Characterization of cytostatic effector lymphocytes during the development of a syngeneic lymphosarcoma in C3H mice: use of monoclonal reagents to identify T-cell subsets

The development of the in vitro cytostatic capacity of splenic lymphocyte subpopulations from C3H mice carrying the syngeneic Gardner tumor was examined at different times after intramuscular tumor injection. Most mice died between 3 to 6 weeks after tumor injection, while some rejected their tumors or survived longer than 3 months. Cell separation procedures and monoclonal antibodies against T-cell subsets were used to identify the cells responsible in anti-tumor immunity. Cytostatic capacity against tumor cells developed in the T-cell enriched subpopulation of splenocytes 3 days after tumor injection and was partly abrogated by anti-Lyt-1. Effector function of Lyt-2+ T cells and B cells developed later and peaked at around 10 days after tumor injection. Another cell population with cytostatic capacity which was not blocked by anti-Lyt-1, anti-Lyt-2, or anti-Ly-5 was noted to develop early after tumor injection and lacked both T-cell and B-cell markers ("null"). This subpopulation was eluted with T cells from nylon wool columns and comprised up to 50% of the T-enriched fraction of splenocytes in later stages of tumor growth. An interesting characteristic of these "null" cells was susceptibility to T-cell suppression both in early and later stages of tumor growth except in regressor mice which lacked suppressor T cells. The cytostatic capacity of the "null" cells could be restored either by removal of Thy-1+ cells from the T-enriched fraction by panning, or the addition of anti-Thy-1 or F(ab')2 fragments of anti-Thy-1 to the lymphocyte-tumor reaction mixtures. Most mice examined after 10 days of tumor growth were immunosuppressed to varying degrees. Unseparated splenocytes from these mice were not cytostatic but removal of T cells allowed the B cells to exert their cytostatic capacity. A strong underlying B-cell cytostasis was shown to be present in long survivor mice even though their unseparated spleen cells were only weakly cytostatic. T cells did not play a role in the regression of tumors or long-term survival of tumor bearer mice. Splenocytes from regressor mice were strongly cytostatic, their anti-tumor activity residing in the "null" and B-cell populations.     

Influence of the thymus extract on the immunological function of animals with experimental diabetes

After immunization with SRBC, the number of plaque-forming cells (PFC) in the spleen of alloxan-diabetic mice, in nondiabetic TIR mice and in alloxan-diabetic TIR mice was significantly decreased as compared with control non-diabetic donors. The ability of lymphocytes from alloxan-diabetic mice to adoptively restore the suppressed immune response of TIR mice, was reduced in comparison with the effect of lymphocytes from normal, nondiabetic donors. Local GVH reaction in nondiabetic rat recipients provoked by lymphocytes from control healthy mice was 5.6 +/- 0.7 mm. Significantly lower rate of local GVH reaction after injection of lymphocytes from diabetic donors was found in diabetic as in nondiabetic recipients as well. Treatment of alloxan-diabetic mice with thymus extract or with insulin, partly restored depressed function of the humoral and cellular system. Treatment of diabetic mice with both thymus extract and insulin, was even more effective in restoring of their immune reactivity. Diabetic condition strongly influenced the function of the immune system. This could be attributed to depletion of T-lymphocytes, changed relations between the lymphocyte subpopulations in diabetic donors, and disturbance of lymphocyte metabolism.     

