稳定性和肿瘤发生中的作用

• 批准号: 8295681
• 负责人: Jan M. van Deursen
• 金额: $ 29.3万
• 依托单位: MAYO CLINIC ROCHESTER
• 依托单位国家: 美国
• 财政年份: 2007
• 资助国家: 美国
• 起止时间: 2007-04-01 至 2017-04-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8295681
• 关键词: Aneuploidy; Automobile Driving; BUB1 gene; Biological Markers; Breast Cancer Model; Cancer Biology; Cancer Etiology; Cancer Intervention; Cancer Prognosis; Cells; Centromere; Chromosomal Instability; Chromosome Segregation; Chromosomes; Clinical; Data; Defect; Development; Disease Progression; Down-Regulation; Engineering; Gene Mutation; Genes; Goals; Human; Intervention; Kinetochores; Knock-in Mouse; Knowledge; Link; Malignant Neoplasms; Mediating; Microtubules; Mitosis; Mitotic; Mitotic Checkpoint; Modeling; Molecular; Molecular Genetics; Mus; Mutation; Neoplasm Metastasis; Neoplastic Cell Transformation; Oncogenic; Outcome; Pathway interactions; Phosphorylation; Phosphotransferases; Preparation; Prevalence; Preventive; Process; Property; Protein-Serine-Threonine Kinases; Recruitment Activity; Resistance; Role; Series; Sister Chromatid; Testing; Therapeutic; Transgenic Mice; Up-Regulation; aurora B kinase; base; cancer cell; cancer prevention; cancer therapy; cancer type; cohesion; design; inhibitor/antagonist; innovation; mammalian genome; mouse model; mutant mouse model; neoplastic; novel; novel strategies; outcome forecast; overexpression; prevent; segregation; small molecule; trait; tumor; tumorigenesis

DESCRIPTION (provided by applicant): Aneuploidy, an incorrect chromosome number, is a common trait of cancer. However, the genetic defects and molecular mechanisms underlying chromosome instability, and the role of aneuploidy in the etiology of cancer remain poorly understood. Bub1, a mitotic checkpoint gene encoding a multi-functional serine/threonine protein kinase, has emerged as a prominent cancer-associated gene, with both up- and downregulation causing tumors in mice. Although aberrant expression in both directions has been observed in human tumors, the discovery that high Bub1 expression is a biomarker for poor clinical outcome for various tumor types implies that this alteration may be particularly relevant in tumorigenesis. The goal of this application is to determine how mechanistically Bub1 overexpression drives neoplastic transformation, and the extent to which it is causally linked to tumor aggressiveness and metastasis, with the long-term goal to exploit Bub1 or its downstream effectors for preventive and therapeutic purposes. As a first step toward these goals, we engineered two novel Bub1 mouse models, one overexpressing Bub1 and one lacking Bub1 kinase activity. Initial characterization of these models suggests a novel function of Bub1 as a master regulator of Aurora B, a key component of the "attachment error correction machinery" that prevents chromosome missegregation by resolving aberrant microtubule-kinetochore attachments. Our central hypothesis is that increased Bub1 kinase activity drives tumor development and aggressiveness through hyperactivation of Aurora B kinase. Guided by persuasive preliminary data, this hypothesis will be tested by pursuing two specific aims: 1) Determine how mechanistically Bub1 activates Aurora B and the extent to which this mechanism is implicated in tumor development; and 2) Determine the extent to which Bub1 overexpression drives tumor aggressiveness and cooperates with other CIN gene defects. In the first aim, we will use already established and newly designed Bub1 mutant mouse models in combination with small molecule inhibitors of Aurora B to resolve the molecular mechanism by which Bub1 regulates Aurora B, and test whether deregulation of this mechanism is critical for Bub1's oncogenic properties. In the second aim, we will use Bub1 transgenic mice in combination with the Errb2 breast cancer model to test whether Bub1 overexpression is not just a biomarker for poor prognosis but in fact drives tumor invasiveness and metastasis. In addition, we will explore the novel concept that Bub1 overexpression synergizes with other CIN genes that predict poor clinical outcome. The expected overall impact of this project is that it will fundamentally advance our mechanistic understanding of the normal and neoplastic functions of a prominent cancer-causing CIN gene, and provide proof for the novel concepts that CIN gene alterations that predict poor prognosis can drive tumor aggressiveness and synergize with one another. Knowledge from these efforts could be exploited to devise novel strategies for cancer treatment and prevention in addition to conceptually advancing the fields of mitosis and cancer biology. PUBLIC HEALTH RELEVANCE: Cancer cells are characterized by an abnormal number of chromosomes, but the genetic and molecular defects driving this condition and its precise role in the development of cancer remain poorly understood, which is a critical barrier to the development of novel cancer intervention strategies. Our goal is to fill this gap in knowledge through a series of innovative studies of Bub1, a prominent chromosomal instability gene that is overexpressed in various human cancer types and associated with poor clinical prognosis.

