Collagenase inhibitors retarding invasion of a human tumor in nude mice

Tumor invasion has been correlated with the ability of tumor cells to produce collagenolytic enzymes which are capable of degrading normal host tissues. However, the human small cell carcinoma implanted subcutanouesly and growing progressively in athymic (nude) mice produced large quantities of collagenase but did not appear to significantly infultrate adjacent host tissue. In comparison, subcutaneously implanted murine Lewis lung tumors produced similar quantities of collagenase and were locally invasive. The human tumors were surrounded by a compact layer of fibroblast cells in a fibrous matrix. This fibrous sheath exhibited anticollagenase activity and indicated a mechanism of host tissue resistance to invasion via the formation of inhibitors to degradative enzymes produced by tumor cells.     

Tumor formation by SV40-transformed human cells in nude mice: the role of SV40 T antigens

Human cells transformed in vitro by SV40 rarely form tumors in nude mice. We examined whether these cells as a group are inherently nontumorigenic or whether they are potentially tumorigenic but rejected by the athymic host, possibly by nonspecific immune mechanisms. SV80 and NG8 are SV40-transformed human cell lines that express all of the transformed properties, including anchorage-independent growth, but do not form tumors in adult nude mice after injection of as many as 10(8) cells. Both the SV80 and NG8 cell lines have SV40-specific transplantation antigens which crossreact with those present on SV40-transformed (but tumorigenic) rodent cells. We found that SV80 cells, though not NG8 cells, induced progressively growing lethal tumors if the cells are injected repeatedly into neonatal nude mice. Somatic cell hybrids between SV80 or NG8 cells and a highly tumorigenic cell line derived from a human tumor continue to express the virus-induced antigens and fail to form tumors in adult nude mice. These results strongly suggest that at least for some SV40-transformed human cells, the failure to form tumors in nude mice may be due to their expression of virus-induced transplantation antigens rather than the absence of tumorigenic potential.     

Cellular tumorigenicity in nude mice. Role of susceptibility to natural killer cells

The athymic nude mouse is a useful animal model for assaying the neoplastic growth potential in vivo of animal cells transformed in vitro. Despite the demonstrated absence of thymus-dependent immunological functions, however, the nude mouse has now been shown to reject transplants of certain highly malignant heterologous tumors. In addition, a few transformed mammalian cell lines that exhibit all or most of the cellular phenotypes usually associated with malignancy fail to grow as tumors when injected into nude mice. In a continuing study to identify the in vitro phenotypes associated with tumor-forming ability in vivo, we investigated the role of cellular susceptibility to the naturally occurring, thymus-independent lymphocytes (natural killer or NK cells) in determining tumor induction by animal cells in nude mice. A representative collection of animal cells (ranging from normal human diploid cell strains to highly tumorigenic clonal cell lines, either transformed in vitro or derived from experimental tumors) was tested to see if the ability of cells to form tumors is consistently correlated with their susceptibility to NK cell-mediated lysis measured in vitro with splenic leukocytes from nude mice. If the physiological role of the NK cells in vivo were to recognize, and possibly to destroy, incipient tumor cells in situ, a direct association between cellular tumorigenicity and susceptibility to NK activity, might be expected. If, on the other hand, the formation of growing tumors by animal cells in nude mice depended on their ability to escape the cytolytic activity of NK cells, cellular tumorigenicity would be associated with cellular resistance to NK cells. Results obtained in this study failed to confirm either of these associations. Thus, cellular suscepbibility to NK cells, at least as determined by direct cytotoxicity assay in vitro, is not a useful predictive indicator of cellular tumorigenicity in nude mice.     

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.     

Tumorigenicity of persistently infected tumors in nude mice is a function of both virus and host cell type.

