病毒疫苗制备用不同核型VERO细胞系在裸鼠体内致癌/致瘤性的系统实验研究

生产疫苗用细胞系可能具有致瘤性,一些常用的细胞系需要检查不同代次有无致癌性。在建立传代细胞种子库与工作库基础上,对研制生产病毒活疫苗所用8株VERO细胞系在219只裸鼠进行了致癌(瘤)实验。本研究结果表明,VERO细胞染色体核型可发生变异,亚四倍体JA株与超二倍体KA株具有强的致癌性,不能用于致弱活病毒疫苗制备,但可替代HeLa细胞系用作恶性肿瘤阳性对照细胞。筛出无致瘤性的YB、dC、M和JB株亚二倍体VERO细胞系,可替代BHK-21细胞用于狂犬病减毒活疫苗制备。VERO细胞系染色体遗传相对稳定。不同代次变化不大。研究发现细胞染色体遗传特征决定致瘤性质并具有种属特异性,不同核型细胞致瘤性不同,细胞染色体数目变异大小和致癌性成正相关,通过体内外交替选育可在裸鼠体内快速选育成功高变异率肿瘤细胞系。高变异率HeLa或VERO细胞系移植于裸鼠可能产生恶性横纹肌样瘤。因此,应当强调疫苗生产用细胞系致瘤性评价的重要性。     

Characterization of chemically and virally transformed variants of Madin-Darby canine kidney (MDCK) epithelial cells

Oncogenic derivatives of Madin-Darby canine kidney (MDCK) cells were isolated in the nude mouse, and nononcogenic anchorage-independent transformants were isolated in vitro following chemical mutagenesis in vitro. These transformed cell lines as well as a Moloney sarcoma virus (MSV) transformed line were characterized with respect to their serum and anchorage requirements, growth rates, final saturation densities, and sensitivities to contact inhibition. None of these in vitro growth characteristics were found to correlate with tumorigenicity in nude mice. One tumorigenic clone, MDCK-T1, was characterized with respect to serum-free growth requirements, cAMP production, and ornithine decarboxylase (ODC) activity. These cells exhibited a significant reduction in the PGE1 requirement for growth, they produced higher levels of cAMP, and they expressed a reduced level of ODC activity relative to the parental MDCK cells. These findings may reflect changes in growth control mechanisms which accompany kidney epithelial cell tumorigenesis and suggest that the study of transformed lines derived in this manner could lead to the identification of in vitro properties which are associated with malignancy.     

Isolation and characterization of four adenovirus type 12-transformed human embryo kidney cell lines.

Four transformed cell lines were established from cultures of human embryo kidney (HEK) cells microinjected or transfected with cloned adenovirus 12 (Ad12) EcoRI-C DNA (0 through 16.5 map units of the left-hand end of the viral genome). Each cell line showed a different growth pattern. Southern blotting demonstrated that all of the cell lines contained Ad12-specific DNA sequences, but in the microinjected isolates these were at a much lower copy number than in the transfected isolate. Two cell lines (Ad12 HEK 1 and 3) appeared to contain tandemly repeated Ad12 EcoRI-C DNA fragments. Immunoprecipitation and Western blotting confirmed that Ad12 early region 1 (E1) proteins were being expressed by all four of the transformed cell lines, but indicated that E1A polypeptide expression was considerably less than E1B polypeptide expression. All of the Ad12-transformed HEK cell lines were tumorigenic when inoculated intracranially into athymic nude mice.     

Tumorigenicity of Vero cells

One of the current criteria for evaluating the acceptability of cell lines for use in vaccine production is lack of tumorigenicity. Vero cells represent an example of a class of cells known as continuous cell lines. They were derived from African green monkey kidney, and their growth properties and culture characteristics have many advantages over other cell substrates for use in vaccine production. We have tested Vero cells for tumorigenicity in nude mice and in a human muscle organ culture system, and found a significant increase in their tumorigenic potential with increasing passage numbers. Cells at passage 232 and higher produced nodules in all nude mice inoculated. Histologically the nodules were well defined, anaplastic tumors, which exhibited some of the characteristics of renal adenocarcinomas. In about 6 to 8 days all of the nodules began to regress. Data were obtained that suggested an immune mechanism was the basis for the regression phenomenon.     

