Increasing the sensitivity of in vitro transformed hamster embryo cells (STHE strain) to cytolysis by resident and activated macrophages

The sensitivity of low-malignant spontaneously in vitro transformed hamster embryo cells (STHE strain) to cytolysis of both resident and activated macrophages has been examined with cytolytic 3H-thymidine release assay. Activated macrophages were obtained from Syrian hamster peritoneal exudate cells 5 days following priming with 3% thioglycollate-broth and subsequent in vitro activation with proper-myl, levan, LPS, MDP, 1,4-dihydropyridine-derivate PP-256 and PMA. It has been shown that the STHE strain cells were sensitive to cytolysis by only fully activated macrophages. Both resident and non-activated (Thioglycollate-elicited) macrophages have not developed significant levels of the cytolytic activity against STHE cell targets. Short-term treatment of STHE cells with actinomycin D result in augmentation of their sensitivity to cytolysis by resident and activated macrophages.     

The tumorigenicity and metastasis of low-malignancy STHE-strain cells undergoing in vitro selection with peritoneal exudate cells]

We have previously shown that in vitro cocultivation of the low-malignant spontaneously transformed in vitro cells of STHE strain with LPS-activated peritoneal exudate cells (PECa) of normal Syrian hamsters resulted (in contrast to resident PEC (PECr)) in selection of the STHE cell variants resistant to macrophage- and hydrogen peroxide (H2O2)-mediated cytotoxic activity (CTA). In the present study the malignant characteristics, i.e. tumorigenic and metastasizing activities (TGA, MA), of the STHE cell variants in vitro selected with PECa and PECr as well as the parental ones were compared. By the use of quantitative transplantation test the relatively increased level of TGA of the STHE cell variants selected with PECa, especially on the late stages of in vitro selection, has been demonstrated. The increase of the tumour size of transplanted cells was demonstrated after in vitro selection of parental STHE cells with either PECa of PECr. The mean number of spontaneous lung metastases at 60th day after s.c. transplantation of the cell variants selected with PECa and PECr was increased as compared to parental STHE cells, however, as a rule, did not exceed 20-25. The study of experimental MA revealed that only STHE cell variants selected with PECa were able to form significantly larger numbers of experimental lung metastases, what was more expressed after the 4th, 5th and 10th cycles of the selection procedure. Thus, activated REC (mainly macrophages and lymphocytes) are capable to select in vitro tumour cell variants characterized with not only increased resistance to CTA of the macrophages and H2O2, but also more tumorigenic and metastasizing, i.e. more malignant.     

In vitro selection of cell variants resistant to macrophage and hydrogen peroxide cytotoxic activity in spontaneous transformed cells of the STHE strain]

The new cell variants were selected in vitro from the low-malignant Syrian hamster embryo cells (STHE strain) spontaneously transformed in vitro. Ten cycles of in vitro co-cultivation of the parental STHE cells with the normal Syrian hamsters peritoneal exudate cells (PEC) (resident and LPS-activated PEC) used as a selecting agents (PERr, PECa) were performed. The susceptibilities of thus selected STHE cell variants as well as parental STHE cells to macrophage cytotoxicity and H2O2 dagame were tested with 3H-TdR assays. It has been demonstrated that all five STHE cell variants selected in vitro with PECa, in contrast to the parental STHE cells and three STHE cell variants selected with the use of PECr, were significantly more resistant to H2O2-mediated cytotoxicity. The increased resistance was acquired already after the 1-st cycle of the selection procedure. In contrast, only one STHE cell variant selected with PECr appeared to be semiresistant (demonstrated in 4 out of 6 experiments) to H2O2 damage after 10th cycle of in vitro co-cultivation.     