Although BHK-21 cells persistently infected with wild-type vesicular stomatitis virus (VSV) are sensitive to natural killer (NK) cells and do not form tumors in athymic nude mice, BHK-21 cells persistently infected with a previously isolated mutant virus (VSV-P) are resistant to NK cells and form tumors in nude mice. We used this VSV-P mutant to persistently infect HeLa cells and mouse tumor cell lines. A mouse mastocytoma line (P815) persistently infected with VSV-P was similar to BHK-21 cells in that it was resistant to NK cell lysis and formed tumors in nude mice. However, neither HeLa cells nor mouse myeloma lines persistently infected with VSV-P were resistant to NK cell lysis in vitro, and neither formed tumors in nude mice. Rejection by nude mice of HeLa cells and mouse myeloma cell lines persistently infected with VSV-P could be ablated by rabbit antiserum to asialo-GM1, implicating NK cells in the in vivo rejection of these persistently infected tumors. These results suggest that NK cell recognition and killing of virus-infected cells in vivo and in vitro depend upon genetic contributions from both the virus and the host cell.     

Human immunodeficiency virus (HIV)-infected tumor xenografts as an in vivo model for antiviral therapy: role of alpha/beta interferon in restriction of tumor growth in nude mice injected with HIV-infected U937 tumor cells.

The host factors involved in the restriction of tumor growth were studied in nude mice transplanted with a cloned line of chronically human immunodeficiency virus (HIV)-infected U937 cells. HIV-infected and uninfected U937 cells exhibited the same growth patterns in culture. However, HIV-infected cells were not tumorigenic when injected subcutaneously in nude mice, whereas large solid tumors were observed in mice injected with uninfected U937 cells. Injection of nude mice with antibody to alpha/beta interferon (IFN-alpha/beta) enabled HIV-infected U937 cells to grow progressively in approximately 90 to 100% of mice. HIV-infected U937 cells formed solid tumors in the majority (60 to 90%) of either immunosuppressed (splenectomized, irradiated, and anti-asialo-GM1-treated) or genetically immunodeficient (bg/nu/xid) nude mice. In mice treated with antibodies to IFN-alpha/beta with established HIV-positive tumors, a direct correlation was found between p24 antigenemia and tumor size. Treatment of established HIV-positive U937 cell tumors with human IFN-alpha or mouse IFN-alpha/beta resulted in a clear-cut inhibition of both tumor growth and p24 HIV antigenemia. In contrast, treatment with tumor necrosis factor alpha markedly inhibited tumor growth but did not significantly decrease serum p24 levels. 3'-Azido-3'-deoxythymidine treatment did not affect either tumor growth or the levels of serum p24 antigen. These data indicate that endogenous IFN-alpha/beta is a crucial factor in the restriction of both tumor growth and p24 antigenemia in mice injected with HIV-infected tumor cells. Moreover, the results suggest that the development of HIV-1 p24 antigenemia in athymic immunosuppressed mice may represent an interesting in vivo model for anti-HIV therapy.     

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.     

Response of human squamous cell carcinoma xenografts of different sizes to irradiation: relationship of clonogenic cells, cellular radiation sensitivity in vivo, and tumor rescuing units

The relationship of clonogenic cells, cellular radiation sensitivity at tumor control does in vivo, and tumor rescuing units at different tumor sizes was investigated in the human squamous cell carcinoma FaDu growing in NCr/Sed nude mice. The composition of the tumors was determined in single cell suspensions and compared to tumor control data after single-dose irradiation. To avoid the influence of varying oxygen concentrations in the tumors, all irradiations were performed under clamp hypoxia. Nude mice and animals further immunosuppressed by 6-Gy whole-body irradiation were used to assess the immunological effects. The numbers of total cells, cells excluding trypan blue, host cells, and colony-forming cells increased linearly with the weight of FaDu tumors. Comparable results were obtained for cell suspensions prepared from tumors growing in nude of pretreated nude mice. The radiation dose required to control 50% of tumors (TCD50) of different sizes between 36 and 470 mm3 increased from 52.1 to 60.1 Gy when the tumors were maintained in normal nude mice and from 50.8 to 61.3 Gy in whole-body-irradiated mice. The D0 of FaDu cells in vivo was calculated by regression analysis of TCD50 vs the logarithm of the clonogenic cell number, assuming an oxygen enhancement ratio of 3.0. The resultant D0S of 1.1 and 1.2 Gy in vivo correspond well to the radiosensitivity of FaDu cells in vitro determined previously. Assuming the single-hit multitarget model of cell killing and extrapolation numbers between 2 and 20, the mean number of tumor rescuing units would be 10(5) to 10(6) for a 100-mm3 tumor growing in whole-body-irradiated nude mice. Comparison of the number of tumor rescuing units to the estimated number of clonogenic cells does not conflict with the assumption that every surviving clonogenic cell is able to repopulate FaDu tumors after irradiation; however, it seems more likely that more than one clonogenic cells is necessary. The proportion of tumor rescuing units in the clonogenic cell population is independent of tumor size.     