Rapid clearance of intranasally administered DNA from rat tissues

The cold-adapted (ca) live attenuated influenza vaccine (LAIV) strains are manufactured in embryonated hens' eggs. Recently, a clonal isolate from Madin Darby Canine Kidney (MDCK) cells was derived and characterized to assess its utility as a potential cell substrate for the manufacturing of LAIV [1]. Since MDCK cells are a transformed continuous cell line [2], and low levels of residual cellular components (DNA and protein) are found in the intermediates and final filled vaccine, we sought to characterize the uptake and clearance of MDCK DNA from tissues in order to assess theoretical risks associated with manufacturing LAIV in MDCK cell culture.In order to address this concern, MDCK DNA uptake and clearance studies were performed in Sprague Dawley rats. DNA extracted from MDCK Master Cell Bank (MCB) cells was administered via an intranasal (IN) or intramuscular (IM) route. Tissue distribution and clearance of MDCK DNA were then examined in fourteen selected tissue types at selected time points post-administration using a quantitative PCR assay specific for canine (SINE) DNA.Results from these studies demonstrate that the uptake and clearance of MDCK DNA from tissues vary depending on the route of administration. When DNA was administered intranasally, as compared to intramuscularly, detectable DNA levels were lower at all time points. Thus, the intranasal route of vaccine administration appears to reduce potential risk associated with residual host cell DNA that may be present in cell culture produced final vaccine products.     

In vivo or in vitro selection for resistance to natural cytotoxic cell lysis selects for variants with increased tumorigenicity

Experiments were designed to test the hypothesis that transformed cells that are NC sensitive must escape NC activity if they are to grow as tumors in normal individuals. NC-resistant variants were selected either in vivo or in vitro from NC-sensitive cell lines that grow as tumors in immunodeficient mice but not in syngeneic normal mice. The tumorigenicity of cloned NC-resistant variants was compared with the parental cell lines and to cell lines that went through the selection procedure, but after cloning remained NC sensitive. Cloned NC-resistant cell lines derived from tumors that developed in x-irradiated nude mice after the injection of an NC-sensitive cell line are tumorigenic in normal mice, whereas cloned NC-sensitive cell lines derived from the same tumors are unable to grow as tumors in normal mice. Similarly, six of seven NC-resistant cloned cell lines independently isolated after in vitro selection for NC-resistance are tumorigenic in normal mice, whereas cloned NC-sensitive cell lines isolated from the same in vitro selected populations are not tumorigenic in normal mice. Thus, either the in vivo or in vitro selection of NC-resistant cells selects for cells tumorigenic in normal mice; these findings, along with our previous observations that selection for cells tumorigenic in normal mice selects for NC resistance, provide compelling evidence that escape from NC activity is required before some transformed cells can grow as tumors in normal mice.     

Levels of bovine papillomavirus RNA and protein expression correlate with variations in the tumorigenic phenotype of hamster cells.

Three independent cell lines were established from primary cultures of LSH hamster embryo cells infected with bovine papillomavirus type 1 (BPV-1). Although these cell lines differed in their in vitro saturation densities, none was capable of colony formation in soft agar. Interestingly, two cell lines (BPV-HE1 and BPV-HE3) were tumorigenic in nude mice, syngeneic hamsters, and allogeneic hamsters, whereas BPV-HE2 was not. All three cell lines contained similar numbers of the BPV-1 genome (approximately 50 to 200 copies per cell). However, the nontumorigenic BPV-HE2 cell line contained very low levels of BPV-specific RNA and only small amounts of the BPV-1 E5 transforming protein. The efficiency and rate of tumor formation by BPV-HE1 and BPV-HE3 correlated directly with the apparent amount of viral E5 protein. This analysis suggests that there is a threshold level of BPV protein synthesis required for tumorigenicity, there is a continuum of tumorigenic phenotypes which may depend upon the level of BPV protein expression, and BPV-transformed hamster cells can withstand allogeneic transplantation.     