Effects of macrophage-colony-stimulating factor on cyclophosphamide-injected mouse NK1.1+ cell activity

 We injected cyclophosphamide into mice and examined their natural killer (NK) activity both in vitro and in vivo. Cyclophosphamide injection temporarily abrogated the lung clearance activity of Yac-1 lymphoma cells, which is considered to be an index of NK activity in vivo. However, administration of recombinant human macrophage-colony-stimulating-factor (rhM-CSF) to cyclophosphamide-injected mice restored the lung clearance activity. To clarify whether the administration of rhM-CSF activated NK cells, we purified NK1.1⁺ cells from mice treated with cyclophosphamide and/or rhM-CSF and examined their functions (cytotoxicity, proliferation, and interferon γ production) in vitro. Cyclophosphamide injection decreased the number, but did not suppress the functions of NK1.1⁺ cells. The numbers of NK1.1⁺ cells in cyclophosphamide-injected mice restored by rhM-CSF administration. And the functions of NK1.1⁺ cells from both saline-injected and cyclophosphamide-injected mice were accelerated by rhM-CSF administration. These results suggested that the temporary abrogation of NK activity in vivo caused by cyclophosphamide injection was due to a decrease in the number and not to suppression of the functions of NK1.1⁺ cells. The injection of cyclophosphamide into mice increased the number of tumor (B16 melanoma) nodules formed in the lungs and liver. However, treatment with rhM-CSF recovered the anti-metastatic activity in the lungs of cyclophosphamide-injected mice. These results show that administration of rhM-CSF restores NK activity suppressed by cyclophosphamide injection in vivo. Received: 28 September 1999 / Accepted: 23 December 1999     

Cooperation of nonsyngeneic tolerant lymphocytes: genetic restriction.

We have used a previously devised in vivo experimental model to investigate the ability of mouse thymus-dependent (T) and bone marrow-derived (B) lymphocytes to cooperate in immune (humoral) rejection of rat Yoshida ascites sarcoma (YAS). Because of conflicting reports in the literature concerning the effectiveness of T-B cooperation across major histocompatibility complex (MHC) barriers, we explored the interaction of T and B lymphocytes from mutually tolerant animals. Tolerance was achieved by establishing radiation chimeras of B6 → B6D2F₁ and D2 → B6D2F₁ constitutions. Chimeras' erythrocytes and spleen cells were shown by serological analysis to be the donor type. When the chimera was to serve as the tumor host or B-cell source, it was thymectomized prior to irradiation and reconstitution (TIR). Tolerance was evaluated by noting the inability of chimeric spleen cells to effect graft-versus-host damage upon injection into TIR host-type mice and the markedly reduced anti-host-type reactivity in short-term [³H]thymidine-uptake tests. Successful cooperation, manifested by YAS rejection, was seen whenever donor T and host B lymphocytes were syngeneic. Parental (P) T cells enabled F₁ TIR mice to reject YAS, but the reciprocal was not true: F₁ donor T cells did not cooperate with B cells in parental TIR mice. However, when the host B lymphocytes were tolerant P cells, i.e., in a P → F₁ TIR chimera, injected F₁ T lymphocytes did cooperate successfully. The final test of allogeneic T and B cells gave the clear-cut negative answer that, even when tolerant mice are used as sources of lymphocytes, cooperation does not occur. These results therefore confirm that T and B lymphocytes must at least share one MHC haplotype in order to cooperate.     

Augmentation of host antitumor immunity by low doses of cyclophosphamide and mafosfamide in two animal tumor models

Summary By cloning in vitro we have obtained two sublines of the L5222 rat leukemia, one with high (L5222-S) and the other with low (L5222-R) in vivo sensitivities to non-toxic doses of mafosfamide, a stabilized derivative of 4-hydroxy-cyclophosphamide. This sensitivity in vivo was not related to the cytotoxic activity of the drug in vitro. Treatment of rats bearing the L5222-S and of mice transplanted with the MOPC-315 plasmocytoma with low doses of mafosfamide or cyclophosphamide resulted in a high percentage of surviving animals, which were resistant to a subsequent tumor challenge. Viable leukemic cells were needed to establish antitumor immunity, since it was not possible to induce resistance by injection of mitomycin-C-treated, non-viable L5222 cells. The adoptive transfer of spleen cells from animals immune against the L5222-S and the MOPC-315 resulted in resistance of the syngeneic recipients against a rechallenge with tumor cells, provided that the animals were treated with an immunosuppressive dose (100 mg/kg) of cyclophosphamide prior to the spleen cell implantation. In nude mice treatment of the L5222 with low doses of mafosfamide also resulted in surviving animals, however resistance to a second tumor challenge occurred only sporadically.The data presented confirm that therapy with cyclophosphamide or mafosfamide enhances host antitumor immunity but, contrary to previous reports, it could be demonstrated that successful tumor rejection was independent of T cells.Supported by the Federal Ministry of Research and Technology (BMFT), Bonn-Bad Godesberg, FRG     

