小鼠p16^INK4a基因位点的结构和功能研究

p16^INK4a基因的失活与多种肿瘤的发生和发展有联系。通过筛选小鼠基因组文库,获得长度为14.5kb的p16^INK4a基因组DNA片段。对上述14.5kbDNA 测序后进行生物信号学分析表明：该片段包含3个外显子,编码1个由168个氨基酸残基组成的多肽,其相对分子质量的理论计算值为17941,有7个可能的磷酸化位点,说明p16^INK4a蛋白的功能可能受到磷酸化的调控。该DNA片段的非编码区分布着大量短散布元件、长散布元件和简单重复序列,这样的结构为转座和同源重组提供了结构基因,提示了部分肿瘤细胞中p16^INK4a基因缺失的可能原因。对第一外显子离列与巳发表的相应序列比较发现其DNA序列和所编码的多肽存在多态性。     

小鼠胚胎干细胞p16INK4a基因外显子1α打靶研究

在活体水平上 ,小鼠p16 INK4a基因是否具有抑制肿瘤发生和发展的功能是一个悬而未决的问题。利用筛选基因组文库得到的小鼠p16 INK4a基因组DNA片段 ,构建了针对小鼠p16 INK4a 基因外显子 1α的基因打靶载体 ,其短臂为1.5kbEco81Ⅰ AccⅡ片段 ,长臂为 5 .9kbXbaⅠ XhoⅠ片段。打靶载体经线性化和纯化后通过电穿孔转导小鼠R1ES细胞 ,获得 37个G418和Gancyclovir双药抗性克隆。用Southern杂交法对双药抗性克隆进行鉴定 ,获得一个敲除了p16 INK4a基因外显子 1α的阳性ES细胞克隆。     

5-氮胞苷对转化后间充质干细胞增殖、衰老及p16~(INK4a)表达的影响

目的观察5-氮胞苷对体外自发转化的间充质干细胞增殖、衰老及p16INK4a基因表达的影响。方法采用细胞计数、SA-β-gal染色、Western Blot和重硫酸盐修饰后测序(BSP)检测体外自发转化的大鼠间充质干细胞在不同浓度5-氮胞苷处理后增殖、衰老、p16INK4a表达及p16INK4a基因启动子区CpG岛甲基化水平的变化。结果细胞计数显示5-氮胞苷可剂量依赖性地抑制转化后间充质干细胞的增殖,但增殖受抑的细胞SA-β-gal染色仍呈阴性。BSP及Western Blot分析显示:转化后间充质干细胞p16INK4a基因启动子区CpG岛呈现高水平甲基化(87.30±2.39%)。5-氮胞苷可在一定程度上降低该基因的甲基化,使p16INK4a表达得以部分恢复;但即使是高浓度高达100μmol/L,5-氮胞苷也只能使p16INK4a基因甲基化降低到46.20±1.65%。结论 5-氮胞苷可显著抑制转化后间充质干细胞的增殖,但并不能促使这些细胞重新恢复衰老状态;其原因是5-氮胞苷单独作用不足以完全解除p16INK4a基因启动子区DNA的高甲基化。     

小鼠胚胎干细胞p16^INK4a基因外显子1a打靶研究

在活体水平上,小鼠p16^INK4a基因是否具有抑制肿瘤发生和发展的功能是一个悬而未决的问题。利用筛选基因组文库得到的小鼠p16^INK4a基因组DNA片段,构建了针对小鼠p16^INK4a基因外显子1a的基因打靶载体,其短臂为1.5kbEco81 I/AccⅡ片段,长壁为5.9kb Xba I/Xho I片段。打靶载体经线性化和纯化后通过电穿孔转导小鼠R1 ES细胞,获得37个G418和Gancyclovir双药抗性克隆。用Southern杂交法对双药抗性克隆进行鉴定,获得一个敲除了p16^INK4a基因外显子1a的阳性ES细胞克隆。     

外源基因转染导致小鼠体细胞过快衰老 及p16INK4a表达水平变化

对小鼠胎儿成纤维细胞进行外源基因转染时发现, 外源基因转染后的小鼠体细胞染色体端粒的长度以每代47 bp碱基缩短; 在转染后的衰老细胞中, 或细胞随着增龄, p16^INK4a 5′-调控区DNA甲基化程度逐渐降低; 利用RT-PCR与Northern blot证明, 衰老细胞与年轻细胞中的p16^INK4a基因的表达水平存在显著差异, 传代45代的细胞和外源基因转染后的衰老细胞p16^INK4a基因的表达水平大约是原代细胞的12~16倍, 而原代细胞与20代细胞间的差异很小。外源基因转染后的衰老细胞核移植后能支持克隆胚胎的体外早期发育。     

p16INK4a基因的功能及其调控

p16^INK4a蛋白能抑制CDK4和CDK6的活性,使pRb处于非磷酸化或低磷酸化状态而能与转录因子E2Fs结合,从而抑制DNA 的合成,阻止细胞由G1期进入S期.p16^INK4a的表达受Ets1和Ets2的正调控,受Bmi-1的负调控.p16^INK4a基因缺失、突变、甲基化、RNA剪接加工错误可导致细胞周期失控和癌变.应用p16^INK4a对某些肿瘤进行基因治疗的研究正在进行中.     

