REGULATION OF POLYPLOIDY BY CYTIDYLYLTRANSFERASE (CT)

胞苷酰转移酶 (CT) 对多倍体的调控

• 批准号: 2728457
• 负责人: ZHENG CUI
• 金额: $ 23.07万
• 依托单位: WAKE FOREST UNIVERSITY HEALTH SCIENCES
• 依托单位国家: 美国
• 财政年份: 1999
• 资助国家: 美国
• 起止时间: 1999-01-01 至 2002-12-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/2728457
• 关键词: BCL2 gene /protein; DNA replication; cell cycle; cell fusion; cell line; charge coupled device camera; choline; cytosine nucleotides; flow cytometry; gene duplication; gene expression; genetic regulation; lipid biosynthesis; mutant; neoplasm /cancer genetics; nucleotidyltransferase; phosphatidylcholines; phosphorylation; photography; polyploidy; protein structure function; site directed mutagenesis; synchronous cell division; transfection

CTP:phosphocholine cytidylyltransferase (CT) is the rate-limiting enzyme in the CDP-choline pathway for the de novo synthesis of phosphatidylcholine (PC) in the cytoplasm. However over 95 percent of CT is not required for PC synthesis and is present in the nucleus for unknown reasons. Recent studies show that CT also play an important role in the regulation of DNA ploidy. Deficiency of CT can activate the overexpressed B cell lymphoma gene 2 protein (Bcl-2p) to induce the formation of stable and viable tetraploid cells from diplod cells. Expression of CT can suppress the formation of tetraploid cells induced by Bcl-2p. The long-term goal of this proposal is to understand how CT is involved in the regulation of genome duplication. We will test the hypothesis that CT may have a second role, different from catalyzing CDP-choline formation, to regulate the genome duplication. The first specific aim will determine whether this abnormal genome duplication occurs by which one of the following mechanisms: 1) two rounds of DNA synthesis in one cell cycle; 2) failure of mitosis between two S phases or 3) cell fusion between two parental cells. The second specific aim is to determine whether the noncytalytic properties are important for CT to regulate the Bcl-2p-induced genome duplication by studying the CT deletion mutants lacking these properties. The third specific aim will determine whether the catalytic activity for the synthesis of CDP- choline is important for CT in the regulation of genome duplication by studying the inactive CT mutants with point mutation at the catalytic domain. Being active in both PC synthesis and the regulation of genome duplication suggests that CT may coordinate PC synthesis with cell division. The proposed studies will provide insights into 1) the mechanism of polyploidy in cancer cells; 2) the coordination between ploidy control and PC synthesis; 3) a novel role of Bcl-2 in promoting polyploidy. A better understanding of the mechanism that underlines the genome instability in cancer cells will be helpful for designing more efficient strategies of treating cancer.

CTP：磷酸胆碱胞苷酰转移酶（CT）是限速酶 在CDP-胆碱途径中， 磷脂酰胆碱（PC）在细胞质中。 然而，超过95%的 PC合成不需要CT，并且CT存在于细胞核中， 未知的原因。 最近的研究表明，CT也发挥着重要的作用， 在DNA倍性调控中的作用。CT缺乏可激活 过表达B细胞淋巴瘤基因2蛋白（Bcl-2 p）以诱导 从二倍体细胞形成稳定和有活力的四倍体细胞。 CT的表达可抑制诱导的四倍体细胞的形成 Bcl-2P本提案的长期目标是了解CT如何 参与了基因组复制的调控。 我们将测试 假设CT可能有第二种作用，不同于催化 CDP-胆碱形成，调节基因组复制。 第一 具体目标将决定这种异常的基因组复制 通过以下机制之一发生：1）两轮DNA 在一个细胞周期中合成; 2）两个S期之间的有丝分裂失败 或3）两个亲本细胞之间的细胞融合。 第二个具体目标 是为了确定非细胞裂解特性是否对 通过研究CT对Bcl-2 p诱导的基因组复制的调控作用 缺失突变体缺乏这些特性。 第三个具体目标是 确定是否用于合成CDP的催化活性- 胆碱在调节基因组复制中对CT很重要， 研究在催化位点上具有点突变的失活CT突变体， 域 在PC合成和基因组调控中具有活性 重复表明CT可能协调PC合成与细胞 师. 拟议的研究将提供以下方面的见解：1） 癌细胞多倍体的机制; 2）之间的协调 倍性控制和PC合成; 3）Bcl-2在促进细胞增殖中的新作用 多倍性更好地理解强调 癌细胞基因组的不稳定性将有助于设计更多的 治疗癌症的有效策略。