Heterogeneity of the tumorigenic phenotype expressed by Madin-Darby canine kidney cells

The mechanisms by which cells spontaneously immortalized in tissue culture develop the capacity to form tumors in vivo likely embody fundamental processes in neoplastic development. The evolution of Madin-Darby canine kidney (MDCK) cells from presumptively normal kidney cells to immortalized cells that become tumorigenic represents an example of neoplastic development in vitro. Studies of the mechanisms by which spontaneously immortalized cells develop the capacity to form tumors would benefit from quantitative in vivo assays. Most mechanistic correlations are evaluated by using single-dose tumor-induction experiments, which indicate only whether cells are or are not tumorigenic. Here we used quantitative tumorigenicity assays to measure dose-and time-dependent tumor development in nude mice of 3 lots of unmodified MDCK cells. The results revealed lot-to-lot variations in the tumorigenicity of MDCK cells, which were reflected by their tumor-inducing efficiency (threshold cell dose represented by mean tumor-producing dose; log(10) 50% endpoints of 5.2 for vial 1 and 4.4 for vial 2, and a tumor-producing dose of 5.8 for vial 3) and mean tumor latency (vial 1,6.6 wk; vial 2,2.9 wk; and vial 3,3.8 wk). These studies provide a reference for further characterization of the MDCK cell neoplastic phenotype and may be useful in delineating aspects of neoplastic development in vitro that determine tumor-forming capacity. Such data also are useful when considering MDCK cells as a reagent for vaccine manufacture.     

动物细胞系的染色体组型与遗传变异率分析

在建立国内首家犬,猫,猴,鼠传代细胞库,即7种动物肾细胞系（F－81,CRFK,MDCK,Vero,Vero-2,MA-104,BHK-21)的种子库和工作库的基础上,通过细胞染色体组型,G带核型,染色体数目变异率,结构畸变率分析,了解7种细胞系传代培养不同代次的染色体变异情况,以相应的细胞株皮下接种褐 形成肿瘤实验,软琼脂细胞克隆一苦恼经与植物凝集素作用下细胞凝集实验为对照,筛选出无致癌／致瘤性,符合细胞遗传学要求,无传染因子污染的细胞系（F－81,CRFK,Vero,Vero-2)或极低致癌性的MDCK细胞系用于制苗,发现肿瘤细胞系高变异率株可在裸鼠体内快速选育成功,细胞系染色体遗传特征决定致性质并具有种属特异性,得到一些100％成瘤和100％不成瘤的细胞株并了与染色体组型的关系,对于肿瘤的发病机理及实验治疗,都是非常好的模型,一些细胞系不仅成瘤而且还可转移（致恶性横纹肌样瘤的BHK－21和Vero 细胞株）,其他致瘤细胞株只成瘤不转移或不明显转移。     

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.     

人乳头瘤病毒16型E6和E7基因及其突变体转化活性的研究

为筛选出可用于研制HPV治疗性疫苗的HPV16型E6和E7基因突变体,故将HPV16型原型株(德国株)E6和E7基因及其各种突变体分别转染Balb/c3T3细胞,观察转染后的细胞在软琼脂培养中的集落形成能力和在裸鼠体内的成瘤能力.结果表明,单独转染和共转染HPV16野生型E6和E7基因的Balb/c3T3细胞系,在软琼脂中呈集落样生长,并在裸鼠体内成瘤;而转染E6基因突变体mE6(50G)、E7基因的两种突变体mE7-1(24G26G)和mE7-3(24G26G67R)以及共转染mE6和mE7-1的Balb/c3T3细胞,在软琼脂培养中极少形成集落,也不能在裸鼠体内成瘤.提示经结构改造后的HPV16 E6和E7基因已失去了对Balb/c3T3细胞的转化活性,而保留了免疫原性,可用于HPV16相关肿瘤治疗性疫苗的构建.     

Assessing the tumorigenic phenotype of VERO cells in adult and newborn nude mice.

VERO cell lines are important substrates for viral vaccine manufacture. The mechanism by which these cells became neoplastically transformed is unknown. During tissue-culture passage, VERO cells can develop the capacity to form tumors. Although at the passage levels (around p140) currently used for vaccine manufacture, VERO cells are non-tumorigenic, questions have been raised about safety issues that might be associated with this capacity to acquire a tumorigenic phenotype. To begin to address these issues, the tumorigenicity of VERO cell lines, derived at different passage levels under different growth conditions, were evaluated in 365-day assays in adult and newborn nude mice. High passage (p>200) VERO cell lines established by random passaging in tissue culture produced tumors in adult (10 out of 27) mice and newborn (21 out of 30) mice, respectively. In contrast, a high passage (p>250) cell line established by passage at sub-confluence produced tumors only in newborn mice (16 out of 30). Progressively growing tumors began forming at 36 days in newborns and at 69 days in adults. Higher tumor incidences and shorter tumor latencies suggest that newborn nude mice may be more sensitive than adults in detecting the expression of a tumorigenic phenotype by some VERO cell lines.     

