The inter-relationship between anchorage independence and tumorigenicity in early cultures of oral keratinocytes

This study examines the expression of anchorage independence and tumorigenicity in early cultures of oral rat keratinocytes. The epithelial cell lines originated from the palatal and the lingual mucosa of rats that had been painted with the carcinogen 4-nitroquinoline N-oxide. The colony forming efficiency (CFE) in gel culture of the cell lines derived from five squamous cell carcinomas of the tongue and palate predominantly increased with passage in culture. Carcinoma-derived cell lines that had a relatively high CFE (greater than 2.5%) formed tumours when transplanted to athymic mice, but cells in which the CFE was less than 2.5% were non-tumorigenic. Keratinocytes from a dysplastic palatal lesion were immortal, anchorage dependent and non-tumorigenic. A lingual papilloma cell line consistently expressed a very low CFE but was tumorigenic at the higher culture passages. The results show that the routine passage of cells in culture leads to the emergence of the anchorage independent and tumorigenic phenotypes in keratinocytes of malignant origin and, further, suggest that anchorage independence and tumorigenicity may exist as distinct phenotypes, with anchorage independence preceding tumorigenicity.     

Skin fibroblasts from aged Fischer 344 rats undergo similar changes in replicative life span but not immortalization with caloric restriction of donors.

We have compared the in vitro replicative life span and characteristics of immortalization of skin fibroblast cultures derived from ad libitum-fed and caloric-restricted Fischer 344 rats of 6, 24, and 29 months of age. Cells from all 6-, 24-, and 29-month-old animals showed a gradual decline in proliferative potential as evidenced by decreases in harvest density, in the fraction of cells initiating DNA synthesis, and in the number of population doublings per passage. These declines were accompanied by morphological changes including cell enlargement. The replicative life span prior to immortalization decreased significantly with donor age (P less than 0.0001), while caloric restriction had no effect on the cumulative population doubling level. Prior to immortalization mitotic cells from all cultures showed a normal rat karyotype. Postcrisis cultures tended to have more polyploid cells but there were no characteristic or specific chromosomal changes found in the cells with an immortalized phenotype. Interestingly, fibroblasts derived from caloric-restricted animals had a significantly slower growth rate through the tenth week after immortalization (P less than 0.005). When these cultures were seeded at one-quarter the normal seeding density, to favor the outgrowth of the fastest growing cells, a population with a more "transformed" phenotype emerged.     

Loss of robustness and addiction to IGF1 during early keratinocyte transformation by human Papilloma virus 16

Infection of keratinocytes with high risk human Papilloma virus causes immortalization, and when followed by further mutations, leads to cervical cancer and other anogenital tumors. Here we monitor the progressive loss of robustness in an in vitro model of the early stages of transformation that comprises normal keratinocytes and progressive passages of HPV16 immortalized cells. As transformation progresses, the cells acquire higher proliferation rates and gain the ability to grow in soft agar. Concurrently, the cells lose robustness, becoming more sensitive to serum starvation and DNA damage by Cisplatin. Loss of robustness in the course of transformation correlates with significant reductions in the activities of the anti-apoptotic proteins PKB/Akt, Erk, Jnk and p38 both under normal growth conditions and upon stress. In parallel, loss of robustness is manifested by the shrinkage of the number of growth factors that can rescue starving cells from apoptosis, with the emergence of dependence solely on IGF1. Treatment with IGF1 activates PKB/Akt and Jnk and through them inhibits p53, rescuing the cells from starvation. We conclude that transformation in this model induces higher susceptibility of cells to stress due to reduced anti-apoptotic signaling and hyper-activation of p53 upon stress.     

Contributions of differential p53 expression in the spontaneous immortalization of a chicken embryo fibroblast cell line

Background

The present study was carried out to determine whether the p53 pathway played a role in the spontaneous immortalization of the SC-2 chicken embryo fibroblast (CEF) cell line that has been in continuous culture for over three years.