An ascites form of human mammary carcinoma transplantable in nude mice

Mammary carcinoma cells from pleural effusion of a patient were inoculated into the peritoneal cavity of nude mice, and a large amount of ascites was produced about 120 days later. From the ascites, serial passages in the same form were successful in nude mice by intraperitoneal injection of 10(7) or more cells. The ascites cells retained the morphology almost similar to that of the patient tumor cells, whereas specific estrogen-binding proteins in the cytoplasm disappeared after growing in male nude mice. The results were compared with those of other established human cancer cell lines in nude mice.     

The effect of T lymphocyte deficiency on tumor induction and growth

Severe reduction in the numbers of T lymphocytes as occurs in thymectomized, X-irradiated, bone marrow reconstituted mice or nude mice did not increase the animals susceptibility to chemical carcinogenesis. However, once established, many tumors grew distinctly slower in the T cell deficient animals. This was demonstrated to be due to lack of normal T cell function since tumors arising in TXB hosts progressed much faster in normal secondary hosts than in secondary TXB hosts. In most instances, established tumor cell lines from tissue culture also grew more slowly in T deficient hosts. The suggestion was made that T cells may not be required for immune surveillance while the immune mechanism(s) that promote subsequent tumor growth are T cell dependent. Alternative possibilities are discussed.     

Establishment and characterization of EB virus-free normal B-lymphocyte and interleukin-6-producing poorly differentiated adenocarcinoma cell lines derived from gastric tumor tissue

We successfully established two cell lines, an adenocarcinoma cell line (designated as HIGS) and Epstein-Barr virus-free normal B-lymphocyte cell line (designated as HIGS-BL), derived from a moderately to poorly differentiated adenocarcinoma of the stomach, and examined their characteristics. The tumor delivered to our laboratory from an operating room was cut into small pieces and cultured on the dishes. HIGS and HIGS-BL were established from each individual dish after the onset of primary culture. Although their culture methods were the same, the HIGS cell line was not established from the dishes growing HIGS-BL cells. In addition, HIGS-BL cells were scarcely observed in the HIGS cell dishes. Because of these factors, we have considered until now that HIGS-BL cells may inhibit the growth of HIGS cells or cause damage to HIGS cells by unknown mechanisms. Injection of HIGS-BL cells, other B-lymphocyte cell lines, or the conditioned media of HIGS-BL cells into nude mice bearing HIGS-grafted tumors was performed individually. When HIGS and HIGS-BL cells were co-cultured in the same dishes, HIGS-BL cells inhibited the proliferation of HIGS cells. The inhibition of grafted tumor growth was confirmed by the injection of not only the HIGS-BL cells but also the B-lymphocytes. Furthermore, this inhibition was only observed when the conditioned medium of B-lymphocytes was injected into the nude mice. These results suggested that the secretory products by general B-lymphocytes (including HIGS-BL) have some ability to inhibit the proliferation of HIGS cells. In addition, susceptibility tests to anti-cancer drugs suggested that HIGS cells were sensitive to CDDP, ADM and MMC, and HIGS-BL cells were sensitive to CDDP. If CDDP was used for chemotherapy in the patient, the drug produced atrophy of HIGS-BL cells. The study about HIGS and HIGS-BL cells reported the necessity for novel therapeutic approaches in oncotherapy.     