Identification of a human chromosome 11 gene which is differentially regulated in tumorigenic and nontumorigenic somatic cell hybrids of HeLa cells.

The tumorigenicity of HeLa cells in nude mice can be suppressed by the addition of a normal human chromosome 11 in somatic cell hybrids. We have attempted to identify specific genes involved in this phenomenon by transfecting a complementary DNA expression library into a tumorigenic HeLa-fibroblast hybrid. A cell line designated F2 was isolated which displayed morphological features of the nontumorigenic hybrids, demonstrated reduced tumorigenicity in nude mice, and showed an 85% reduction in alkaline phosphatase, a consistent marker of the tumorigenic phenotype in these cells. F2 contained a single exogenous complementary DNA, which was recovered by polymerase chain reaction and designated HTS1 because of its potential association with "HeLa tumor suppression." Northern blot studies suggested differential regulation of the HTS1 gene dependent on the tumorigenicity of the cell. In nontumorigenic hybrids, RNA species of 2.8, 3.1, and 4.6 kilobases were identified. In two tumorigenic hybrid lines, the 2.8-kilobase species was markedly reduced or absent. Similarly, three nontumorigenic human keratinocyte lines expressed all three RNA species, whereas several tumorigenic cervical carcinoma cell lines lacked the 2.8-kilobase species. Chromosome localization studies mapped the HTS1 gene to chromosome 11p15, a region of chromosome 11 that is believed to contain a tumor suppressor gene. These findings indicate that HTS1 represents a novel chromosome 11 gene which may be a target of the tumor suppressor gene active in this system.     

Nuclear control of tumorigenicity in cells reconstructed by PEG-induced fusion of cell fragments

The techniques of somatic cell hybridization have provided a valuable means of studying mechanisms of regulation of mammalian cell differentiation and transformation. Most previous studies have indicated that fusions between tumorigenic and nontumorigenic cells result in hybrid cells that are usually tumorigenic. In recent years it has been demonstrated that the phenotypic expression of tumorigenicity is at least partially due to the extensive chromosome loss that occurs in most interspecific and some intraspecific hybrid cells. In the present study we have utilized enucleation techniques that permit cells to be divided into nuclear (karyoplast) and cytoplasmic (cytoplast) cell fragments. Even though these nuclear and cytoplasmic fragments are metabolically stable for short periods of time, in our hands they ultimately degenerate. Viable cells can be reconstructed by PEG-induced fusion of karyoplasts to cytoplasts. Since reconstructed cells apparently do not segregate chromosomes, they may provide a clearer understanding of the interactions between the nucleus and the cytoplasm in the control of the expression of tumorigenicity. We have reconstructed cells using karyoplasts from the tumorigenic Y-1 cell line and cytoplasts from a nontumorigenic cell line, A-MT-BU-A1. In addition we have reconstructed cells containing Y-1 cytoplasts and A-MT-BU-A1 karyoplasts. The reconstructed cells porduced were assayed for tumorigenicity by their ability to grow in soft agar and in nude mice. The results of these experiments indicate that the reconstructed cells containing a tumorigenic nucleus and a nontumorigenic cytoplasm ultimately are tumorigenic and conversely the reconstructed cells containing a nontumorigenic nucleus and a tumorigenic cytoplasm are nontumorigenic. These experiments support the concept that with these cell lines the nucleus (karyoplast) is sufficient to control the phenotypic expression of tumorigenicity.     

Cellular tumorigenicity in nude mice. Test of associations among loss of cell-surface fibronectin, anchorage independence, and tumor-forming ability