三氟拉嗪通过诱导p16INK4a抑制BGC-823细胞增殖

为探索三氟拉嗪（trifluoperazine, TFP）抗肿瘤作用机制,对胃癌BGC-823细胞进 行TFP（5、10 μmol/L）处理后,利用计数法、BrdU脉冲标记法、Western印迹等方法从细胞形态、细胞增殖、S期细胞百分比以及相关因子表达水平等方面进行分析. 结果显示,TFP处理后,细胞形态发生明显改变,细胞增殖受到明显抑制且呈时间计量 效应关系;S期细胞比例下降;p16INK4a表达水平升高.为进一步研究TFP诱导 p16INK4a表达的分子机制,本实验采用插入p16INK4a启动子片段及荧光素酶报告系统 的载体pGL3-Basic-p16INK4a（-967~-165 bp）,研究了TFP在转录水平对p16INK4a启 动子活性的影响.结果表明, TFP能够提高p16INK4a的启动子活性.上述结果提示,TFP 通过诱导p16INK4a表达抑制BGC-823细胞增殖.     

细胞衰老的重要通路:p16INK4a/Rb和p19ARF/p53/p21Cip1信号途径

细胞周期蛋白依赖激酶（cyclin-dependent kinase,CDK)抑制因子p16^INK4a,p21^Cipl等是细胞衰老的关键效应物。本文对涉及这些抑制物的两条衰老诱导途径作一综述,它们是p16^INK4a/Rb和p19^ARF/p53/p21^Cipl信号途径。其中,几个抑癌基因的产物R ,16^INFK4a,p53及p19^ARF处于两条途径的核心位置。     

p16INK4a基因的功能及其调控

p16INK4a蛋白能抑制CDK4和CDK6的活性,使pRb处于非磷酸化或低磷酸化状态而能与转录因子E2Fs结合,从而抑制DNA 的合成,阻止细胞由G1期进入S期.p16INK4a的表达受Ets1和Ets2的正调控,受Bmi-1的负调控.p16INK4a基因缺失、突变、甲基化、RNA剪接加工错误可导致细胞周期失控和癌变.应用p16INK4a对某些肿瘤进行基因治疗的研究正在进行中.     

p16INK4a/p19Arf与年龄相关性胰岛β细胞功能

2型糖尿病是一种与年龄密切相关的疾病,随着年龄增加,胰岛β细胞增殖能力和分泌能力下降,糖尿病患病率明显增加,但其机制尚不清楚. 最近研究发现,细胞周期蛋白依赖激酶(cyclin-dependent kinase, CDK)抑制剂p16INK4a是引起胰岛β细胞年龄相关性老化的重要调控因子.研究表明,通过p16INK4a介导的胰岛老化机制可能有如下两个：p38MAPK(mitogen-activated protein kinase)途径和PDGFR(platelet-derived growth factor receptor) 途径,两者均引起p16ink4a及p19ARF表达增加,而损害胰岛细胞增殖.本文综述年龄相关性胰岛β细胞功能下降的潜在机制,从而为改善胰岛β细胞功能提供新的分子靶点.     

p16INK4a deficiency promotes DNA hyper‐replication and genetic instability in melanocytes

Activated oncogenes restrict cell proliferation and transformation by triggering a DNA damage‐dependent senescence checkpoint in response to DNA hyper‐replication. Here, we show that loss of the p16^INK4a cyclin‐dependent kinase inhibitor and melanoma tumour suppressor facilitates a DNA damage response after a hyper‐replicative phase in human melanocytes. Unlike cells expressing activated oncogenes, however, melanocytes depleted for p16^INK4a display enhanced proliferation and an extended replicative lifespan in the presence of replication‐associated DNA damage. Analysis of human benign naevi confirmed that DNA damage and loss of p16^INK4a expression co‐segregate closely. Thus, we propose that loss of p16^INK4a facilitates tumourigenesis by promoting the proliferation of genetically unstable cells.     

