P15INK4B高表达对人黑色素瘤细胞G1/S进程的阻滞及与MAPK信号相关性之初探

利用TdR-N_2O同步法分别获得P15高表达的MLIK6和表达空载体的MLC2的M期细胞和G_1期细胞,~3H-TdR掺入结果显示,与对照组细胞MLC2相比,实验组细胞MLIK6从G_1期进入S期时间延长2h,并且掺入强度明显减弱,DNA合成被抑制。进一步观察了P15~(INK4B)对G_1/S相关调控蛋白的影响,在M期细胞释放8h(晚G_1期细胞)后,与对照组MLC2细胞相比,实验组MLIK6细胞中CyclinD1,CyclinE,Cdk4,C-Myc蛋白水平均降低。相反,P27~(KIP1)的表达却上升。同时探讨了MAPK信号在P15~(INK4B)阻抑A375细胞G_1/S转换中的作用与相关性,结果显示晚G_1期的MLIK6细胞中ERK1,ERK2水平变化不大,而具有活性的P-ERK1和P-ERK2均表现出下降。上述实验表明,P15~(INK4B)可能通过作用于G_1期相关的周期调节蛋白和抑制ERK1和ERK2活性,阻滞G_1/S转换与抑制DNA合成。     

新基因 P15RS 表达产物在人胃癌细胞细胞周期中定位的研究

P15RS是在p15INK4b高表达的人黑色素瘤细胞MLIK6 G1期中发现和克隆的新基因.研究表明,该基因可能在G1期作为增殖负调因子起作用.为了观察P15RS基因产物在细胞中的定位,构建了表达P15RS-EGFP融合蛋白的真核表达质粒pEGFP-P15RS.用绿色荧光蛋白GFP作为报告基因,以人胃癌细胞BGC-823为实验模型,将pEGFP-P15RS转染BGC-823细胞.实验表明,P15RS基因表达产物在G1期、S期和G2期均定位于细胞核内,未见在核仁中分布,M期凝缩的染色体上未见.因此,P15RS可能定位在核质中.     

Induction of G1 cell cycle arrest and P15INK4b expression by ECRG1 through interaction with Miz-1

ECRG1 is a novel candidate of tumor suppressor gene identified from human esophagus. To study the biological role of ECRG1 gene, we performed a GAL4-based yeast two-hybrid screen of a human fetal liver cDNA library. Using the ECRG1 cDNA as bait, we identified two putative clones as associated proteins, Miz-1 and FLNA (Filamin A). The interaction of ECRG1 and Miz-1 was confirmed by glutathione-S-transferase (GST)-pull-down assays in vitro and co-immunoprecipitation experiments in vivo. ECRG1 was co-localized with Miz-1 in nucleus, as shown by confocal microscopy. Transfection of ECRG1 gene into the esophageal cancer (EC) cells inhibited cell proliferation and induced G1 phase arrest of cell cycle. In the co-transfection of ECRG1 and Miz-1 assays, we found inhibition of cell proliferation and G1/S phase in EC cells, but the levels of cell proliferation inhibition and G1/S phase arrest were more strongly compared with the transfection of ECRG1 or Miz-1 alone. In addition, the interaction of ECRG1 and Miz-1 could induce expression of P15(INK4b) gene in esophageal cancer 9706 (EC9706) cells. However, the transfection of ECRG1 or Miz-1 alone was not revealed the expressions of P15(INK4b) gene. When antisense ECRG1 interdicted expression of endogenous ECRG1 in Balb/c-3T3 cells, Transfection of Miz-1 couldn't induce P15(INK4b) expression. The results provide evidences that ECRG1 and Miz-1 in EC cells may be acting as a co-functional protein associated with regulation of cell cycle and induction of P15(INK4b) expression. It suggests that ECRG1 may inhibit tumor cell growth by affecting cell cycle, and that expression of P15(INK4b) may be likely to enhance G1 cell cycle arrest during the interaction of ECRG1 and Miz-1. The physical interaction of ECRG1 and Miz-1 may play an important role in carcinogenesis of EC.     