The rate of in vivo selection of highly metastatic and resistance-inhibiting variants of tumor cells

The rate of in vivo selection of tumour cells of STHE strain (spontaneously transformed in vitro hamster embryo cells, previously not selected in vivo) after their intravenous inoculation to normal Syrian hamsters was studied. At different time intervals after inoculation tumour cells were isolated from the lung tissue of individual animals, cultured in vitro and the their metastatic activity (MA) and natural resistance-depressing activity (RDA) were studied. It was demonstrated that selection of highly metastatic variants of tumour cells begins immediately after inoculation; on days 5-6 after inoculation the presence of such variants is observed in the majority of animals. Selection of resistance-depressing variants of tumour cells (determined in a less sensitive test) was first noticed on days 9-10 after inoculation of tumour cells. The correlation between MA and RDA of tumour cells was observed. The data obtained give evidence in favour of preexistence of genetic MA and RDA variants of tumour cells in the original population of tumour cells.     

Production of antitumor cytostatic factors by nonactivated resident macrophages of the peritoneal cavity of Syrian hamsters

The production of soluble cytostatic (CS) factor(s) by nonactivated peritoneal resident macrophages (Mph) of Syrian hamsters was found with the use of susceptible spontaneously transformed in vitro cells of STHE cell strain. The CS factor was determined by two modifications of CS test: 1) incorporation of 3H-TdR to the nuclei of target cells and 2) direct determination of the number of cells in the wells. The selected in vivo highly malignant variant of STHE strain appeared to be resistant to CS factors Mph.     

Alternative production of Bcl-2 and Bax by tumor cells determines the rates of in vivo tumor progression: suggested mechanisms

The hypothesis tested in the study suggests that mechanisms of the earlier described delayed or accelerated tumor progression may be regulated by the antiapoptotic and proapoptotic cellular programs activated in stress reactions of transformed cells to the host normal cellular environment. Therefore, spontaneously transformed hamster cell line STHE, its bcl-2-transduced line STHE-Bcl-2, and 64 of their descendant tumor cell variants naturally selected in two in vivo regimes (local tumor growth versus dissemination) were examined. The role of Bcl-2 and the possible activation of endogenous death-signaling Bax, Ras, and HSP90/HSP70 stress proteins in STHE (Bcl-2+/-) tumor cell variants were studied in dynamics of in vivo tumor progression. The data demonstrate: (1) Immediate in vivo activation of Bax and of HSP90/HSP70 stress proteins in disseminated STHE cells on the background of accelerated tumor progression; (2) No immediate activation of Bax and the gradual downregulation of Bcl-2 in STHE-Bcl-2 cells on the background of delayed tumor progression; (3) Alternative and mutually suppressive character of Bcl-2 and Bax expression in both regimes of tumor progression; (4) In the later stages of tumor progression, the regular transit of the initial Bcl-2 antiapoptotic, Bax-suppressing program, and the delayed tumor progression towards Bcl-2 loss, activation of Bax, and acceleration of tumor progression. Thus, the delay of tumor progression is apparently determined by the ability of Bcl-2-expressing tumor cells to extinguish the cell-damaging environmental stress signals and Bax activation, while its acceleration correlates with Bcl-2 loss, activation of proapoptotic Bax, and tumor cells damage.     

Susceptibility of cells with different stage of malignancy to cytostatic action of resident peritoneal macrophages of Syrian hamsters

Syrian hamster non-activated resident peritoneal cells (PC) and peritoneal macrophages (Mph) was demonstrated. The in vivo selection of highly tumourigenic and highly metastatic variants of this strain correlated with their resistance to CSA PC and Mph in four cell variants out of five examined. The highly tumourigenic Syrian hamster embryo cells in vitro transformed by Rous sarcoma virus were highly resistant to CSA PC without selection in vivo. The resistance of highly malignant cells to CSA PC appeared to be unrelated to their ability to produce immunosuppressing prostaglandins of E type.     

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.     

