细胞周期蛋白依赖性激酶2的功能及其抑制剂的研究

细胞周期蛋白依赖性激酶2(cyclin-dependent kinase 2,CDK2)是CDK家族中的重要成员之一。CDK2的表达或功能异常与多种疾病(如肿瘤、病毒复制与感染、免疫缺陷性疾病和雄性不育等)发生机制密切相关。CDK2抑制剂已成为抗肿瘤药物研发中的一个重要靶点。该文对CDK2在细胞周期调控、细胞增殖、细胞分化、细胞凋亡中的作用机制以及CDK2抑制剂的研发进行综述。     

CDK16在人类癌症中的作用与机制

细胞周期蛋白依赖性激酶16(cyclin-dependent kinase 16,CDK16)是细胞周期蛋白依赖性激酶(cyclin-dependent kinase,CDK)家族中重要的成员之一,参与了一系列生物学过程,包括调控细胞的周期进程、肿瘤转移、凋亡、代谢和自噬等。CDK16在肿瘤的发生发展中起到重要的调控作用,包括肝癌、乳腺癌、肺癌、肠癌等。因此,CDK16在肿瘤早期诊断、预后、靶向治疗等方面具有巨大的临床应用潜力。本文就CDK16在人类癌症中的作用及机制进行综述,并对靶向CDK16在临床的应用展开讨论。     

RB-E2F信号通路与乳腺癌及其治疗

视网膜母细胞瘤基因（retinoblastoma gene, RB1）突变或调节CDK-RB-E2F通路其他成分的突变存在于几乎所有人类恶性肿瘤中。因此,通过抑制细胞周期蛋白激酶（CDK）来实现对细胞周期的调控,在肿瘤治疗中越来越显示出其优势。目前,CDK4/6抑制剂帕博西尼（palbociclib）联合芳香酶抑制剂,治疗ER 阳性乳腺癌是很有效的临床应用。研究显示,CDK-RB-E2F信号通路,对控制乳腺细胞增殖发挥关键作用。近期的研究结果,揭示了该通路在肿瘤发展、血管生成及转移中的作用。并且,E2Fs是不依赖于其他临床参数的乳腺癌预后指标。本综述总结了乳腺癌中RB E2F通路的最新研究进展,并且讨论应用高通量基因组学研究,筛选获得乳腺癌中CDK4/6抑制剂重要的作用靶点,旨在发展更有效的联合治疗手段。     

酵母RNA聚合酶II羧基端结构域激酶CTDK-I及其亚基的结构与功能

RNA聚合酶Ⅱ最大亚基Rpb1的羧基端结构域（carboxyl-terminal repeat domain,CTD）是RNA聚合酶Ⅱ发挥转录延伸功能所必需的,对其执行精确的转录调节功能至关重要。酵母细胞周期蛋白依赖性激酶CTDK-I（carboxyl-terminal repeat domain kinase,CTDK-I）由CTK1、CTK2和CTK3组成,作用于RNA聚合酶Ⅱ羧基端结构域,动态磷酸化CTD的七肽重复序列（YSPTSPS）来调控转录和翻译。酵母中的特异性蛋白CTK3与特殊的细胞周期蛋白CTK2结合形成异二聚体,再与CTDK-I的催化亚基CTK1结合以调节其活性。CTK1作为细胞周期蛋白CDK（cyclin dependent kinase,CDK）的同源蛋白,其结构与功能的研究可拓展人们对CDK蛋白家族的认识;CTK2-CTK3复合物对CTK1调控机制的研究也可为细胞周期蛋白抑制剂的研发提供新的思路。本文简述了酵母CTDK-I的功能特点及其亚基的结构与功能以及亚基间的相互作用,并展望了CTDK-I复合物的研究前景。     

WEE1 激酶及其抑制剂在抗肿瘤治疗中的应用进展

WEE1激酶是一种细胞周期调节蛋白,能调控细胞周期蛋白依赖性激酶1(cyclin-dependent kinase 1,CDK1)的磷酸化状态,从而调节CDK1与细胞周期蛋白B(cyclin B)复合物的活性从而实现对细胞周期的调控,且对DNA损伤检查点具有重要的调节作用。WEE1是G2/M期阻滞的关键基因,起着重要的监测作用,在一些癌症中过表达,抑制或下调WEE1激酶均能引发有丝分裂灾难,因此WEE1激酶抑制剂可能在抗癌治疗中有关键作用。在癌症的治疗过程中,WEE1抑制剂与DNA损伤剂、化学药物等联合使用会得到比单独使用更为有效,且在p53缺失的癌细胞中能发挥更好的效果。目前WEE1已成为许多癌症治疗的关键靶点之一,其抑制剂MK-1775已处于临床研究阶段,且能增强一些DNA损伤剂对p53缺失的癌细胞的杀伤能力。本文就WEE1激酶及其抑制剂在抗癌治疗中的应用作一综述。     