Limited overlapping roles of P15(INK4b) and P18(INK4c) cell cycle inhibitors in proliferation and tumorigenesis

Entry of quiescent cells into the cell cycle is driven by the cyclin D-dependent kinases Cdk4 and Cdk6. These kinases are negatively regulated by the INK4 cell cycle inhibitors. We report the generation of mice defective in P15(INK4b) and P18(INK4c). Ablation of these genes, either alone or in combination, does not abrogate cell contact inhibition or senescence of mouse embryo fibroblasts in culture. However, loss of P15(INK4b), but not of P18(INK4c), confers proliferative advantage to these cells and makes them more sensitive to transformation by H-ras oncogenes. In vivo, ablation of P15(INK4b) and P18(INK4c) genes results in lymphoproliferative disorders and tumor formation. Mice lacking P18(INK4c) have deregulated epithelial cell growth leading to the formation of cysts, mostly in the cortical region of the kidneys and the mammary epithelium. Loss of both P15(INK4b) and P18(INK4c) does not result in significantly distinct phenotypic manifestations except for the appearance of cysts in additional tissues. These results indicate that P15(INK4b) and P18(IKN4c) are tumor suppressor proteins that act in different cellular lineages and/or pathways with limited compensatory roles.     

抑制P18^INK4C表达对胃腺癌细胞侵袭的影响

应用基因芯片技术筛选胃腺癌转移相关基因的过程中 ,发现CDK抑制因子 (CKI)P18INK4C在人类胃腺癌转移细胞株RF 4 8中的表达 ,较其原发灶细胞株RF 1明显下调。这提示 ,P18INK4C表达差异与胃腺癌细胞的侵袭转移 ,可能有一定程度的相关性。为此 ,通过反义RNA技术抑制在RF 1中的表达 ,研究其对胃腺癌原发灶细胞体外运动、侵袭转移能力以及生长特性的影响 ,进一步明确P18INK4C与人类胃腺癌侵袭转移之间的关系。结果发现 ,抑制P18INK4C的表达 ,可以使胃腺癌原发灶细胞的体外侵袭能力明显增加 ,抑制前RF 1细胞的体外侵袭能力仅为抑制后的 4 4 %。然而 ,RF 1的细胞周期和生长增殖能力 ,并未因为P18INK4C表达的改变而受到影响。上述结果提示 ,P18INK4C参与人类胃腺癌转移过程 ;在此过程中 ,其主要的作用可能并不是调节细胞周期 ,而是与胃腺癌原发灶细胞侵袭转移能力的调节密切相关。     

增强P18~(INK4C)表达对胃腺癌细胞侵袭的影响(英文)

在应用基因芯片技术筛选胃腺癌转移相关基因的过程中 ,发现CDK抑制因子P18INK4C在人类胃腺癌转移细胞株RF 4 8中的表达较其原发灶细胞株RF 1明显下调 .这提示P18INK4C表达差异与胃腺癌细胞的侵袭转移可能有一定程度的相关性 .通过构建P18INK4C 表达质粒并将其转染入RF 4 8增强P18INK4C的表达 ,研究其对胃腺癌原发灶细胞体外运动、侵袭转移能力以及生长特性的影响 ,进一步明确P18INK4C与人类胃腺癌侵袭转移之间的关系 .结果发现 ,增强P18INK4C表达可以使胃腺癌原发灶细胞的体外侵袭能力明显下降 ,而对RF 4 8的细胞周期和生长增殖能并力未产生影响 .上述结果提示 ,P18INK4C参与人类胃腺癌转移过程 ,在此过程中其主要的作用可能并不是调节细胞周期 ,而是与胃腺癌原发灶细胞侵袭转移能力的调节密切相关 .     