Tumor growth in vivo selects for resistance to tumor necrosis factor

The relationship between in vivo tumor growth and resistance to TNF in WEHI-164 cells has been examined. When a highly TNF-sensitive clone of WEHI-164 was grown in vivo in syngeneic mice it became resistant to rTNF such that a 4 to 5 log higher concentration of TNF was required to produce tumor lysis in vitro. When compared with an in vitro selected TNF-resistant variant, the in vivo selected line was significantly more tumorigenic. The resistant phenotype of both the in vivo and in vitro selected variants was stable in culture and both selected lines were also resistant to lysis by syngeneic spleen cells with natural cytotoxic activity. The parental clone and the two variants were equally sensitive to lysis by allo-CTL and expressed similar levels of MHC class I Ag. Resistance to TNF in the two variants was not a function of de novo production of TNF measured as supernatant TNF activity or TNF mRNA expression. These studies are the first to demonstrate that in vivo tumor growth results in resistance to TNF and therefore may have direct relevance to the efficacy of TNF in the treatment of human neoplasms.     

Evidence for the involvement of cytolytic macrophages in rejection of SV40-induced tumors

The potential role of cytolytic macrophages in in vivo resistance to tumors induced by simian virus 40 (SV40) was evaluated in two experimental systems. First, a cell line produced by sequential in vivo passage of SV40-transformed fibroblasts through syngeneic C3H/HeJ mice was found to develop both increased neoplastic character and resistance to macrophage-mediated lysis, suggesting in vivo selection pressure against the macrophage-sensitive phenotype. In the second approach, SV40-transformed cells from C3H.OL mice, a strain that fails to produce SV40-specific cytolytic T lymphocytes (CTL), were cloned, and the cloned cells were tested for susceptibility to macrophage cytolysis in vitro. Two clones SV-COL-E8 and SV-COL-F5, which represent the extremes of macrophage susceptibility and resistance, respectively, were tested for progressive growth in syngeneic C3H.OL recipients. Progression in vivo was found to correlate with resistance to macrophage cytolysis in vitro. Other in vitro measures of the neoplastic phenotype, cell division rate and anchorage-independent growth, did not predict the relative abilities of clones E8 and F5 to form tumors. Likewise, the cells were indistinguishable in their sensitivity to cytolysis by allogeneic CTL and by natural killer cells. Finally, the presence of activated macrophages in the peritoneum of mice rejecting a challenge of syngeneic SV40-transformed cells was confirmed in both CTL responder and nonresponder strains. These studies suggest that cytolytic macrophages are indeed generated during rejection of SV40-induced mouse tumors and that, in the absence of an effective anti-SV40 CTL response, resistance of the transformed cell to macrophage-mediated cytolysis can be a determining factor in in vivo tumor growth.     

Chemotherapy-resistant osteosarcoma is highly susceptible to IL-15-activated allogeneic and autologous NK cells

High-grade osteosarcoma occurs predominantly in adolescents and young adults and has an overall survival rate of about 60%, despite chemotherapy and surgery. Therefore, novel treatment modalities are needed to prevent or treat recurrent disease. Natural killer (NK) cells are lymphocytes with cytotoxic activity toward virus-infected or malignant cells. We explored the feasibility of autologous and allogeneic NK cell-mediated therapies for chemotherapy-resistant and chemotherapy-sensitive high-grade osteosarcoma. The expression by osteosarcoma cells of ligands for activating NK cell receptors was studied in vitro and in vivo, and their contribution to NK cell-mediated cytolysis was studied by specific antibody blockade. Chromium release cytotoxicity assays revealed chemotherapy-sensitive and chemotherapy-resistant osteosarcoma cell lines and osteosarcoma primary cultures to be sensitive to NK cell-mediated cytolysis. Cytolytic activity was strongly enhanced by IL-15 activation and was dependent on DNAM-1 and NKG2D pathways. Autologous and allogeneic activated NK cells lysed osteosarcoma primary cultures equally well. Osteosarcoma patient-derived NK cells were functionally and phenotypically unimpaired. In conclusion, osteosarcoma cells, including chemoresistant variants, are highly susceptible to lysis by IL-15-induced NK cells from both allogeneic and autologous origin. Our data support the exploitation of NK cells or NK cell-activating agents in patients with high-grade osteosarcoma.     