p16INK4a在早孕小鼠子宫内膜的表达及其对胚泡着床的影响

本研究旨在检测肿瘤抑制基因p16INK4a(inhibitor of cyclin-dependent kinase 4a)在早孕小鼠子宫内膜中的表达规律,探讨p16INK4a在小鼠胚胎着床过程中的作用.采用荧光定量PCR(FQ-PCR)和免疫组织化学方法分别检测未孕小鼠及孕小鼠第2、3、4、5、7天子宫内膜p16INK4a mRNA和蛋白的表达;子宫角注射p16INK4a抗体观察胚泡着床数.FQ-PCR结果显示孕小鼠子宫内膜组织p16INK4amRNA的表达高于未孕小鼠,且随着妊娠天数的增加呈现表达逐渐增强的趋势,到妊娠第5天达到最高,后渐降.免疫组织化学分析显示p16INK4a蛋白在子宫内膜的表达规律与mRNA结果一致.子宫角注射p16INK4a抗体后胚泡着床数明显减少.以上结果提示,P161INK4a在妊娠早期子宫内膜持续表达,可能参与胚泡着床.     

Prevalence of aberrant methylation of p14ARF over p16INK4a in some human primary tumors

The INK4a/ARF locus encodes two unrelated tumor suppressor proteins, p16INK4a and p14ARF, which participate in the two main cell-cycle control pathways, p16–Rb and p14–p53. Methylation of CpG promoter islands has been described as a mechanism of gene silencing. Exon 1 of the p16INK4a gene and the p14ARF promoter gene reside within CpG islands. Therefore, both can become methylated de novo and silenced. It has recently been proposed that the methylation changes in certain genes could be used as molecular markers for the detection of almost all forms of human cancer. Here, we analyzed concomitantly in each tumor sample and normal tissue the methylation status of p16INK4a and p14ARF by methylation-specific PCR (MSP) in 100 breast, 95 colon and 27 bladder carcinomas. A series of clinicopathological parameter were obtained from the medical records of the patients, p14ARF showed a higher rate of hypermethylation than p16INK4a in all three tumor types. p16INK4a and p14ARF aberrant methylation was significantly correlated with poor prognosis clinicopathological parameters of the three tumor types. We conclude that both p16INKa and p14ARF hypermethylation may be involved in breast, colon and bladder carcinogenesis, with special emphasis on the role of the lesser studied p14ARF gene, and that tumors with aberrant methylation in the two genes were associated with worse prognosis.     

Tumor suppressor INK4: refinement of p16INK4A structure and determination of p15INK4B structure by comparative modeling and NMR data

Within the tumor suppressor protein INK4 (inhibitor of cyclin-dependent kinase 4) family, p15INK4B is the smallest and the only one whose structure has not been determined previously, probably due to the protein's conformational flexibility and instability. In this work, multidimensional NMR studies were performed on this protein. The first tertiary structure was built by comparative modeling with p16INK4A as the template, followed by restrained energy minimization with NMR constraints (NOE and H-bonds). For this purpose, the solution structure of pl6INK4A, whose quality was also limited by similar problems, was refined with additional NMR experiments conducted on an 800 MHz spectrometer and by structure-based iterative NOE assignments. The nonhelical regions showed major improvement with root-mean-square deviation (RMSD) improved from 1.23 to 0.68 A for backbone heavy atoms. The completion of p15INK4B coupled with refinement of p16INK4A made it possible to compare the structures of the four INK4 members in depth, and to compare the structures of p16INK4A in the free form and in the p16INK4A-CDK6 complex. This is an important step toward a comprehensive understanding of the precise functional roles of each INK4 member.     

p16INK4a-induced senescence is disabled by melanoma-associated mutations

The p16(INK4a)-Rb tumour suppressor pathway is required for the initiation and maintenance of cellular senescence, a state of permanent growth arrest that acts as a natural barrier against cancer progression. Senescence can be overcome if the pathway is not fully engaged, and this may occur when p16(INK4a) is inactivated. p16(INK4a) is frequently altered in human cancer and germline mutations affecting p16(INK4a) have been linked to melanoma susceptibility. To characterize the functions of melanoma-associated p16(INK4a) mutations, in terms of promoting proliferative arrest and initiating senescence, we utilized an inducible expression system in a melanoma cell model. We show that wild-type p16(INK4a) promotes rapid cell cycle arrest that leads to a senescence programme characterized by the appearance of chromatin foci, activation of acidic beta-galactosidase activity, p53 independence and Rb dependence. Accumulation of wild-type p16(INK4a) also promoted cell enlargement and extensive vacuolization independent of Rb status. In contrast, the highly penetrant p16(INK4a) variants, R24P and A36P failed to arrest cell proliferation and did not initiate senescence. We also show that overexpression of CDK4, or its homologue CDK6, but not the downstream kinase, CDK2, inhibited the ability of wild-type p16(INK4a) to promote cell cycle arrest and senescence. Our data provide the first evidence that p16(INK4a) can initiate a CDK4/6-dependent autonomous senescence programme that is disabled by inherited melanoma-associated mutations.