Positive tetracycline control of expression of p15INK4B from an Epstein-Barr autonomous plasmid in a human melanoma cell line

Homozygous deletions in the region of chromosome 9p21 are frequent in human melanoma. Mutations in the p16INK4A cyclin-dependent kinase inhibitor (CDI) gene at this locus have implicated the product of this gene as a tumor suppressor. Less attention has been focused on the homologous, closely linked p15INK4B gene. To facilitate study of the phenotypic effects of restoring expression of the latter in aggressive melanoma cells lacking INK4 expression, we inserted the cDNA encoding p15INK4B into an autonomously maintained plasmid under positive tetracycline control ('TET ON' system). Similarly regulated luciferase and herpes thymidine kinase sequences were used as controls. We demonstrate that this system enabled efficient, and reasonably uniform, induction of p15INK4B expression in a human melanoma cell line exposed to the tetracycline derivative, doxycycline. Flow cytometry showed that this induction resulted in substantial accumulation of cells in the G0/G1 phase of the cell cycle. This system will facilitate detailed analysis of the cell cycle inhibitory mechanisms of this CDI in human melanoma cells.     

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.     

P16^INK4、Rb基因表达在肺癌发生中协调性研究

采用mRNA原位双杂交和免疫组织化学方法对31例非小细胞肺癌组织进行P16^INK、Rb基因、Rb基因表达水平及其相关性的研究。结果显示,以Dig-碱性磷酸酶－NBT／BCIP系统检测P16^INK4基因转录,阳性结果呈蓝色,阴性杂交率为22．6％（7／31）;以Bio－辣根过氧化物酶－AEC系统检测Rb基因转录,阳性结果为红色,阴性率为16．1％（5／31）。免疫组织化学检测显示P16^INK4蛋白质阴性率为42％（13／31）;Rb蛋白表达阴性率为19．4％（6／31）。Rb、P16^INK4基因在非小细胞肺癌发生中起协同调控作用,以P16^INK4基因表达异常为主。     

Identification and sequencing of the Syrian Golden hamster (Mesocricetus auratus) p16(INK4a) and p15(INK4b) cDNAs and their homozygous gene deletion in cheek pouch and pancreatic tumor cells.

Previous studies have shown that the p16(INK4a) tumor suppressor gene is inactivated in up to 98% of human pancreatic cancer specimens and 83% of oral squamous cell carcinomas. Inactivation of the related p15(INK4b) gene has also been identified in a number of tumors and cell lines, however, its role as an independent tumor suppressor remains to be elucidated. Chemically-induced tumors in the Syrian Golden hamster (Mesocricetus auratus) have been shown to be excellent representative models for the comparative development and progression of a number of human malignancies. The purpose of this study was to determine the importance of the p16(INK4a) and p15(INK4b) genes in two experimental hamster models for human pancreatic and oral carcinogenesis. First, hamster p16(INK4a) and p15(INK4b) cDNAs were cloned and sequenced. The hamster p16(INK4a) cDNA open reading frame (ORF) shares 78%, 80%, and 81% identity with the human, mouse, and rat p16(INK4a) sequences, respectively. Similarly, the hamster p15(INK4b) cDNA ORF shares 82% and 89% sequence identity with human and mouse p15(INK4b), respectively. Second, a deletion analysis of hamster p16(INK4a) and p15(INK4b) genes was performed for several tumorigenic and non-tumorigenic hamster cell lines and revealed that both p16(INK4a) and p15(INK4b) were homozygously deleted in a cheek pouch carcinoma cell line (HCPC) and two pancreatic adenocarcinoma cell lines (KL5B, H2T), but not in tissue matched, non-tumorigenic cheek pouch (POT2) or pancreatic (KL5N) cell lines. These data strongly suggest that homozygous deletion of the p16(INK4a) and p15(INK4b) genes plays a prominent role in hamster pancreatic and oral tumorigenesis, as has been well established in correlative studies in comparable human tumors. Furthermore, this study supports the comparative importance of the hamster pancreatic and cheek pouch models of carcinogenesis in subsequent mechanistic-, therapeutic-, and preventive-based studies aimed at providing important translational data applicable to pancreatic adenocarcinoma and oral squamous cell carcinoma in humans.     