Human lung cancer cell lines in our laboratory: establishment of three large cell carcinoma cell lines and their biological characterization]

Three large cell carcinoma cell lines were established from tumors of lung cancer patients. The cell lines were named NUTLC-2, NUTLC-4 and NUTLC-5 and they were found to have the following biological characterization. 1) By chromosomal analysis, the tumor cells of two of the cell lines (NUTLC-2 and NUTLC-5) were human-origin cells. Numbers of chromosomes of these cells ranged from 52 to 59 in NUTLC-2 and from 68 to 75 in NUTLC-5, with the modal numbers of 56 and 71, respectively. 2) Primary tumor resected from the patient with lung cancer was heterotransplanted into the subcutis of a nude mouse. NUTLC-4 cell line was established in vitro from the tumor in nude mouse and the tumor cells were found to be mouse-origin cells by chromosomal analysis. Human DNA was not detected by Alu analysis. 3) The tumor cells of three cell lines could be heterotransplanted subcutaneously into nude mice. However, no natural distant metastasis in nude mouse was observed. 4) Drug sensitivity to NUTLC-2, NUTLC-4 and NUTLC-5 tumor cells differed individually according to MTT colorimetric assay, and characteristic drug sensitivity was not noted in histological types of lung cancer.     

The elimination of mouse hepatitis virus by temporary transplantation of human tumors from infected athymic nude mice into athymic nude rats (rnuN/rnuN).

A nude mouse colony held in an isolation unit was found to harbor MHV despite the fact that all hygienic precautions were taken. The virus spread rapidly causing a high mortality rate predominantly in experimental animals. Moreover, we observed a high percentage of tumor regression in our tumor transplanted mice. Attempts to eliminate the MHV by repeated tumor transplantation into virus-free nude mice were unsuccessful. Since MHV has a limited host range, we transplanted, in parallel, four different lines of embryonic renal tumors (three triphasic nephroblastomas and one malignant rhabdoid tumor of the kidney) from athymic mice into athymic rats and fragments of the same tumors into "fresh" nude mice. All manipulations were performed in isolators. Detection of MHV was done twice by serological examination of six-week-old sentinels. The results showed transmission of MHV infection in the control mice under gnotobiotic conditions as previously found in the normal animal room. On the other hand, there was no evidence of infection, neither in the transplanted nude rats nor after retransplantation of tumors into nude mice. We hypothesize that the virus is harbored in the stromal cells of the murine host but not of the rat host nor in the human tumor cells. Histological comparison showed no alteration of specific tumor morphology in the different hosts.     

Establishment of human colon carcinoma lines in nude mice.

After subcutaneous inoculation into nude mice of 24 human colon adenocarcinomas, growth, defined as histopathologically confirmed tumor growth which has been passed, was observed in 13 cases (54%). Tumors from metastatic sites showed higher take rates (58%) than tumors from primary sites or recurrent tumors (50%). Nine continuous tumor lines were established (69% of growing tumors) with metastatic tumors establishing more readily (100% of growing tumors) than primary tumors (40%). The average period in primary transplant was shorter for metastasis (8.3 weeks), than for primary tumors (18.5 weeks); total material 10.6 weeks. Average periods between passages were shorter than primary transplant times; these periods were shorter for metastases (6.6 weeks) than for primary tumors (9.4 weeks); total material 7.4 weeks. Of four growing tumors not established as continuous lines, three were primary and one a recurrent tumor, and the loss of tumor growth occurred in very early passages, not later than passage 3. All nude mouse-grown colon tumors were moderately well differentiated.     

Synergy between Apc min and an activated ras mutation is sufficient to induce colon carcinomas.