The immunomodulation of the natural killer activity of the splenocytes in C3HA mice during hepatoma 22a growth

A single injection of C3HA mice with various immunomodulators-ds-RNA, thymogene (TM) and cyclophosphamide (CY)--performed one day before transplantation of syngeneic hepatoma 22a cells led to a decrease in the tumor growth rate. The most prominent effect was found following the CY treatment. The NK cell activity estimated per spleen of mice treated with ds-RNA and TM was seen increased in comparison with the control mice not given the modulators. The rate of tumor growth was due probably to this fact. The protective effect of CY may be accounted for by a direct action of this agent on tumor cells.     

Malignant mouse melanoma cells do not form tumors when mixed with cells of a non-malignant subclone: relationships between plasminogen activator expression by the tumor cells and the host's immune response.

Mouse melanoma clones B559 and B78 are highly tumorigenic when injected into C57BL/6J mice. Tmor formation by these cells is suppressed when they are mixed with nonmalignant bromodeoxyuridine-grown clone C3471 before injection. C3471 cells suppress tumor formation only in immunocompetent hosts; mixtures of B559 and C3471 cells or C3471 cells alone form tumors in antithymocyte serum (ATS)-treated mice. Explants of C3471 tumors grown in ATS-treated mice form tumors in immunocompetent mice, most of which regress. Inability of C3471 or mixtures of C3471 with malignant cells to grow in normal mice, as contrasted with ability to grow in immunosuppressed mice, indicates that host response is involved. Both tumorigenic clones have high plasminogen activator activity, whereas nontumorigenic clone C3471 has none. Mixture of either tumorigenic clone with C3471 cells decreases plasminogen activator in vitro. C3471 tumor explants from ATS-treated mice initially express plasminogen activator, but lose the capacity to express this activity upon prolonged cultivation in vitro. Explants from B559 tumors retain plasminogen activator in long term culture. Close physical contact between C3471 and B559 cells appears essential both for inhibiton of plasminogen activator expression by B559 cells in vitro, and for tumor suppression in vivo. These findings suggest that production of plasminogen activators by tumor cells may play an important role in suppressing the host's immune response locally to an inoculum of syngeneic tumor cells.     

Therapeutic efficacy of human recombinant interleukin-2 (TGP-3) alone or in combination with cyclophosphamide and immunocompetent cells in allogeneic,semi-syngeneic,and syngeneic murine tumors

