The DNA Damage Signaling Pathway Connects Oncogenic Stress to Cellular Senescence

The mechanisms of tumor suppression must be linked to the oncogenic threats that may affect a normal cell. An important cancer causing mechanism is the accidental activation of genes that stimulate cell proliferation (oncogenes) by a variety of endogenous or environmental mutagens. This event has been experimentally modelled by enforcing the expression of oncogenes in primary cells. The astonishing outcome of these manipulations is that oncogenes trigger antiproliferative responses preventing progression to malignant transformation. These responses bring to an end proliferation due to cell death or a permanent cell cycle arrest called senescence. Here we review evidence indicating that oncogene induced senescence (OIS) involves activation of p53 via the DNA damage response (DDR). These results imply mechanisms of DNA damage in cells expressing oncogenes, that may be secondary to reactive oxygen species and/or some form of “oncogenic stress” that affect normal DNA replication. Interestingly, DNA damage signals persist in cells that escape from senescence. The implications of these signals for tumorigenesis are also discussed. Given that DNA damage signals have now been observed in cells treated with any stimuli known to induce senescence, the process can be redefined as a metabolically viable but permanent cell cycle arrest with persistent DNA damage signaling.     

Antisense EDRF1 gene inhibited GATA-1 transcription factor DNA-binding activity in K562 cells

Our previous studies showed that EDRF1 influenced expression of α-globin mRNA and synthesis of hemoglobin in K562 cells and modulated self-renewal of K562 cells. To illuminate the function of EDRF1 in K562 cells, sense and antisense EDRF1 constructs were prepared and transfected into K562 cells. By using microarray and dot blot assay, 60 cytokine receptors and some oncogenes sharing important functions in cell proliferation and differentiation were investigated. The results of this study demonstrated that IL-6 receptor, GM-CSF receptor, c-Jun/c-Fos, c-Myc and c-kit genes were regulated by antisense EDRF1 expression. The regulation was confirmed by RNA blot assay. GATA-1 mRNA expression was modulated by EDRF1 gene transfection. Electrophoretic mobility shift assay suggested that the DNA-binding activity of GATA-1 was remarkably inhibited in K562 cells expressing EDRF1 antisense gene. DNA binding activity of NF-E2 was at the same level as control experiment. Therefore EDRF1 may play a role in erythroid proliferation and differentiation by affecting the interaction between GATA-1 and its cis-elements.     

Inhibition of cervical carcinoma cell line proliferation by the introduction of a bovine papillomavirus regulatory gene.

Human papillomavirus (HPV) E6 and E7 oncogenes are expressed in the great majority of human cervical carcinomas, whereas the viral E2 regulatory gene is usually disrupted in these cancers. To investigate the roles of the papillomavirus E2 genes in the development and maintenance of cervical carcinoma, the bovine papillomavirus (BPV) E2 gene was acutely introduced into cervical carcinoma cell lines by infection with high-titer stocks of simian virus 40-based recombinant viruses. Expression of the BPV E2 protein in HeLa, C-4I, and MS751 cells results in specific inhibition of the expression of the resident HPV type 18 (HPV18) E6 and E7 genes and in inhibition of cell growth. HeLa cells, in which HPV gene expression is nearly completely abolished, undergo a dramatic and rapid inhibition of proliferation, which appears to be largely a consequence of a block in progression from the G1 to the S phase of the cell cycle. Loss of HPV18 gene expression in HeLa cells is also accompanied by a marked increase in the level of the cellular p53 tumor suppressor protein, apparently as a consequence of abrogation of HPV18 E6-mediated destabilization of p53. The proliferation of HT-3 cells, a human cervical carcinoma cell line devoid of detectable HPV DNA, is also inhibited by E2 expression, whereas two other epithelial cell lines that do not contain HPV DNA are not inhibited. Thus, a number of cervical carcinoma cell lines are remarkably sensitive to growth inhibition by the E2 protein. Although BPV E2-mediated inhibition of HPV18 E6 and E7 expression may contribute to growth inhibition in some of the cervical carcinoma cell lines, the BPV E2 protein also appears to exert a growth-inhibitory effect that is independent of its effects on HPV gene expression.     