Simultaneous knockdown of BRAF and expression of INK4A in melanoma cells leads to potent growth inhibition and apoptosis

Abnormal BRAF and p16INK4A co-exist in 60% of melanomas. BRAF mutation also occurs in 80% of benign nevi where it turns-on p16INK4A resulting in proliferative senescence; loss of p16INK4A removes the inhibitory block leading to melanoma development. Since only melanomas with wild-type BRAF have amplified CDK4 and cyclin D1 genes, p16INK4A-CDK4/6-cyclin D pathway is viewed as linearly downstream of BRAF. Thus, co-occurrence of aberrant BRAF and INK4A may be remnant of changes during melanoma formation without functional significance. To explore this notion, we simultaneously knocked down BRAF (via siRNA) and expressed INK4A cDNA in melanoma cells and observed enhanced growth inhibition. Notably, although each alone had no statistically significant effect on apoptosis, co-expression of BRAF siRNA and INK4A cDNA caused potent apoptosis, which was associated with up-regulation of BIM and down-regulation of BCL2. Our results suggest that aberrant BRAF and INK4A cooperate to promote proliferation and survival of melanoma cells.     

Cellular and molecular evidence for malignancy-inhibitory functions of p15RS

The gene for the INK4 family Cdk inhibitor p15^INK4B is frequently deleted or inactivated in multiple types of human cancers, indicating that p15 is a tumor suppressor. p15RS is a ubiquitously expressed nuclear protein that is positively regulated by p15 and, in turn, inhibits the expression of cyclin D and cyclin E. To determine whether p15RS has malignancy inhibitory functions in addition to its inhibitory effects on cell cycle entry, we ectopically expressed p15RS in metastatic melanoma A375 cells, in which p15 gene is deleted and p15RS expression is dramatically downregulated, and examined the effect on various malignant phenotypes. Here, we report that while the p15RS expression had little effect on cell growth in monolayer cultures, it dramatically inhibited anchorage-independent cell growth in soft agar, a hallmark for malignancy. p15RS expression also inhibited cell migration and invasion, which are key determinants of metastasis. At molecular levels, p15RS expression specifically downregulates the expression of cathepsin B and MMP-9 at RNA levels, which are known to promote cell invasion through degrading extracellular matrix proteins. These results indicate that p15RS has malignancy inhibitory functions independent of cell cycle inhibition and provide novel insights on the role of p15 in tumor inhibition.     

宫颈鳞癌演进过程P16INK4a及Hh-Gli信号通路相关蛋白表达及其相关性研究

探讨P16^INK4a及Sonic hedgehog(Hh-Gli)信号通路蛋白在宫颈癌及癌前病变(CIN)中的表达相关性及其意义．采用Western-blot方法检测HPV16阳性及HPV18阳性宫颈癌细胞系P16^INK4a及Hh-Gli信号通路蛋白Smo、Ptch及Gli表达．免疫组化检测组织芯片P16^INK4a、Shh、Smo、Ptch及Gli表达,包括20例正常宫颈、18例癌旁组织、54例CIN及28例宫颈鳞癌组织．分析P16^INK4a与Hh-Gli信号通路蛋白间表达相关性及与临床病理因素的关系．结果显示P16^INK4a、Smo、Ptch及Gli蛋白在HPV16及HPV18阳性宫颈癌细胞系中表达无显著差异(P>0.05)．P16^INK4a、Shh、Smo、Ptch及Gli蛋白在宫颈癌中表达强度显著高于癌旁及正常组织(P<0.05),在CINⅠ与正常组织间差异不显著(P>0.05)．P16^INK4a、Shh、Smo及Gli蛋白,在CINⅠ、CINⅡ与CINⅢ之间均有显著性差异(P<0.05)．相关分析显示,CINⅡ-CINⅢ中P16^INK4a与Shh和Smo蛋白表达正相关,浸润癌中P16^INK4a与Shh、Smo和Gli蛋白正相关．结论认为,P16^INK4a及Hh-Gli信号通路异常激活与宫颈癌发生及演进密切相关,且二者间具有相关性．Hh-Gli信号通路的激活可能是Shh配体增高调控Smo高表达而上调Gli蛋白所致．