Summary The potential for a recombinant human interleukin-2 (rIL-2, TGP-3) alone, in combination with cyclophosphamide, and in combination with cyclophosphamide and normal immunocompetent cells to manifest biological activity in vivo was tested using allogeneic, semi-syngeneic, and syngeneic tumor-host systems in mice. The biological activity of rIL-2 was evaluated by the inhibition of the growth of tumors and the inhibition of metastases in short-term assays and, in long-term assays, the prolongation of the survival time of mice bearing subcutaneously (s.c.) or intradermally transplanted tumors. rIL-2 was injected s. c. daily continuously for up to 40 days or intermittently two to four times into mice bearing established tumors. In the short-term assays, the dose and schedule dependence of activity of rIL-2 alone was significantly manifested against sarcoma 180 in ICR mice (allogeneic) by the regression of the tumor, and was confirmed against Meth-A fibrosarcoma in BALB/c mice (syngeneic) by retarding the growth of the tumor. When assessed using these tumors, it was found that the antitumor activity of rIL-2 was scheduledependent: the growth of tumors was more significantly suppressed when rIL-2 was injected every day for 10 days, starting on the 7th day after tumor transplantation, than when rIL-2 was injected five times every other day or twice every 5th day, even if the total amounts of rIL-2 injected were same. The continuous injection for 10 days was considered to be a standard regimen and the daily effective doses of rIL-2 were 5, 10, and 25 µg/mouse. Using the standard regimen and the effective doses, the activity of rIL-2 alone was also observed against two other syngeneic tumors: Colon carcinoma 26 in BALB/c mice, by retarding the growth of the tumor, and Lewis lung carcinoma in C57BL/6 mice by reducing the formation of lung metastases. When assessed using M5076 reticulum cell sarcoma, in a long-term assay, the activity of rIL-2 alone was not manifested in C57BL/6 mice (syngeneic) even when rIL-2 was injected for a long period (20 days) but it was observed in BDF1 (semi-syngeneic) mice. On the other hand, it was found that rIL-2 was effective in combination with cyclophosphamide in prolonging the survival time of C57BL/6 mice bearing the tumor. After cyclophosphamide (2.0 mg) had been administered orally to mice on the 6th day after tumor transplantation, the tumor regressed temporarily but regrew; however, when rIL-2 at a dose of 10 µg was also injected daily for a long period (40 days), the regrowth was retarded and the survival time of the mice was significantly prolonged. Moreover, when normal immunocompetent cells were transferred at the tumor sites, the regrowth of the tumors was retarded more significantly even at a daily dose of 1 µg or 3 µg rIL-2, and mice were observed to be cured by daily doses over 3 µg. The results obtained in the syngeneic tumor-host systems indicate that the continuous injection of rIL-2 is necessary and important for its activity to be manifest in vivo, and that, when combined with cytotoxic drugs and/or with immunocompetent cells, the potential efficacy of rIL-2 is valuable in cancer therapy.     

Primary and secondary immune response in animals following spontaneous loss of tolerance

Mice subjected to tolerogenic treatment by sheep red blood cells (SRBC) and cyclophosphamide were immunized at various intervals (from 1 to 8 weeks after treatment) either by a single injection of 5 X 10(8) SRBC or by a double-injection of 1 X 10(6) SRBC. In control mice both immunization methods proved to be equally successful. In the experimental animals the immunological memory formation and/or its realization was destroyed to a greater extent and was restored more slowly than the capacity to the primary response.     

Corticosteroids and the humoral immune response of mice. II. Enhancement of bone marrow antibody formation to lipopolysaccharide by high doses of corticosteroids.

The effect of injection of the synthetic corticosteroid dexamethasone sodium phosphate upon the primary response to Escherichia coli lipopolysaccharide (LPS) was studied in mouse spleen and bone marrow. Daily corticosteroid injections, starting 1 day before immunization with LPS, could suppress the anti-LPS plaque-forming cell (PFC) response in the spleen. The higher the dose of corticosteroids, the more the splenic PFC response was suppressed. On the other hand, the bone marrow PFC response showed a dose-dependent enhancement after corticosteroid injections. This effect was maximal when tested 7 days after antigen injection, and constituted a 3- to 15-fold increase after daily injection of 16 mg dexamethasone/kg body wt. The same effect was found in genetically athymic nude mice, showing that the corticosteroid-mediated enhancement of the anti-LPS PFC response in the bone marrow is not due to elimination of T suppressor cells. Probably the differential effect of corticosteroids upon antibody formation in spleen and bone marrow is due to a redistribution of B-lineage cells, with a resulting accumulation in the bone marrow.     