Establishment of three human breast epithelial cell lines derived from carriers of the 999del5 <Emphasis Type="Italic">BRCA2</Emphasis> icelandic founder mutation

Summary Germ line mutations in BRCA1 and BRCA2 account for a large proportion of inherited breast and ovarian cancer. Both genes are involved in DNA repair by homologous recombination and are thought to play a vital role in maintaining genomic stability. A major drawback for long-term functional studies of BRCA in general and BRCA2 in particular has been a lack of representative human breast epithelial cell lines. In the present study, we have established three cell lines from two patients harboring the 999del5 germ line founder mutation in the BRCA2 gene. Primary cultures were established from cellular outgrowth of explanted tissue and subsequently transfected with a retroviral construct containing the HPV-16 E6 and E7 oncogenes. Paired cancer-derived and normal-derived cell lines were established from one patient referred to as BRCA2-999del5-2T and BRCA2-999del5-2N, respectively. In addition, one cell line was derived from cancer-associated normal tissue from another patient referred to as BRCA2-999del5-1N. All three cell lines showed characteristics of breast epithelial cells as evidenced by expression of breast epithelial specific cytokeratins. Cytogenetic analysis showed marked chromosomal instability with tetraploidy and frequent telomeric association. In conclusion, we have established three breast cpithelial cell lines from two patients carrying the BRCA2 Icelandic 999del5 founder mutation. These cell lines from the basis for further studies on carcinogenesis and malignant progression of breast cancer on a defined genetic background. Agla J. Rubner Fridriksdottir and Thorarinn Gudjonsson contributed equally to this study.     

Influence of Regulatory Genes of Type 1 Human Immunodeficiency Virus on Proliferation and Differentiation of Murine Embryonic Stem Cells

Spontaneous formation of embryoid bodies and subsequent differentiation of some cells into cardiomyocytes were demonstrated on murine embryonic stem cells of R1 line. The lines of embryonic stem cells were obtained that had been transfected with genetic constructs carrying expressing regulatory genes of the human immunodeficiency virus tat and nef and green protein gene (GFP). The transfection of embryonic stem cells with the gene tat stimulated their proliferative activity, while this activity decreased in the cells transfected with the gene nef. The time necessary for the formation of embryoid bodies by all lines of transfected cells was similar to that in the control cells. In the cultures of cells transfected with nef and tat, the number of embryoid bodies and the percentage of embryoid bodies with contracting cardiomyocytes were higher and lower than in the control, respectively. Thus, an inverse correlation was observed between the effects of regulatory genes of the human immunodeficiency virus on proliferation and differentiation embryonic stem cells.     

YY1抑制效应的破坏可促进人乳头瘤病毒16型癌基因的转录

人乳头瘤病毒１６型（ＨＰＶ１６）癌基因的表达受病毒早期启动子Ｐ９７的控制。位于ＬＣＲ上ＹＹ１蛋白结合位点的破坏可明显提高Ｐ９７的活性。为了观测ＹＹ１位点破坏在全基因组范围内对病毒ｅ６／ｅ７基因转录的影响,将构建的带有ＬＣＲ特异性突变的重组ＨＰＶ１６全基因组ＤＮＡ和ＨＰＶ１６野毒株ＤＮＡ转染至培养细胞,同时组建ＨＰＶ１６Ｅ６反向序列ＲＮＡ体外转录质粒。ＲＮａｓｅ保护试验证实,突变ＨＰＶ１６ＤＮＡ在短     