Results

The SC-2 cell line emerged from an extended crisis period with a considerably slower growth rate than primary CEF cells. The phenotype of the SC-2 cells changed dramatically at about passage 80, appearing smaller than at earlier passages (e.g., passage 43) and possessing a small, compact morphology. This morphological change coincided with an increase in growth rate. Passage 43 SC-2 cells expressed undetectable levels of p53 mRNA, but by passage 95, the levels were elevated compared to primary passage 6 CEF cells and similar to levels in senescent CEF cells. However, the high level of p53 mRNA detected in passage 95 SC-2 cells did not correlate to functional protein activity. The expression levels of the p53-regulated p21^WAF1 gene were significantly decreased in all SC-2 passages that were analyzed. Examination of the Rb pathway revealed that E2F-1 and p15^INK4b expression fluctuated with increasing passages, with levels higher in passage 95 SC-2 cells compared to primary passage 6 CEF cells.

Conclusion

The present study suggests that altered expression of genes involved in the p53 and Rb pathways, specifically, p53 and p21^WAF1, may have contributed to the immortalization of the SC-2 CEF cell line.     

Altered growth properties of normal human cells induced by phorbol 12,13-didecanoate

The tumor promoter phorbol 12,13-didecanoate (PDD) significantly altered the growth properties of early passage normal human skin cells in vitro in culture medium supplemented with elevated concentrations of selected amino acids. Continuous treatment of cells with 10(-7) or 10(-8) M PDD resulted in a 5 to 10-fold increase in saturation density at early passages followed by a long-term two- to fourfold increase. The PDD-treated cultures remained in exponential growth at cell densities greater than 10-fold higher than the control cultures. Removal of PDD from the culture medium while the cells were at a high cell density resulted in a return to near-normal saturation density by the subsequent passage. Anchorage independent growth of normal human cells in methylcellulose was also promoted by PDD in a dose dependent manner, with prior subculturing in the presence of PDD being required for maximal colony formation. The structural analog 4 alpha-phorbol 12,13-didecanoate failed to elicit similar cellular responses.     

Chromosome analyses and anchorage-independent growth of SV40-induced morphologically transformed epithelial cells from amniotic fluids

Epithelial cells from amniotic fluid cell cultures are morphologically transformed by simian virus 40, 20 to 30 d after infection. The cells of the transformed colonies are highly basophilic, have a high nuclear-to-cytoplasmic ratio, and show a dense growth pattern. The cells are virus producers, and ultimately, after continuous passage, the cell lines reach a crisis situation with no growth. Twelve morphologically transformed cell colonies were isolated from five different individuals for chromosome analyses after approximately 18 population doublings (second bottle passage). For all cell lines diploid cells were observed. Banding of the chromosomes revealed normal morphology of euchromatic and heterochromatic regions. The suggestion is made that chromosome alteration is not necessary, nor a prerequisite, for the morphologically transformed phenotype to be expressed and that the transformation process per se causes chromosomal instability. Tests for colony formation of the 12 cell lines in semisolid medium showed that different transformed colony isolates from the same individual donor of the cells either formed or did not form colonies in agar. The size of the colonies was also consistent within individuals as compared to between individuals. These limited results are suggestive of a dependence upon the genetic constitution of the individual donor of the cells for colony formation in soft agar.     

Proteomic analysis of the impact of static culturing on the expansion of rat bone marrow mesenchymal stem cells

The clinical potential of mesenchymal stem cells (MSC) in tissue engineering and regenerative medicine is due to their self-renewal, proliferation and multi-lineage differentiation potential. Clinical use requires large cell numbers; which can, theoretically, be generated by ex vivo expansion of plastic adherent, MSC subpopulation, of bone marrow cells (BMC). Effects of serial culture on MSC phenotype were investigated using non-gel based quantitative proteomic methodology for static monolayer cultures of rat BMC. In total, 382 proteins were relatively quantified (≥ 2 peptides). Nine proteins were up-regulated and seven down-regulated at passage 4 relative to passage 2 (p ≤ 0.05). We propose that serial culture impacts on MSC expansion (observed decline in colony forming potential and colony size) is through a combination of osteogenic differentiation and ageing/senescence and propose six novel protein biomarkers as candidates for quality control purposes in bioprocessing.     