Tumor cells loaded with alpha-galactosylceramide induce innate NKT and NK cell-dependent resistance to tumor implantation in mice

Dendritic cells (DCs) loaded with alpha-galactosylceramide (alpha-GalCer) are known to be active APCs for the stimulation of innate NKT and NK cell responses in vivo. In this study, we evaluated the capacity of non-DCs to present alpha-GalCer in vitro and in vivo, particularly tumor cells loaded with alpha-GalCer (tumor/Gal). Even though the tumor cells lacked expression of CD40, CD80, and CD86 costimulatory molecules, the i.v. injection of tumor/Gal resulted in IFN-gamma secretion by NKT and NK cells. These innate responses to tumor/Gal, including the induction of IL-12p70, were comparable to or better than alpha-GalCer-loaded DCs. B16 melanoma cells that were stably transduced to express higher levels of CD1d showed an increased capacity relative to wild-type B16 cells to present alpha-GalCer in vivo. Three different tumor cell lines, when loaded with alpha-GalCer, failed to establish tumors upon i.v. injection, and the mice survived for at least 6 mo. The resistance against tumor cells was independent of CD4 and CD8 T cells but dependent upon NKT and NK cells. Mice were protected from the development of metastases if the administration of live B16 tumor cells was followed 3 h or 3 days later by the injection of CD1d(high)-alpha-GalCer-loaded B16 tumor cells with or without irradiation. Taken together, these results indicate that tumor/Gal are effective APCs for innate NKT and NK cell responses, and that these innate immune responses are able to resist the establishment of metastases in vivo.     

Enhancing tumor implantation and growth rate of Ramos B-cell lymphoma in nude mice

The ability of a human B-cell lymphoma cell line to grow subcutaneously as tumors in nude mice was investigated. The effect of pretreating mice with cyclophosphamide or whole-body irradiation (WBI) was compared with no pretreatment of the mice. Both methods of pretreatment resulted in a higher tumor implantation rate, compared with that for non-pretreated controls. In mice that underwent WBI-pretreatment, a tumor implantation rate of 100% was observed, whereas mice pretreated with cyclophosphamide had a tumor implantation rate of 80%. In non-pretreated control mice, an implantation rate of only 50% was observed. Three weeks after injection, tumor size was significantly larger in mice of the pretreated groups, compared with that in mice of the group that did not receive pretreatment. Furthermore, particularly in the group pretreated with WBI, the tumors grew more synchronously, compared with tumors in the control group. Results of this study indicate that pretreatment with cyclophosphamide or WBI improves the tumor implantation rate of Ramos cells in nude mice, providing a workable animal model for studying human B-cell lymphoma.     

Persistent activity of suppressor cells in T cell-mediated immune response.

Tolerance to dinitrochlorobenzene contact sensitivity induced i.v. injection of dinitrobenzenesulfonic acid in guinea pigs is a long-lasting phenomenon (up to 1 year). The tolerogen, however, was traceable in the circulation only up to 3 months after its application. In spite of that, tolerance was adoptively transferred by parabiosis 6 months after being induced. Moreover, active suppressor cells eliminated by cyclophosphamide treatment are able to regenerate in those adoptively tolerized animals. These results indicate that the tolerogenic injection stimulates precursors of suppressor cells to generate active suppressor cells and memory cells of suppression. The further formation of active suppressor cells from memory cells seems to be tolerogen independent, but the existence of specific stimulator cells for suppression may be considered. These cells may bind undetectable small amounts of tolerogen. The recovery of suppression might, however, be also due to recovery of suppressor cells which were temporarily inactivated but not destroyed by cyclophosphamide treatment.     

Augmented induction of antitumor cells in vivo by cyclophosphamide fails to benefit antitumor resistance of the host