Establishment of human T cell clones exhibiting natural killer-like activity

We have succeeded in establishing a method to reproducibly immortalize human T cells by oncogene(s) transfection (Alam, 1997). This study was based on our previous discoveries that these immortalized T cell lines contained T cells which showed cytotoxicity against K562 cells in MHC-nonrestricted manner. Then we attempted to obtain human T cell clones exhibiting natural killer-like activity. Here, we tried to establish clones from these immortalized T cell lines by limiting dilution after stimulation with K562 cells, and then obtained 16 T cell clones. Two clones among them maintained their stability and showed vigorous growth phenotype. Thus we selected these two clones for further analysis. One is derived from the T cell line transfected with oncogenes ras and fos, the other is from the T cell line transfected with myc and fos. Both clones were demonstrated to be CD4⁺ T cells, indicating that CD4⁺ T cells were preferably expanded from T cell lines immortalized by oncogene transfection. These two clones showed cytotoxicity against K562 cells, indicating that these two T cell clones still retain a natural killer-like activity of killing target cells of K562 cells in a MHC-nonrestricted manner. The natural killer-like activity of the T cell clones was shown to be stable for more than 2 yr when cultured in the presence of IL-2, indicating that introduction of two oncogenes such as ras/fos or myc/fos resulted in the acquisition of infinite replicative life-span but not in transformational alteration of cellular function. This revised version was published online in August 2006 with corrections to the Cover Date.     

Inhibitory Effect of Vaginal Lactobacillus Supernatants on Cervical Cancer Cells

Lactobacilli have been shown to inhibit the proliferation of several types of cancer cells, but the effects of vaginal Lactobacilli on cervical cancer cells have seldom been reported. We incubated Caski cells with supernatants of predominant strains in the vagina and investigated their effects on cell growth and the possible mechanisms. Cell-free supernatants of Lactobacillus crispatus, L. jensenii, and L. gasseri were prepared and purified. Caski cells were treated with various concentrations of Lactobacillus supernatants (LS). The effect of LS on cell growth was investigated using MTT assays. The influence of LS on the cell cycle and expression of human papillomavirus (HPV) E6 and E7 oncogenes was determined by flow cytometry and RT-PCR, respectively. LS-inhibited Caski cell proliferation caused morphological changes in a pH-independent manner. Flow cytometric analysis revealed that cells exposed to LS exhibited a significant increase of cell number in S phase and a strong decrease of cell number in G2/M phase. Expression of HPV E6 and E7 oncogenes, as well as CDK2 and cyclin A was decreased after treatment with LS, while expression of p21 was increased. Supernatants of L. crispatus, L. jensenii, and L. gasseri have inhibitory effects on the viability of cervical cancer cells via regulation of HPV oncogenes and cell cycle-related genes. Lactobacillus, as a promising treatment for cancer, is being assessed for its effect, and these results provide further evidence in this respect.     

HPV-siRNA 对Hela细胞生长抑制作用的实验研究

以HPV18 E6基因为靶位,研究siRNA对宫颈癌Hela细胞生长的抑制作用。设计并合成siRNA,脂质体siNEO FX转染Hela细胞,分别用MTT法,双层软琼脂克隆形成试验和流式细胞术分析了siRNA对Hela细胞体外生长增殖活力、细胞周期分布的作用。siRNA作用后的Hela细胞增殖速度减慢,软琼脂克隆形成率降低,G0/G1期细胞比率增加。HPV18 E6 siRNA能抑制Hela细胞体外生长增殖能力并诱导细胞周期重新分布。     

Efficacy of TRAIL treatment against HPV16 infected cervical cancer cells undergoing senescence following siRNA knockdown of E6/E7 genes

In this study we investigated E6 and E7 oncogenes from the Human Papilloma Virus as targets for siRNA knockdown in order to boost the efficacy of the anti-cancer drug ‘tumor necrosis factor-related apoptosis inducing ligand’ (TRAIL). SiHa cells were treated with TRAIL following transfection with E6/E7 siRNA and the expression of death receptors DR4 and DR5, cell viability, apoptosis, senescence and cell cycle analysis were undertaken using flow cytometry, MTT viability assay and cellular β-galactosidase activity assays. E6/E7 siRNA resulted in significant upregulation of death receptors DR4 and DR5 but did not result in an enhanced sensitivity to TRAIL. Our results indicate that E6/E7-siRNA induces senescence rather than apoptosis in SiHa cells. The occurrence of senescence in drug resistant cervical cancer cells such as the SiHa cell line by E6/E7 siRNA, among other factors, may prevent TRAIL induced activation of extrinsic and intrinsic pathways that lead to apoptotic cell death. Our findings are significant for combinatorial strategies for cancer therapy since the induction of senescence can preclude apoptosis rendering cells to be recalcitrant to TRAIL treatment.     