Biochemical and molecular characterization of the glucocorticoid receptor of lymphosarcoma P1798 variants

Three phenotypically distinct isolates from lymphosarcoma P1798 have been compared with respect to properties of the glucocorticoid receptor. Wild type P1798 cells express functional receptors and glucocorticoid treatment of such cells causes cytolysis in vivo. Wild type cells do not undergo cytolysis in culture. Rather, such cells exhibit reversible inhibition of proliferation in the presence of dexamethasone. Two variant populations were selected from this background. One was selected for the ability to form tumors in mice receiving pharmacological doses of glucocorticoids. Cells from such tumors are resistant to the cytolytic effects of glucocorticoids in vivo, but are sensitive to the antiproliferative effects of the hormone in culture. Variants were also selected based upon their ability to proliferate in the presence of dexamethasone in culture. These variants were resistant to glucocorticoid-mediated cytolysis in vivo. Wild type P1798 cells express approximately 20,000 high affinity dexamethasone-binding sites per cell. Dexamethasone-mesylate labeling and immunoblotting experiments indicate that hormone binding is due to a polypeptide of Mr 90-100 K. This polypeptide is encoded in an mRNA species that resolved as a single entity of approximately 7000 nucleotides. Variants selected for resistance to cytolysis in vivo are indistinguishable in any of these respects from wild type cells. The receptors are fully functional, as evidenced by their ability to precipitate growth arrest of dexamethasone-treated cultures. Variants selected for resistance in culture harbor a receptor mutation. They express fewer than 500 dexamethasone-binding sites per cell. Such variants contain neither detectable dexamethasone-mesylate-binding protein nor any protein that is recognized by a receptor antibody.(ABSTRACT TRUNCATED AT 250 WORDS)     

Variant mouse lymphoma cells with modified response to interferon demonstrate enhanced immunogenicity

 We have previously developed an experimental model for the xenogenization of malignant lymphoma. From highly tumorigenic S49 mouse lymphoma cells that proliferate in suspension culture (designated T-25), we selected variant clones that grew as an adherent monolayer (designated T-25-Adh) and were non-tumorigenic in syngeneic mice. Furthermore, priming of syngeneic hosts with T-25-Adh cells protected them against subsequent challenges with the tumorigenic T-25 cells. Several lines of evidence have indicated that antigens of an endogenous mouse mammary tumor virus (MMTV) are involved in the immunogenicity of T-25-Adh cells. Since interferon (IFN) is known to affect retroviral assembly and maturation on the cell membrane, we have studied the effects of IFN on endogenous MMTV-related structures, as well as on the immunogenicity of T-25-Adh cells. We observed that mouse α and β interferons affect the morphogenesis of intracellular MMTV-related precursors in the immunogenic T-25-Adh cells, but not in tumorigenic T-25 cells. From T-25-Adh cells we selected variants that were either high responders or low responders to the above-mentioned interferon effect. The high-response variants were significantly more protective against tumorigenic T-25 cells than the low-response variants. Involvement of MMTV-related antigens in the immune response of the host to T-25-Adh cells was further suggested by immunoelectron-microscopical analysis, demonstrating that antisera from mice, immunized with T-25-Adh cells, interacted specifically with cell-surface MMTV budding particles. These findings indicate a novel method for xenogenization of lymphoma cells by IFN. Since endogenous retroviruses are present in all tissues of the mouse, this approach might be applicable to a wide variety of tumors. Received: 6 June 1995 / Accepted: 13 March 1997     