Summary The present study was designed to examine whether cyclophosphamide augmented induction of antitumor cells and antitumor resistance in C57BL/6 mice pretreated with mitomycin-C-treated EL4 cells (EL4_MMC) plus OK-432, a streptococcal preparation. C57BL/6 mice were pretreated with EL4_MMC (10⁷) plus OK-432 (2.5 KE) i.p. twice at 1-week intervals. When the mice received an i.p. injection of cyclophosphamide at 200 mg/kg 2 days before the last treatment, the antitumor activity of their spleen cells and peritoneal exudate cells (PEC) was effectively augmented 7–8 days after the last treatment. Splenic antitumor activity disappeared 15 days after the last treatment whereas augmented antitumor activity of the PEC was detected even 28 days after the last treatment. This cyclophosphamide effect was dose-dependent and 200 mg/kg was the most effective among the doses tested. If the EL4_MMC plus OK-432 treatment was injected at a s.c. site, it was also effective in combination with cyclophosphamide. The antitumor activity of the PEC from s.c.-pretreated mice, however, was lower than that from i.p.-pretreated mice. Despite the fact that cyclophosphamide effectively augmented induction of antitumor cells in C57BL/6 mice pretreated with EL4_MMC plus OK-432, it diminished rather than augmented, under all conditions tested, the ability of the mice to resist a challenge of live EL4 cells. Reduction of antitumor resistance by cyclophosphamide was also observed in an experimental system of a semi-syngeneic host (BDF₁) tumor (EL4). These results indicate that augmentation of in vivo induction of certain kinds of antitumor cells does not necessarily result in a beneficial augmentation of the host's ability to resist tumor growth.     

Targeted disruption of CD44 in MDAY-D2 lymphosarcoma cells has no effect on subcutaneous growth or metastatic capacity

CD44 splice variants have been shown to be involved in metastasis of carcinomas. In addition, the standard form of CD44 has been implicated in metastasis, particularly of melanomas and lymphomas. To investigate this, we have generated a CD44-negative mutant of the highly metastatic murine MDAY-D2 lymphosarcoma. The two CD44 alleles of this diploid cell line were sequentially disrupted by homologous recombination, using isogenic CD44 genomic constructs interrupted by a neomycin or hygromycin resistance-conferring gene. The resulting double knockout (DKO) cells had completely lost the capacity to bind to immobilized hyaluronic acid, but did not differ from MDAY-D2 cells in integrin expression or in vitro growth. Subcutaneous (s.c.) growth potential and metastatic capacity of MDAY-D2 and DKO cells were assessed by s.c. and i.v. injection of the lowest cell dose (10(3) or 10(4), respectively) that gave rise to tumor formation by MDAY-D2 cells in approximately 100% of the mice. Quite unexpectedly, we observed no difference at all in either s.c. growth rate or local invasion into surrounding tissues between MDAY-D2 cells and the CD44-negative DKO cells. Also hematogenous metastasis formation upon i.v. injection was similar: both parental and DKO cells metastasized extensively to the spleen, liver, and bone marrow. We conclude that, at least for these MDAY-D2 lymphosarcoma cells, the standard form of CD44 is dispensable for tumor growth and metastasis. Our results show that targeted disruption of genes in tumor cells is a feasible approach to study their role in tumorigenesis and metastasis.     

Stimulator of proliferation of spleen colony-forming cells in T-cell deprived mice treated with cyclophosphamide or irradiation

A role for T-cells in the regulation of CFU-S proliferation was investigated by determining the presence and activity of CFU-S proliferation stimulator (CFU-S stimulator) in adult mouse bone marrow after irradiation or cyclophosphamide (Cy) treatment. CBA mice previously deprived of T-cells by thymectomy, irradiation and bone marrow reconstitution (TIR) were thereafter treated with 4.5 Gy irradiation or 200 mg/kg Cy. Regenerating bone marrow cells of TIR and corresponding control mice after irradiation or Cy treatment produced CFU-S stimulator. The dose dependent increase in cytosine arabinoside cell death of normal bone marrow day 8 CFU-S was found when both CFU-S stimulators obtained after irradiation of TIR or corresponding control animals were tested. CFU-S stimulator activity in the bone marrow of TIR-Cy treated mice was also detected, but the effect was not dose-dependent. This was not related to the presence of an inhibitor of CFU-S proliferation. It appears that the CFU-S stimulator activity is not related to IL-6, IL-1 or IL-2, or to an inhibitor of IL-6 or IL-1 activity. The results demonstrate the existence of CFU-S proliferation stimulator unrelated to the two major monokines in the bone marrow of immunosuppressed mice.     