Repression of the human papillomavirus E6 gene initiates p53-dependent, telomerase-independent senescence and apoptosis in HeLa cervical carcinoma cells

Cervical cancer cells express high-risk human papillomavirus (HPV) E6 and E7 proteins. When both HPV oncogenes are repressed in HeLa cervical carcinoma cells, the dormant p53 and retinoblastoma (Rb) tumor suppressor pathways are activated, and the cells undergo senescence in the absence of apoptosis. When the E6 gene is repressed in cells that continue to express an E7 gene, the p53 pathway, but not the Rb pathway, is activated, and both senescence and apoptosis are triggered. To determine the role of p53 signaling in senescence or apoptosis after repression of HPV oncogenes, we introduced a dominant-negative allele of p53 into HeLa cells. Dominant-negative p53 prevented senescence and apoptosis when E6 alone was repressed but did not inhibit senescence when both E6 and E7 were repressed. To determine whether reduced telomerase activity was involved in senescence or apoptosis after E6 repression, we generated HeLa cells stably expressing an exogenous hTERT gene, which encodes the catalytic subunit of telomerase. Although these cells contained markedly elevated telomerase activity and elongated telomeres, hTERT expression did not prevent senescence and apoptosis when E6 alone was repressed. These results demonstrate that when the Rb tumor suppressor pathway is inactivated by the E7 protein, E6 repression activates p53 signaling, which in turn is required for growth inhibition, senescence, and apoptosis. Thus, sustained inactivation of the p53 pathway by the E6 protein is required for maintenance of the proliferative phenotype of HeLa cervical carcinoma cells.     

时钟基因Bmal1促进血管平滑肌细胞增殖

摘要 目的：观察时钟基因Bmal1的过表达对血管平滑肌细胞增殖的影响,进一步探讨生物节律对于血管发育的具体影响。方法：采用包装GV341-Bmal1载体的慢病毒转染的方法构建大鼠胸主动脉平滑肌细胞（A7R5）稳定转染Bmal1的细胞系,实时定量PCR和细胞爬片Bmal1的免疫荧光染色的方法判断所构建细胞系是否稳定过表达Bmal1,细胞爬片Ki67的免疫荧光染色的方法观察时钟基因Bmal1的过表达对血管平滑肌细胞增殖的影响。结果：实时定量PCR结果显示稳定转染Bmal1组细胞Bmal1的表达是对照组的11.2倍（P<0.01）;细胞爬片的免疫荧光染色结果显示稳定转染Bmal1组细胞BMAL1的表达明显升高（P<0.05）,且稳定转染Bmal1组Ki67阳性细胞比例明显升高（P<0.05）。结论：通过慢病毒转染的方法成功构建了血管平滑肌细胞稳定转染Bmal1的细胞系,细胞片Ki67的免疫荧光染色结果显示Bmal1的过表达促进了血管平滑肌细胞的增殖。     

Lentiviral vector-mediate ATG3 overexpression inhibits growth and promotes apoptosis of human SKM-1 cells