Polo样激酶1抑制剂Rigosertib对细胞放射损伤的防护作用

DNA双链断裂是电离辐射诱发最严重DNA损伤,能启动细胞周期阻滞、修复和死亡系列信号反应,其中周期阻滞是DNA损伤应答的重要过程,为DNA损伤修复提供了充足的时间。周期蛋白依赖性激酶4/6(cyclin-dependent kinase 4/6,CDK4/6)、周期蛋白依赖性激酶1(cyclin-dependent kinase1,CDK1)和Polo样激酶1(Polo-like kinase 1,PLK1)等是细胞周期调控关键激酶,其抑制剂可以阻滞细胞周期进程,是否具有细胞放射防护作用有待进一步探究。本文选择人宫颈癌细胞HeLa、人正常乳腺细胞MCF-10A以及人脐静脉上皮细胞HUVEC为研究对象,研究比较了PLK1抑制剂Rigosertib、Volasertib, CDK4/6抑制剂Palbocilib, CDK1抑制剂Ro-3306的辐射防护作用。流式细胞术检测表明,Rigosertib、Volasertib、Ro-3306将细胞阻滞于G₂期(P<0.05,P<0.01或P<0.001),Palbocilib将细胞阻滞于G₁     

CDK4/6信号通路靶向治疗剂在癌症治疗中的研究进展

多数癌症的发生发展都具有细胞周期高度活化的特性。细胞周期蛋白依赖性激酶4/6 (CDK4/6)不仅在细胞有丝分裂中发挥了巨大作用,而且参与了衰老、凋亡和组蛋白调节等诸多生物学过程,并在多种癌症的发生发展中被异常激活。FDA批准了Palbociclib、Ribociclib和Abemaciclib等3种靶向CDK4/6的抑制剂,在临床上也取得了显著的疗效,有效地延长了内分泌治疗耐药的乳腺癌患者以及其他多种类型癌症患者的生存期。但这些抑制剂的临床应用也面临着获得性耐药等问题。文中综述了CDK4/6参与的生物调控过程,及其抑制剂在癌症治疗中的应用和面临的耐药性挑战。     

CDK2在肿瘤中的非细胞周期功能

细胞周期依赖性激酶(Cyclin-dependent kinases,CDKs)是真核生物细胞周期有序驱动的核心调控子,CDK2作为CDK家族成员,调控细胞周期G1-S期和S-G2期的转变。近年来研究表明,CDK2在哺乳动物细胞周期调控中的作用不是必需的,但与肿瘤发生发展密切相关。CDK2参与调节多种致癌信号通路,其含量或活性失调常常导致肿瘤细胞失控性增殖,影响肿瘤细胞分化、衰老、凋亡、染色体不稳定等多种生物学功能。该文综述了CDK2在肿瘤中的非细胞周期功能。     

周期蛋白和周期蛋白依赖性激酶及相关激酶抑制剂在细胞周期进程中的调控机制研究进展

在细胞发育过程中,细胞周期起着至关重要的作用。细胞周期进程主要受细胞周期蛋白依赖性激酶(cyclin dependent kinase, CDK)、周期蛋白和内源性CDK抑制剂(cyclin-dependent kinase inhibitors,CKI)调控。其中,CDK是主要的细胞周期调节因子,可与周期蛋白结合形成周期蛋白-CDK复合物,从而使数百种底物磷酸化,调控分裂间期和有丝分裂进程。各类细胞周期蛋白的活性异常,可引起不受控制的癌细胞增殖,导致癌症的发生与发展。因此,了解CDK的活性变化情况、周期蛋白-CDK的组装以及CKI的作用,将有助于了解细胞周期进程中潜在的调控过程,为癌症与疾病的治疗和CKI治疗药物的研发提供基础。本文关注了CDK激活和灭活的关键事件,并总结了周期蛋白-CDK在特定时期及位置的调控过程,以及相关CKI治疗药物在癌症及疾病中的研究进展,最后简单阐述了细胞周期进程研究面临的问题和存在的挑战,以期为后续细胞周期进程的深入研究提供参考和思路。     

Fluorescent cyclin-dependent kinase inhibitors block the proliferation of human breast cancer cells

Inhibitors of cyclin-dependent kinases (CDKs) are an emerging class of drugs for the treatment of cancers. CDK inhibitors are currently under evaluation in clinical trials as single agents and as sensitizers in combination with radiation therapy and chemotherapies. Drugs that target CDKs could have important inhibitory effects on cancer cell cycle progression, an extremely important mechanism in the control of cancer cell growth. Using rational drug design, we designed and synthesized fluorescent CDK inhibitors (VMY-1-101 and VMY-1-103) based on a purvalanol B scaffold. The new agents demonstrated more potent CDK inhibitory activity, enhanced induction of G2/M arrest and modest apoptosis as compared to purvalanol B. Intracellular imaging of the CDK inhibitor distribution was performed to reveal drug retention in the cytoplasm of treated breast cancer cells. In human breast cancer tissue, the compounds demonstrated increased binding as compared to the fluorophore. The new fluorescent CDK inhibitors showed undiminished activity in multidrug resistance (MDR) positive breast cancer cells, indicating that they are not a substrate for p-glycoprotein. Fluorescent CDK inhibitors offer potential as novel theranostic agents, combining therapeutic and diagnostic properties in the same molecule.     