Abnormal growth and clonal proliferation of fibroblasts derived from kidneys with interstitial fibrosis

Renal fibroblasts from normal kidneys (NKF cells) and from kidneys with interstitial fibrosis (FKIF cells) were established from biopsy material. In primary and passage 1 cell cultures, the amount of fibroblasts was increased by a factor of 5-10 in cultures derived from kidneys with interstitial fibrosis as compared with cultures of normal origin. As tested by clonal growth and growth kinetic experiments, FKIF cells showed significant alterations in the proliferation capacity and generation time resulting in a hyperproliferative growth in primary and secondary fibroblast cultures in vitro. Two-dimensional gel electrophoresis experiments of [35S]methionine-labeled intracellular polypeptides revealed that FKIF cells express two proteins, p53/6.1 and p48/7.5, that are not present in normal kidney and skin fibroblasts. In addition, as analyzed by two-dimensional gel electrophoresis of medium supernatants of FKIF cells, two secreted proteins specific for FKIF cells could be demonstrated. Cross-feeding experiments using conditioned medium of FKIF cells on cultures of normal human skin fibroblasts (NSF cells) revealed that FKIF cells may secrete proteins into the medium or may modify preexisting serum factors that can induce hyperproliferation in normal dermal fibroblasts. As tested by serial subcultivation and clonal analysis, FKIF cells exert significant changes in the differentiation pattern of potentially mitotic fibroblasts populations.     

A diploid rat liver cell culture

Summary Chronic exposure of a cloned rat hepatocyte culture (RL-PR-C) to a subtoxic, sublethal dose of aflatoxin B₁ resulted in malignant transformation. Continuous exposure to aflatoxin B₁ caused increasing tumorigenic potential as tested by back injection into isogenic animals. Control cultures exhibited spontaneous transformation, although approximately 20 passages beyond the chemically induced event. Neither aflatoxin-treated nor control cultures exhibited cytopathological morphology, formation of cell foci, growth in soft agar, or irregular fibroblast-like growth patterns that could be specifically related to the onset of tumorigenic potential. In general, those parameters commonly used to monitor fibroblast cultures for transformation in vitro were not applicable for assessing the tumorigenic potential of these epithelial cells. Karyotypic analyses revealed no specific chromosomal aberrations associated with aflatoxin treatment; however, chromosomal instability was a property of the tumorigenic cell populations. Injection of both aflatoxin-treated and control cultures at passage 56 resulted in tumors indicative of both carcinoma and sarcoma indicating to us the multipotency of these epithelial cells transformed in vitro.     

Cell-cycle regulation and mammalian gametogenesis: a lesson from the unexpected

The progression of mammalian gametogenesis requires a precise balance between cell-cycle activities and elimination of defective gametogenic cells to ensure the perpetuation of species. Both spermatogonia and oogonia are stem cell populations committed to meiosis with the aim of generating haploid gametes for fertilization. At puberty, mitotically dividing spermatogonial cell cohorts maintain the ability of cell renewal and occupy niches in the seminiferous tubule. In contrast, mitotically dividing oogonial cell cohorts produced in the fetal ovary, are exclusively committed to meiosis and produce primordial follicles housing a primary oocyte surrounded by somatic follicular cells. A consistent physiological event during mammalian gametogenesis is the disposal of spermatogenic cells by apoptosis and ovarian follicles by atresia. Cyclin-dependent kinases (Cdks) and their cyclin partners coordinate the activities of the cell cycle. An additional cell-cycle regulatory component is the centrosome. The centrosome harbors regulatory proteins controlling the normal progression of the cell cycle. Changes in individual centrosome proteins can lead to cell-cycle arrest and a decrease in the genomic protective function of p53 that promotes apoptosis. Disruption of cyclin A1, Cdk2, and Cdk4 expression in transgenic mice results in infertility and gonadal atrophy. Cdk-cyclin complexes interact with regulatory proteins, which may fine-tune the activities of the complex. One of the many regulatory proteins is p12, a 115 amino acid growth suppressor polypeptide designated p12(CDK2AP1), partner of Cdk2 and with binding affinity to DNA polymerase alpha/primase. Overexpression of p12 is associated with testicular and ovarian atrophy without affecting fertility. Ectopic expression of p12 was driven by the keratin 14 promoter. Keratin 14 is the pairing partner of keratin 5 and both keratins are expressed in testis. The efficiency of keratin promoters in driving ectopic gonadal gene expression, the association of gonadal atrophy with the ectopic expression of a Cdk2 regulatory protein and the centrosome, as a reservoir of cell-cycle regulatory proteins, open new experimental opportunities to address still lingering questions concerning cell differentiation and division during mammalian gametogenesis.     