Antigen-specific xenogeneic CTL activity in the Syrian hamster

Previous studies of the Syrian hamster have demonstrated a lack of cytotoxic T lymphocyte (CTL) activity in vaccinia virus-infected animals. Our laboratory has reexamined CTL activity in both the classical inbred strains, MHA, CB, and LSH, as well as the recently inbred strain MIT. Primary and secondary CTL specific for the immunizing antigen have been detected after in vitro culture in MIT but were not demonstrable in the classical strains. Only lymph node cells of the responding animal demonstrated this activity, spleen cells being phenotypically devoid of such a response. Identification of the cell responsible for cytolysis as a T cell was demonstrated by nylon wool nonadherence, specificity on Con A blasts, and the lack of surface immunoglobulin, as demonstrated by cell-sorter analysis.     

Reduced expression of manganese superoxide dismutase in cells resistant to cytolysis by tumor necrosis factor.

Tumor necrosis factor (TNF) induces synthesis of manganese superoxide dismutase (MnSOD). It was previously shown that overexpression of MnSOD protected some mammalian cells from TNF cytotoxicity. The purpose of this study was to establish whether MnSOD was increased in cells selected for resistance to cytolysis by TNF in combination with cycloheximide. Melanoma SK-MEL-109 and HeLa cell-resistant variants were selected by repeated treatments with TNF and cycloheximide. The SK-MEL-109 variants had relatively low levels of MnSOD that were inducible by TNF. Surprisingly, the HeLa variants had very low levels of MnSOD that were poorly inducible by either TNF or interleukin-1 alpha. Therefore, an elevated level of MnSOD was not required to protect these cells from TNF-mediated cytolysis. The HeLa variants were more sensitive than parental cells to superoxide radical (O2-) generating compounds, such as paraquat or xanthine/xanthine oxidase. Pretreatment of these variants with TNF did not provide protection against damage by superoxide radicals.     

Up-Regulation of Imp3 Confers In Vivo Tumorigenicity on Murine Osteosarcoma Cells

Osteosarcoma is a high-grade malignant bone tumor that manifests ingravescent clinical behavior. The intrinsic events that confer malignant properties on osteosarcoma cells have remained unclear, however. We previously established two lines of mouse osteosarcoma cells: AX cells, which are able to form tumors in syngeneic mice, and AXT cells, which were derived from such tumors and acquired an increased tumorigenic capacity during tumor development. We have now identified Igf2 mRNA-binding protein3 (Imp3) as a key molecule responsible for this increased tumorigenicity of AXT cells in vivo. Imp3 is consistently up-regulated in tumors formed by AX cells, and its expression in these cells was found to confer malignant properties such as anchorage-independent growth, loss of contact inhibition, and escape from anoikis in vitro. The expression level of Imp3 also appeared directly related to tumorigenic ability in vivo which is the critical determination for tumor-initiating cells. The effect of Imp3 on tumorigenicity of osteosarcoma cells did not appear to be mediated through Igf2-dependent mechanism. Our results implicate Imp3 as a key regulator of stem-like tumorigenic characteristics in osteosarcoma cells and as a potential therapeutic target for this malignancy.     

In vivo generation of lymphokine activated killer cell activity by ABPP and interleukin-2 and their antitumor effects against immunogenic and nonimmunogenic tumors in murine tumor models

Summary The capacity of the interferon inducer ABPP and recombinant interleukin-2 (IL-2) to generate lymphokine activated killer (LAK) cell activity in vivo was examined and compared to the cytolysis of fresh tumor cells by in vitro generated LAK cells. Various tumors differing in histology and immunogenicity were used in in vitro and in vivo experiments. The i.p. administration of ABPP or IL-2 generated much higher levels of LAK cell activity in the peritoneal exudate than in the spleen. Administration of 2 injections of ABPP was as effective as a 3-day course of moderate doses of IL-2. Generation of LAK cell activity by IL-2 was dose dependent. ABPP had significant antitumor activity in vivo in both the i.p. tumor model and the pulmonary metastasis model when administered early (24–48 h after tumor inoculation), but was ineffective against established (day 3) tumor or advanced grossly visible i.p. (day 8) tumor. Treatment of established tumor with IL-2 and LAK cells was not more effective when ABPP was given concurrently. In contrast when ABPP preceded IL-2 and LAK treatment an additional antitumor effect was seen. Immunogenic tumors were more sensitive to treatment with ABPP than nonimmunogenic tumors. Only a marginal difference in lysability in vitro existed. The antitumor effects of ABPP in vivo may therefore be mediated by mechanisms other than cytolysis by activated killer cells alone. These data taken together suggest that ABPP and IL-2 induce discernable levels of LAK cell activity, but do not synergize when combined     