Based on the nested case–control study cohort and gene expression profile, we have picked up a subset of six genes to distinguish the leukemia group and control group stably. ATG3 is the only down regulated gene. This research is to investigate the effect of ATG3 gene over expression by lentivirus on SKM-1 cell line and myelodysplastic syndrome to leukemic transformation. Human SKM-1 cells were transfected with ATG3–GFP recombinant lentiviral vectors and compared with cells transfected with GFP lentiviral vectors. Western blot was performed to detect the ATG3 protein. Cell proliferation was assessed by cell counting kit-8. Cell vitality was tested by Trypan Blue. Cell apoptosis was determined by Annexin V Apoptosis Detection Kit APC. Observe and compare the changes on growth curve, cell vitality and cell apoptosis. After 72 h of transfection, satisfactory transfection efficiency (> 90 %) was observed. SKM-1 cell line showed a statistically significant (P < 0.05) overexpression of ATG3, parallel to significantly (P < 0.05) inhibited cell proliferation. The cell vitality of ATG3 overexpression was significantly (P < 0.05) lower than negative control. Cell apoptosis analysis by flow cytometer demonstrated decreased proportion of early apoptosis and increased that of late apoptosis and death (P < 0.05). Over expressed ATG3 gene and protein, the SKM-1 cell line was inhibited in proliferation and cell vitality. It was promoted from early apoptosis to late apoptosis and death. The malignancy of SKM-1 cell line was decreased after transfection. ATG3 gene and its gene family may play an important role in transformation of myelodysplastic syndrome.     

Transformation of differentiated rat hepatocytes with adenovirus and adenovirus DNA

Primary cultures of hepatocytes isolated by collagenase perfusion of adult rats were transformed by infection with adenovirus type 5 or transfection with adenovirus DNA. Total virion DNA or recombinant plasmid DNA containing the adenovirus E1A and E1B genes transformed hepatocytes at comparable frequencies. No foci of replicating hepatocytes were detected after transfection with a plasmid containing the E1A gene alone. The frequency of transformation by the adenovirus E1A and E1B genes was dependent on the composition of the culture medium. Transformation occurred at a low frequency when the transfected hepatocytes were maintained in a chemically defined medium (CDM), but the frequency was enhanced 8- to 10-fold when the cells were maintained in (i) serum-supplemented medium or (ii) CDM supplemented with epidermal growth factor. Cell lines derived from the adenovirus-transformed colonies of hepatocytes expressed adenovirus E1A and E1B RNAs. When hepatocytes were maintained in CDM supplemented with dimethyl sulfoxide and transfected with plasmids containing the E1A and E1B genes, it was possible to derive cell lines that retained the ability to express several liver-specific genes, including albumin, transferrin, hemopexin, and the third component of complement. The amount of albumin secreted per cell varied from 1 to 5 pg per cell per 24 h, and in one cell line it was below detectable levels by passage 9. Adenovirus-transformed hepatocytes were not tumorigenic when inoculated subcutaneously into neonatal syngeneic rats. We conclude that the adenovirus E1A and E1B genes are capable of transforming adult rat hepatocytes, a differentiated epithelial cell type.     

Immortalization and characterization of mouse floxed Bmp2/4 osteoblasts

Generation of a floxed Bmp2/4 osteoblast cell line is a valuable tool for studying the modulatory effects of Bmp2 and Bmp4 on osteoblast differentiation as well as relevant molecular events. In this study, primary floxed Bmp2/4 mouse osteoblasts were cultured and transfected with simian virus 40 large T-antigen. Transfection was verified by polymerase chain reaction (PCR) and immunohistochemistry. To examine the characteristics of the transfected cells, morphology, proliferation and mineralization were analyzed, expression of cell-specific genes including Runx2, ATF4, Dlx3, Osx, dentin matrix protein 1, bone sialoprotein, osteopontin, osteocalcin, osteonectin and collagen type I was detected. These results show that transfected floxed Bmp2/4 osteoblasts bypassed senescence with a higher proliferation rate, but retain the genotypic and phenotypic characteristics similar to the primary cells. Thus, we for the first time demonstrate the establishment of an immortalized mouse floxed Bmp2/4 osteoblast cell line.     

p21Waf1 is required for cellular senescence but not for cell cycle arrest induced by the HDAC inhibitor sodium butyrate