Colon carcinomas appear to arise from the cumulative effect of mutations to several genes (APC, DCC, p53, ras, hMLH1, and hMSH2). By using novel colonic epithelial cell lines derived from the Immorto mouse, named the YAMC (young adult mouse colon) cell line, and an Immorto-Min mouse hybrid, named the IMCE (Immorto-Min colonic epithelial) cell line, carrying the Apc min mutation, we investigated the effect of an activated v-Ha-ras gene on tumor progression. The YAMC and IMCE cell lines are normal colonic epithelial cell lines which are conditionally immortalized by virtue of expression of a temperature-sensitive simian virus 40 (SV40) large T antigen. Under conditions which permit expression of a functional SV40 large T antigen (33 degrees C plus gamma interferon), neither the YAMC nor the IMCE cell line grows in soft agar or is tumorigenic in nude mice. In vitro, when the SV40 large T antigen is inactivated (39 degrees C without gamma interferon), the cells stop proliferating and die. By infecting the YAMC and IMCE cell lines with a replication-defective psi2-v-Ha-ras virus, we derived cell lines which overexpress the v-Ha-ras gene (YAMC-Ras and IMCE-Ras). In contrast to the parental cell lines, under conditions in which the SV40 large T antigen is inactive, both the YAMC-Ras and IMCE-Ras cell lines continue to proliferate. Initally YAMC-Ras cells do not form tumors; however, tumors are visible after 90 days of incubation. IMCE-Ras cells form colonies in soft agar under both permissive and nonpermissive culture conditions. Furthermore, IMCE-Ras cells form tumors in nude mice within 3 weeks. The phenotype of the IMCE-Ras cell line thus clearly demonstrates that a defective Apc allele and an activated ras gene are sufficient to transform normal colonic epithelial cells and render them tumorigenic.     

Establishment of a primary human sarcoma model in athymic nude mice

Improvement of soft tissue sarcoma patient outcome requires well-characterized animal models in which to evaluate novel therapeutic options. Xenograft sarcoma models are frequently used, but commonly with established cell lines rather than with primary human sarcoma cells. The objective of the present study was to establish a reproducible xenograft model of primary human soft tissue sarcoma in athymic nude mice. Primary soft tissue sarcoma cells from four resected human sarcomas were isolated, cultured until the third passage and injected subcutaneously into athymic nude mice. The sarcoma xenograft was further analyzed by histological and immunohistochemical staining. In two out of four sarcomas tumor growth could successfully be established leading to solid tumors of up to 540 mm³ volume. Histological and immunohistochemical staining confirmed the mouse xenograft as identical sarcoma compared with the original patient’s tissue. In the present study a reproducible xenograft model of primary human soft tissue sarcoma in athymic nude mice was established. This animal model is of great interest for the study of sarcomogenesis and therapy.     

Comparative studies on cell lines established from normal and radiation-exposed miniature swine.

Cloned cell lines were established from two swine with radiation-induced myeloproliferative disorders, including one cell culture from an animal with myelogenous leukemia and one from an animal with myeloid metaplasia. A third cloned cell line with similar morphology was established from pooled normal fetal swine cornea to compare the growth characteristics of cells from normal and irradiated swine. All three cell lines grew as foci of aggregated cells and were able to form macroscopic colonies in semisolid agar medium. The lack of normal mechanisms of contact inhibition and the observed aneuploidy indicated that these cells were morphologically transformed. Further, the cloned cells caused tumors in nude mice, clearly indicating that these cells were also malignantly transformed. A major difference between these cell lines was that type C viruses were observed only in the cells derived from swine with myeloproliferative disorders.     

Quantitative factors which determine the effect of the immune response on the growth rate of the Cloudman melanoma in the DBA/2 mice

We compared the growth rate of Cloudman melanoma in DBA/2 mice produced by injections of tumor cells taken from tissue culture (TC cells) to that of tumor cells prepared from tumor nodules already growing in DBA/2 mice (An cells). We found that small numbers of An cells grew better than TC cells. In contrast larger numbers of An cells grew less well than TC cells. We could make the growth rate of TC cells comparable to that of AN cells by (a) immunosuppressing recipient mice and/or (b) injecting the host with the proper dose of tumor cell proteins, debris and antigens extracted from the tumors with potassium chloride. The immunologic basis for both the tumor-retarding and tumor-promoting effects of the KC1 extracts was established by adoptive transfer experiments. Thus, some tumor cell products which have the potential to stimulate the immune response do so in a distinctive fashion depending in part on whether they are associated with viable tumor cells. The effects that nonviable cell-associated tumor products have on the immune response to viable tumor cells varies with their dose; they increase the magnitude of the immune response against the tumor at moderate doses but decrease it at higher or lower doses. The latter point may help explain the phenomenon of “sneaking through.”