Tumor necrosis factor and IL-1 associated with plasma membranes of activated human monocytes lyse monokine-sensitive but not monokine-resistant tumor cells whereas viable activated monocytes lyse both

The purpose of our study was to determine some of the mechanisms involved in macrophage-mediated lysis of tumorigenic cells. A375 human melanoma cells (A375-R) resistant to lysis mediated by TNF and IL-1 were selected from the TNF- and IL-1-sensitive A375 parental melanoma cells subsequent to continuous (2 mo) exposure to rTNF. Peripheral blood monocytes isolated by centrifugal elutriation from healthy donors were incubated with rIFN-gamma and muramyl dipeptide, with a lipoprotein derived from Escherichia coli (CG-31362) or with LPS for 24 h. These activated monocytes lysed both the A375 (monokine-sensitive) and A375-R (monokine-resistant) melanoma cells. Activated tumoricidal macrophages fixed in 2% paraformaldehyde lysed only the TNF- and IL-1-sensitive A375 cells. These fixed monocytes contained both IL-1 and TNF activities as determined by D10 cell proliferation and L929 cytolysis assays, respectively. Nearly identical results were obtained with preparations of plasma membranes from activated human monocytes. Anti-IL-1 and/or anti-TNF sera neutralized the cytolysis of tumor cells mediated by free monokines, by fixed monocytes, or by plasma membrane preparations. In contrast, anti-TNF and/or anti-IL-1 sera did not inhibit tumor cell lysis by viable activated monocytes. We conclude that IL-1 and TNF molecules associated with the plasma membranes of activated monocytes mediate lysis of susceptible target cells. However, because activated monocytes lysed IL-1-and TNF-resistant target cells, molecules other than these monokines must also be involved in the antitumor activity of monocytes.     

Neoplastic conversion of preneoplastic Syrian hamster cells: rate estimation by fluctuation analysis.

Analysis of the role of gene mutations in the multistep process of neoplastic transformation requires that the discrete steps in carcinogenesis first be dissected. Toward this end, we have isolated and characterized preneoplastic Syrian hamster cells which exhibit in vitro a trait highly correlated with neoplastic conversion in vivo. Previous findings (J. C. Barrett, Cancer Res. 40:91-94, 1980) indicate that spontaneous neoplastic transformation of Syrian hamster cells occurs in at least two steps. An intermediate stage, characterized by an aneuploid established cell line which has a propensity to become neoplastic spontaneously upon further growth in vitro, has been described. These preneoplastic cells differ from diploid early-passage Syrian hamster cells in becoming capable of anchorage-independent growth in semisolid agar, as well as becoming neoplastic in vivo when attached to a solid substrate. Evidence presented here demonstrates that anchorage-independent conversion in vitro is a reliable marker for neoplastic conversion in this cell system. Fluctuation analyses, patterned after those described by Luria and Delbruck for microbial genetics, demonstrate that anchorage-independent variants are generated randomly from clonally derived preneoplastic cells at the rate of 10(-8) to 10(-7) variants per cell per generation. These results establish a multistep stochastic process for transformation in vitro and indicate that conversion to anchorage independence may be necessary for Syrian hamster cells to become tumorigenic. The possible role of gene mutation in this step during neoplastic progression is discussed.     

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。