Suppression of NK-mediated natural resistance by interferon treatment of murine lymphomas

The observation that interferon (IFN) can suppress the NK lytic sensitivity of murine lymphomas in vitro led us to examine the consequences of this treatment on tumor behavior in vivo. Preincubation in IFN suppressed natural resistance to two lymphomas in syngeneic DBA/2 and semisyngeneic BDF1 mice in a dose-dependent manner, measured by the retention of (131I)dUrd-labeled tumor. Poly I:C enhancement of NK-mediated natural resistance in the lung, liver, and peritoneal cavity was also abolished by IFN pretreatment. IFN was, however, ineffective in altering the elimination of the IFN-resistant L1210R lymphoma when compared to its IFN-sensitive variant, L1210S. In DBA/2 mice that were made NK-deficient by treatment with cyclophosphamide or rabbit anti-asialo GM1 antiserum, or in congenitally NK-deficient bg/bg strain mice, IFN-treated tumor and control tumor were rejected equally well. This indicated that the effects of IFN were dependent on the presence of NK cells in these mice, and suggests that the IFN suppressed the sensitivity of the lymphomas to NK cell-mediated host resistance.     

Combined therapy with cyclophosphamide and DNA preparation inhibits the tumor growth in mice

Background

When cyclophosphamide and preparations of fragmented exogenous genomic double stranded DNA were administered in sequence, the regressive effect on the tumor was synergic: this combined treatment had a more pronounced effect than cyclophosphamide alone. Our further studies demonstrated that exogenous DNA stimulated the maturation and specific activities of dendritic cells. This suggests that cyclophosphamide, combined with DNA, leads to an immune response to the tumors that were grafted into the subjects post treatment.

Methods

Three-month old CBA/Lac mice were used in the experiments. The mice were injected with cyclosphamide (200 mkg per 1 kg body weight) and genomic DNA (of human, mouse or salmon sperm origin). The DNA was administered intraperitoneally or subcutaneously. After 23 to 60 days, one million tumor cells were intramuscularly grafted into the mice. In the final experiment, the mice were pre-immunized by subcutaneous injections of 20 million repeatedly thawed and frozen tumor cells. Changes in tumor growth were determined by multiplying the three perpendicular diameters (measured by caliper). Students' t-tests were used to determine the difference between tumor growth and average survival rate between the mouse groups and the controls.

Results

An analysis of varying treatments with cyclophosphamide and exogenous DNA, followed by tumor grafting, provided evidence that this combined treatment had an immunizing effect. This inhibitory effect in mice was analyzed in an experiment with the classical immunization of a tumor homogenate. The strongest inhibitory action on a transplanted graft was created through the following steps: cyclophosphamide at 200 mg/kg of body weight administered as a pretreatment; 6 mg fragmented exogenous DNA administered over the course of 3 days; tumor homogenate grafted 10 days following the final DNA injection.

Conclusion

Fragmented exogenous DNA injected with cyclophosphamide inhibits the growth of tumors that are grafted to mice after this combined treatment.     

Suppression of delayed hypersensitivity in mice receiving a massive dose of xenogeneic erythrocytes]

The injection of 6x109 sheep red blood cells to mice suppresses delayed-type hypersensitivity (DTH) in situ and activates spleen cells which prevent sensitization of recipients. Preliminary thymectomy of donors and the treatment of cell suspensions with anti-T-globulin abolish suppression of DTH. Pretreatment of mice with low doses of cyclophosphamide (CY) enhances antibody formation and DTH. Higher doses of CY increase the DTH reaction but inhibit antibody formation. The data obtained allow to conclude that suppression of DTH is due to the activity of short-living, intensively proliferating cells of thymic origin and possibly to B cells.