Inhibition of CDK1 as a potential therapy for tumors over-expressing MYC

Tumor cells have a dysregulated cell cycle that may render their proliferation especially sensitive to the inhibition of cyclin-dependent kinases (CDKs), important regulators of cell cycle progression. We examined the effects of CDK1 inhibition in the context of different oncogenic signals. Cells transformed with MYC, but not cells transformed by a panel of other activated oncogenes, rapidly underwent apoptosis when treated with small-molecule CDK1 inhibitors. The inhibitor of apoptosis protein BIRC5 (survivin), a known CDK1 target, is required for the survival of cells overexpressing MYC. Inhibition of CDK1 rapidly downregulates survivin expression and induces MYC-dependent apoptosis. CDK1 inhibitor treatment of MYC-dependent mouse lymphoma and hepatoblastoma tumors decreased tumor growth and prolonged their survival. As there are no effective small-molecule inhibitors that selectively target the MYC pathway, we propose that CDK1 inhibition might therefore be useful in the treatment of human malignancies that overexpress MYC.     

Multiple modes of ligand recognition: Crystal structures of cyclin-dependent protein kinase 2 in complex with ATP and two inhibitors,olomoucine and isopentenyladenine

Cyclin-dependent kinases (CDKs) are conserved regulators of the eukaryotic cell cycle with different isoforms controlling specific phases of the cell cycle. Mitogenic or growth inhibitory signals are mediated, respectively, by activation or inhibition of CDKs which phosphorylate proteins associated with the cell cycle. The central role of CDKs in cell cycle regulation makes them a potential new target for inhibitory molecules with anti-proliferative and/or anti-neoplastic effects. We describe the crystal structures of the complexes of CDK2 with a weakly specific CDK inhibitor, N6-(δ2-isopentenyl)adenine, and a strongly specific inhibitor, olomoucine. Both inhibitors are adenine derivatives and bind in the adenine binding pocket of CDK2, but in an unexpected and different orientation from the adenine of the authentic ligand ATP. The N6-benzyl substituent in olomoucine binds outside the conserved binding pocket and is most likely responsible for its specificity. The structural information from the CDK2-olomoucine complex will be useful in directing the search for the next generation inhibitors with improved properties. © 1995 Wiley-Liss, Inc.     

Optimization of 6,6-dimethyl pyrrolo[3,4-c]pyrazoles: Identification of PHA-793887, a potent CDK inhibitor suitable for intravenous dosing

We have recently reported CDK inhibitors based on the 6-substituted pyrrolo[3,4-c]pyrazole core structure. Improvement of inhibitory potency against multiple CDKs, antiproliferative activity against cancer cell lines and optimization of the physico-chemical properties led to the identification of highly potent compounds. Compound 31 (PHA-793887) showed good efficacy in the human ovarian A2780, colon HCT-116 and pancreatic BX-PC3 carcinoma xenograft models and was well tolerated upon daily treatments by iv administration. It was identified as a drug candidate for clinical evaluation in patients with solid tumors.     

Synthesis and structure-activity relationships of novel indirubin derivatives as potent anti-proliferative agents with CDK2 inhibitory activities

Indirubin, an active ingredient of a traditional Chinese recipe Danggui Longhui Wan, has been known as a CDK inhibitor competing with ATP for binding to the catalytic site of cyclin-dependent kinases (CDKs). Since CDKs, a group of serine/threonine kinases forming active heterodimeric complexes with cyclins, are key regulators of the cell cycle regulation, therapeutic interventions targeting CDKs have been stimulated for the treatment of proliferative diseases, such as cancer, psoriasis, and for the prevention of chemotherapy-associated side effects, such as alopecia. A series of novel indirubin analogs was synthesized and evaluated for anti-proliferative and CDK2 inhibitory activities. Among the indirubin derivatives tested in the growth inhibitions against several human cancer cell lines, 5-nitro, halide, and bulky group containing acylamino substituted analogs showed high anti-proliferative effects. Selected analogs showing potent anti-proliferative activities were evaluated further in the CDK2 enzyme assay, which resulted in the discovery of potent CDK2 inhibitors.