描述（由申请人提供）：非整倍性，一种不正确的染色体数目，是癌症的常见特征。然而，染色体不稳定性的遗传缺陷和分子机制，以及非整倍体在癌症病因学中的作用仍然知之甚少。Bub1是一种编码多功能丝氨酸/苏氨酸蛋白激酶的有丝分裂检查点基因，已成为一种突出的癌症相关基因，其上调和下调均可导致小鼠肿瘤。虽然在人类肿瘤中观察到两个方向的异常表达，但Bub1高表达是各种肿瘤类型临床结果不良的生物标志物的发现意味着这种改变可能与肿瘤发生特别相关。本申请的目的是确定Bub1过表达如何在机制上驱动肿瘤转化，以及它与肿瘤侵袭性和转移的因果关系，长期目标是利用Bub1或其下游效应子进行预防和治疗。作为实现这些目标的第一步，我们设计了两种新的Bub1小鼠模型，一种过表达Bub1，另一种缺乏Bub1激酶活性。这些模型的初步表征表明，一个新的功能的Bub1作为一个主调节极光B，一个关键组成部分的"附件错误校正机制"，防止染色体错误分离，解决异常微管动粒附件。我们的中心假设是Bub1激酶活性的增加通过Aurora B激酶的过度激活来驱动肿瘤的发展和侵袭性。在有说服力的初步数据的指导下，这一假设将通过追求两个特定的目标进行测试：1）确定Bub1如何机械地激活Aurora B以及这种机制在肿瘤发展中的程度; 2）确定Bub1过表达驱动肿瘤侵袭性并与其他CIN基因缺陷合作的程度。在第一个目标中，我们将使用已经建立的和新设计的Bub1突变小鼠模型与Aurora B的小分子抑制剂相结合，以解决Bub1调节Aurora B的分子机制，并测试这种机制的失调是否对Bub1的致癌特性至关重要。在第二个目标中，我们将使用Bub1转基因小鼠与Errb2乳腺癌模型组合来测试Bub1过表达是否不仅仅是预后不良的生物标志物，而是实际上驱动肿瘤侵袭和转移。此外，我们还将探讨Bub1过表达与其他CIN基因协同作用的新概念，这些基因可预测不良的临床结局。该项目的预期总体影响是，它将从根本上推进我们对一个突出的致癌CIN基因的正常和肿瘤功能的机械理解，并为预测预后不良的CIN基因改变可以驱动肿瘤侵袭性并相互协同的新概念提供证据。除了在概念上推进有丝分裂和癌症生物学领域外，还可以利用这些努力的知识来设计癌症治疗和预防的新策略。 公共卫生相关性：癌细胞的特征是染色体数目异常，但驱动这种情况的遗传和分子缺陷及其在癌症发展中的确切作用仍然知之甚少，这是开发新型癌症干预策略的关键障碍。我们的目标是通过对Bub1的一系列创新研究来填补这一知识空白，Bub1是一种突出的染色体不稳定基因，在各种人类癌症类型中过表达，并与临床预后不良相关。