A mathematical model of the effects of hypoxia on the cell-cycle of normal and cancer cells

The evolution of the cell-cycle is known to be influenced by environmental conditions, including lack of extracellular oxygen (hypoxia). Notably, hypoxia appears to have different effects on normal and cancer cells. Whereas both experience hypoxia-induced arrest of the G1 phase of the cell-cycle (i.e. delay in the transition through the restriction point), experimental evidence suggests that only cancer cells undergo hypoxia-induced quiescence (i.e. the transition of the cell to a latent state in which most of the cell functions, including proliferation, are suspended). Here, we extend a model for the cell-cycle due to Tyson and Novak (J. Theor. Biol. 210 (2001) 249) to account for the action of the protein p27. This protein, whose expression is upregulated under hypoxia, inhibits the activation of the cyclin dependent kinases (CDKs), thus preventing DNA synthesis and delaying the normal progression through the cell-cycle. We use a combination of numerical and analytic techniques to study our model. We show that it reproduces many features of the response to hypoxia of normal and cancer cells, as well as generating experimentally testable predictions. For example our model predicts that cancer cells can undergo quiescence by increasing their levels of p27, whereas for normal cells p27 expression decreases when the cellular growth rate increases.     

Chromosome analyses and anchorage-independent growth of SV40-induced morphologically transformed epithelial cells from amniotic fluids

Summary Epithelial cells from amniotic fluid cell cultures are morphologically transformed by simian virus 40, 20 to 30 d after infection. The cells of the transformed colonies are highly basophilic, have a high nuclear-to-cytoplasmic ratio, and show a dense growth pattern. The cells are virus producers, and ultimately, after continuous passage, the cell lines reach a crisis situation with no growth. Twelve morphologically transformed cell colonies were isolated from five different individuals for chromosome analyses after approximately 18 population doublings (second bottle passage). For all cell lines diploid cells were observed. Banding of the chromosomes revealed normal morphology of euchromatic and heterochromatic regions. The suggestion is made that chromosome alteration is not necessary, nor a prerequisite, for the morphologically transformed phenotype to be expressed and that the transformation process per se causes chromosomal instability. Tests for colony formation of the 12 cell lines in semisolid medium showed that different transformed colony isolates from the same individual donor of the cells either formed or did not form colonies in agar. The size of the colonies was also consistent within individuals as compared to between individuals. These limited results are suggestive of a dependence upon the genetic constitution of the individual donor of the cells for colony formation in soft agar. Supported by National Science Foundation Grant PCM77-15876.     

Latent membrane protein 1 of Epstein-Barr virus plays an important role in the serum starvation resistance of Epstein-Barr virus-immortalized B lymphocytes

We have previously shown that SNU-1103, which is a latency type III Epstein-Barr virus (EBV)-transformed lymphoblastoid cell line (LCL) that was developed from a Korean cancer patient, resists serum starvation-induced G(1) arrest. In this study, we examined the role of latent membrane protein-1 (LMP-1) in serum starvation resistance, since LMP-1 is known to be essential for EBV-mediated immortalization of human B lymphocytes. The LMP-1 gene from SNU-1103 was introduced into the EBV-negative BJAB cell line, and shown to be associated with resistance to G(1) arrest during serum starvation. Western blot analyses of the LMP-1-transfected cells revealed several protein alterations as compared to vector-transfected control cells. The expression of key cell-cycle regulatory proteins was affected in the G(1) phase: the expression of cyclin D3, CDK2, p27, and E2F-4 was up-regulated, and the expression of cyclin D2, CDK6, p21, and p103 was down-regulated during serum starvation. These results imply that of the several EBV viral genes expressed in EBV-negative B lymphoma cells, LMP-1 mediates resistance to serum starvation-induced G(1) arrest. However, we cannot rule out the possibility that other EBV genes are also involved in the cell-cycle progression of the EBV-transformed LCL during serum starvation, since the altered protein expression profile of the LMP-1 transfectants was distinct from that of the SNU-1103 cells that expressed all of the EBV viral proteins.     