Fibronectin (FN; also called large external transformation-sensitive [LETS] protein or cell-surface protein [CSP]) is a large cell-surface glycoprotein that is frequently observed to be either absent or greatly reduced on the surfaces of malignant cells grown in vitro. Because FN may be a useful molecular marker of cellular malignancy, we have carried out an extensive screening to test the specific association among the degree of expression of FN, anchorage-independent growth, and tumorigenicity in the athymic nude mouse. A variety of diploid cell strains and established cell lines were tested for the expression of surface FN by indirect immunofluorescence using rabbit antisera against human cold insoluble globulin, rodent plasma FN, or chicken cell- surface FN. Concomitantly, the cells were assayed for tumor formation in nude mice and for the ability to form colonies in methylcellulose. Tumorigenic cells often showed very low surface fluorescence, confirming earlier reports. However, many highly tumorigenic fibroblast lines from several species stained strongly with all three antisera. In contrast, the anchorage-independent phenotype was nearly always associated with tumorigenicity in approximately 35 cell lines examined in this study. In another series of experiments, FN-positive but anchorage-independent cells were grown as tumors in nude mice and then reintroduced into culture. In five of the six tumor-derived cell lines, cell-surface FN was not significantly reduced; one such cell line showed very little surface FN. Our data thus indicate that the loss of cell-surface FN is not a necessary step in the process of malignant transformation and that the growth of FN-positive cells as tumors does not require a prior selection in vivo for FN-negative subpopulations.     

Tumorigenic transformation of murine keratinocytes by the E5 genes of bovine papillomavirus type 1 and human papillomavirus type 16.

To examine the biological properties of the bovine papillomavirus type 1 (BPV) and human papillomavirus type 16 (HPV16) E5 genes, each was cloned separately into a retroviral expression vector and helper-free recombinant viruses were generated in packaging cell lines. The BPV E5 retroviruses efficiently caused morphologic and tumorigenic transformation of cultured lines of murine fibroblasts, whereas the HPV16 E5 viruses were inactive in these assays. In contrast, infection of the p117 established line of murine epidermal keratinocytes with either the BPV or the HPV16 E5 retrovirus resulted in the generation of tumorigenic cells. Pam212 murine keratinocytes were also transformed to tumorigenicity by the HPV16 E5 gene but not by the gene carrying a frameshift mutation. These results establish that the HPV16 E5 gene is a transforming gene in cells related to its normal host epithelial cells.     

Differential tumorigenicity between Epstein-Barr virus genome-positive and genome-negative cell lines with t(11;14)(q13;q32) derived from mantle cell lymphoma.

Epstein-Barr virus (EBV) genome has been detected in several human lymphoproliferative diseases, but the oncogenic function of EBV is not fully understood. We previously established EBV-positive (SP-50B) and EBV-negative (SP-53) cell lines with the t(11;14)(q13;q32) chromosome abnormality from a single patient with mantle cell lymphoma. Monoclonal EBV DNA in a circular episomal form was demonstrated in the SP-50B cells by Southern blot hybridization with the EBV-terminal fragment probe. SP-50B cells were positive for not only EBV-encoded nuclear antigen-1 (EBNA1) but also latent membrane protein-1 and EBNA2. None of the EBV-encoded proteins was expressed in SP-53 cells. The isogenic EBV-infected and EBV-free cell lines of neoplastic clones made it possible to examine a tumorigenic role of EBV. Only EBV-positive SP-50B cells possessed malignant phenotypes, such as growth ability in low serum, colony formation in soft agarose, and tumorigenicity in nude mice. On the other hand, a lymphoblastoid B-cell line established by infecting the patient's normal B lymphocytes in vitro with exogenous EBV had no tumorigenicity. These results suggested that EBV infection, if it occurred in neoplastic lymphoma cells, could play a role in acquisition of malignant phenotypes.     

Suppression of the maturation and activation of the dendritic cell line DC2.4 by melanoma-derived factors

Dendritic cells play critical roles in both innate and adaptive immunity, and their numerous functions are tightly linked to their maturation and activation status. Here, we characterize the murine dendritic cell line DC2.4 as a model for studying dendritic cell maturation and activation, and we evaluate the influence of melanoma tumor cells on these processes. Exposure of DC2.4 cells to the Toll-like receptor ligand lipopolysaccharide induces both maturation and activation of these cells, characterized by upregulation of costimulatory molecule expression and proinflammatory cytokine/chemokine production. This maturation and activation is suppressed by soluble factors derived from both the highly tumorigenic B16-F1 and the poorly tumorigenic D5.1G4 murine melanoma cell lines. Interestingly, the extent of DC2.4 immunosuppression by these melanomas correlates with their tumorigenicity, suggesting a potentially vital role for dendritic cell/tumor cell interactions in the regulation of anti-tumor immunity and tumor outgrowth.