Cell senescence is characterized by senescent morphology and permanent loss of proliferative potential. HDAC inhibitors (HDACI) induce senescence and/or apoptosis in many types of tumor cells. Here, we studied the role of cyclin-kinase inhibitor p21^waf1(Cdkn1n gene) in cell cycle arrest, senescence markers (cell hypertrophy, SA-bGal staining and accumulation of gH2AX foci) in p21^Waf1+/+ versus p21^Waf1-/- mouse embryonic fibroblast cells transformed with E1A and cHa-Ras oncogenes (mERas). While short treatment with the HDACI sodium butyrate (NaB) induced a reversible G1 cell cycle arrest in both parental and p21^Waf1-/- cells, long-term treatment led to dramatic changes in p21^Waf1+/+ cells only: cell cycle arrest became irreversible and cells become hypertrophic, SA-bGal-positive and accumulated gH2AX foci associated with mTORC1 activation. The p21^Waf1+/+ cells lost their ability to migrate into the wound and through a porous membrane. Suppression of migration was accompanied by accumulation of vinculin-staining focal adhesions and Ser3-phosphorylation of cofilin, incapable for F-actin depolymerization. In contrast, the knockout of the p21^Waf1 abolished most of the features of NaB-induced senescence, including irreversibility of cell cycle arrest, hypertrophy, additional focal adhesions and block of migration, gH2AX foci accumulation and SA-bGal staining. Rapamycin, a specific inhibitor of mTORC1 kinase, decreased cellular hypertrophy, canceled coffilin phosphorylation and partially restored cell migration in p21^Waf1+/+ cells. Taken together, our data indicate a new role of p21^Waf1 in cell senescence, which may be connected not with execution of cell cycle arrest, but also with the development of mTOR-dependent markers of cellular senescence.     

Interferon-β induces cellular senescence in cutaneous human papilloma virus-transformed human keratinocytes by affecting p53 transactivating activity

Interferon (IFN)-β inhibits cell proliferation and affects cell cycle in keratinocytes transformed by both mucosal high risk Human Papilloma Virus (HPV) and cutaneous HPV E6 and E7 proteins. In particular, upon longer IFN-β treatments, cutaneous HPV38 expressing cells undergo senescence. IFN-β appears to induce senescence by upregulating the expression of the tumor suppressor PML, a well known IFN-induced gene. Indeed, experiments in gene silencing via specific siRNAs have shown that PML is essential in the execution of the senescence programme and that both p53 and p21 pathways are involved. IFN-β treatment leads to a modulation of p53 phosphorylation and acetylation status and a reduction in the expression of the p53 dominant negative ΔNp73. These effects allow the recovery of p53 transactivating activity of target genes involved in the control of cell proliferation. Taken together, these studies suggest that signaling through the IFN pathway might play an important role in cellular senescence. This additional understanding of IFN antitumor action and mechanisms influencing tumor responsiveness or resistance appears useful in aiding further promising development of biomolecular strategies in the IFN therapy of cancer.     

The effect of transfection with the oncogenes H-ras and c-myc on the radiosensitivity of a mink epithelial cell line.

We have investigated the effect of transfection with the oncogenes c-myc and H-ras on cellular radiosensitivity. We obtained a mink lung epithelial line, Mv1Lu (ATCC CCL-64), and two sublines which had been transformed by transfection with c-myc and mutated (T24) H-ras 1. The cell survival parameters do not differ significantly between the three lines. These parameters were, for the parent line: D0 = 1.95 Gy, n = 2.0; for the c-myc transfected line: D0 = 2.10 Gy, n = 2.33; and for the H-ras transfected line: D0 = 2.40 Gy, n = 1.77. Although the terminal slope of the survival curve of the cells of the parent line is slightly steeper than that for the cells of either of the transfected lines, the differences are not significant. Nor is there any difference between the cell lines at the clinically relevant dose of 2 Gy. We conclude that neither activated H-ras nor c-myc oncogenes alter the radiosensitivity of the Mv1Lu line.