Changes in adenosine deaminase activity in ageing cultured human cells and the role of zinc

The level of adenosine deaminase (ADA; EC 3.5.4.4) was estimated at different passages in six confluent fibroblast cultures established from forearm skin biopsies of healthy adult normal volunteers. After determination of the zinc concentration in standard growth medium, ADA activity was estimated at different passages of subculture in media with different zinc concentrations. The results indicated that the specific activity of ADA in control confluent skin fibroblast cultures (passage 2) cultivated in standard growth medium containing 15.4 microM zinc (similar to that present in normal human plasma) was equal to 226.6+/-19.64 micromol min(-1) mg(-1) protein. The results showed that there were no significant changes in ADA specific activity in any of the control cultures as the zinc concentration of the medium was increased. To characterize the passage of subculture at which fibroblasts enter the ageing phase, three marker enzymes were assayed namely, phosphofructokinase, lactate dehydrogenase and glycogen phosphorylase. The result showed that the cells enter the ageing phase at passage 20 and beyond. Further investigation showed that ADA activity of serially subcultured confluent cultures cultivated in standard growth medium significantly dropped at passages 20, 25 and 30. ADA activity however was not significantly altered in cells at passage 2, 10 and 15 cultivated in standard growth medium and in the presence of higher zinc levels (23.1, 34.6, 53.8 and 73.1 microM). Furthermore there was significant lowering of ADA activities in cells at passages 20, 25 and 30 when cells were cultured in the presence of 15.4, 23.1 and 34.6 microM zinc. Such lowered activities of ADA were restored to normal when the cells were cultured in the presence of higher zinc concentration equal to 53.8 and 73.1 microM. From the results we concluded that it is possible to restore ADA activity in aged skin fibroblasts to normal levels by raising the zinc concentration in the culture medium to four or five times the control normal plasma zinc level.     

人细胞周期蛋白G2基因真核表达载体构建及其功能研究

构建人cyclin G2基因真核表达载体,进一步研究cyclin G2对体外培养细胞增殖的调节作用及可能的调节机制。以人口腔癌前上皮细胞系POE4总RNA的反转录产物为模板,应用RT-PCR方法克隆cyclin G2基因cDNA,成功构建真核表达载体pIRES -G2;应用脂质体介导的基因转染技术,以体外培养的肿瘤细胞系HeLa细胞和正常细胞系CV-1细胞作为受体细胞,进行转基因表达研究,发现cyclin G2高表达对体外培养细胞的增殖起明显抑制作用;应用p16INK4a、p21WAF1、p27KIP1三种周期蛋白依赖性激酶抑制因子的单克隆抗体对转基因的HeLa细胞进行免疫细胞化学研究,发现转染pIRES-G2的实验组细胞中,p21 WAF1蛋白染色阳性细胞数明显多于转染空载体的对照组,平均光密度值高于对照组,两组间均有显著性差异（p<0.01）,提示cyclin G2抑制细胞增殖作用可能是通过诱导p21WAF1的表达而实现。     

Changes in virulence, M protein and IgG Fc receptor activity in a type 12 group A streptococcal strain during mouse passages

A type 12 group A strain (1800) was passaged serially through mice 25 times. The ability to servive in normal human blood dropped from a growth index of 52 after the first passage to 1 after four passages. After 14 passages the growth index increased again and stabilized above 30. The virulence for mice increased from a LD100 of 10(8) colony forming units (CFU) to 10-100 CFU after 7 passages and then remained constant. The Mqw antigen disappeared after 4 passages as tested by immunodiffusion, electroimmunoassay and indirect bactericidal tests. Three antisera, raised in rabbits against strains originally belonging to types M3, M12 and M46 but devoid of type antigens after mouse passages showed high bactericidal indices against the 1800 strain after 14 or more passages on mice. Anti-type M1 serum was also found bactericidal for the passaged strains. The IgG Fc-receptor activity of the strain isolated after each mouse passage was tested in hemagglutination experiments with human red blood cells coated with "incomplete" anti-Rh and hot hydrochloric acid extracts of the strains. The capacity to agglutinate "Ripley"-coated cells increased gradually during the first 12 passages and subsequently the titres of the extracts stabilized between 1:160 and 1:320. The HUN coat, useful for detection of the G3m (5) maraker gave titraes increasing with the number of passages while the titres for IgG1 coats kept at 1:4 or below. On background of these results, the possible role of the IgG Fc-receptor as a virulence factor is discussed.