Melphalan-mediated potentiation of antitumor immune responsiveness of immunosuppressed spleen cells from mice bearing a large MOPC-315 tumor

Summary Administration of a low dose of l-PAM (0.75 mg/kg) to mice bearing a large SC MOPC-315 tumor and extensive metastases led to the development of augmented antitumor immune potential in their hitherto immunosuppressed spleen cells. Such drug-induced potentiation of antitumor immune responsiveness appeared by day 2 after chemotherapy, and it could not be further enhanced but was actually reduced by depletion of glass-adherent cells, a procedure which is effective in depleting the cells known to have inhibitory activity (i.e., macrophages and metastatic tumor cells). To establish that l-PAM can lead to selective in situ abrogation of the inhibitory effectiveness of the splenic macrophages and metastatic tumor cells, we demonstrated that incubation of immunosuppressed tumor-bearer spleen cells with a low concentration of l-PAM in vitro also resulted in augmented antitumor immune potential that could not be further augmented by depletion of glass-adherent cells. l-PAM-mediated enhancement of the antitumor immune potential of immunosuppressed tumor bearer spleen cells was due at least in part to the effects of the drug on the splenic metastatic tumor cells. Isolated tumor cells treated with a low concentration of l-PAM were not only devoid of inhibitory activity for the primary in vitro antitumor immune response by normal spleen cells, but actually manifested a strong immunostimulatory capacity. Thus, l-PAM given at a low dose enhances the development of potent antitumor immunity which brings about the eradication of a large tumorigenic load that remains after the drug has been cleared from the circulation.Presented in part at the 67th annual meeting of the Federation of American Societies for Experimental Biology in Chicago, April 10–15, 1983 Abbreviations used: L-PAM, l-phenylalanine mustard (Melphalan); CY, cyclophosphamide     

Induction of antitumor immunity by indomethacin

Irradiated tumor cells given, together with indomethacin, to syngeneic mice induced an antitumor response and conferred protection against a challenge of a lethal dose of murine mammary (4T1) and lung (3LL) carcinoma cells. Continuous administration of indomethacin was crucial throughout the entire period of immunization and challenge, as no protection was achieved when the drug was given during only one of these procedures. Antitumor immunity was long-lasting and, when tested in the 4T1 model, 48% of mice were resistant to a second challenge of lethal tumor cells. Tumor-free immune mice that were given indomethacin for more than 300 days remained healthy with normal white blood cell counts and normal spleen size. Cells isolated from immune mice were able to kill tumor cells in culture after in vitro activation by interleukin-2, in a manner similar to cells from naive normal control mice. In addition, the mitogenic response of their T cells was as high as that of the control naive mice. While indomethacin was able to induce antitumor immunity to 4T1 and 3LL murine carcinoma cells, both of which contain a high concentration of endogenic prostaglandin E₂ (PGE2), no such immunity was achieved to murine tumor cells with a low concentration of endogenic PGE2. These results suggest a correlation between PGE2 concentration and the ability of indomethacin to induce antitumor immunity. We therefore suggest that an immunotherapy protocol with long-term dispensation of a tolerable dose of an immunomodulator, given together with irradiated autologous tumor cells, may stimulate antitumor responses to tumors containing high concentrations of endogenic PGE2. Received: 12 August 1999 / Accepted: 21 September 1999     

Immunogenicity of viable tumor cells

Summary The immunogenicity of KMT-17 fibrosarcoma cells which had been xenogenized by infection with FV was compared to that of KMT-17 cells which had been admixed with BCG. We report here that 10⁵ and 10⁶ KMT-17 cells also grew progressively to kill rats, but when 10⁵ KMT-17 cells were administered with BCG the tumor cells did not grow in the majority of rats. The strength of immunogenicity (ETD₅₀), as measured by the number of immunizing cells required for a suppression of growth of 10⁷ KMT-17 cells in 50% of the rats, was 2.1×10³ for FV-KMT-17 and 36.3×10³ for BCG+KMT-17. The tumor cell dose (LTD₅₀) which was required to kill 50% of the rats immunized with 10⁵ FV-KMT-17 was more than 10,000 times higher than that found in normal rats, whereas the number of tumor cells required to kill 50% of the rats immunized with the same number of BCG+KMT-17 was only 3,680 times higher than the amount found in normal rats. Thus the immunogenicity of FV-KMT-17 is much stronger than that of BCG+KMT-17.The difference in immunogenicity between the two vaccines was also observed in the tumor-neutralizing activities of spleen cells obtained from rats which had been immunized with both vaccines, as measured by a Winn assay. Moreover, the antitumor activity of spleen cells from rats immunized with FV-KMT-17 was concentrated in the carrageenan-resistant and plastic nonadherent cells, while that of spleen cells from rats immunized with BCG+KMT-17 was observed in carrageenan-sensitive and plastic adherent cells as well as in nonadherent cells. The involvement of different effector cells indicates that different mechanisms operate in the antitumor resistance in rats immunized with either FV-KMT-17 or BCG+KMT-17. Abbreviations used: FV, Friend leukemia virus; FV-KMT-17, Friend leukemia virus infected KMT-17 cells; EDT₅₀, a 50% effective tumor dose; LTD₅₀, a 50% lethal tumor dose     

The improved effects of specific active immunotherapy on a rat fibrosarcoma by antitumor drugs

Summary We have tried to find out if the combination of a xenogenized tumor cell vaccine and antitumor drugs is able to induce a synergistic increase in the antitumor therapeutic effect. The degree of increase in the LTD₅₀ (50% lethal tumor dose) is expressed numerically, as a quantitative index designed to compare degrees of transplantation resistance to tumor cell challenge. A LTD₅₀ was achieved by an intradermal (i. d.) immunization with xenogenized tumor cells when challenged with tumor cells implanted intraperitoneally 2 weeks after the immunization: this LTD₅₀ value was 527 000 times higher than that of the non-immunized group. When we combined this type of immunization with appropriate doses of bleomycin (BLM) or cyclophosphamide (CY), which are able to augment antitumor immunity, the LTD₅₀ was 723 000–1190 000 times higher than that of the non-immunized group. This increase in the LTD₅₀ is definitely higher than that achieved by a single immunization with irradiated tumor cells (× 33 000) and combined with either BLM (× 93 000) or CY (×140 000). We also studied the therapeutic effect of a tumor cell vaccine combined with antitumor drugs BLM or CY in tumor-bearing rats. We observed a synergistic effect caused by BLM or CY after i. d. immunization with xenogenized tumor cells: this showed a significant increase when compared with the therapeutic effects obtained by chemotherapy alone (P <0.01). Nevertheless, there was no evidence that the above antitumor effects is superior to the effect achieved by irradiated tumor cells.     

Cellular antitumor immune response to a branched lysine multiple antigenic peptide containing epitopes of a common tumor-specific antigen in a rat glioma model

Human malignant gliomas contain epidermal growth factor receptor (EGFR) gene mutations that encode tumor-associated antigens (TAAs) that can be targeted using immunological techniques. One EGFR mutant gene (EGFRvIII) encodes a protein with an epitope that is not found in normal tissues. A number of studies have focused on this unique epitope as a potential target for tumor vaccines. In the present study, we examined the cellular immune effects of a peptide containing multiple copies of the unique EGFRvIII epitope linked together by way of a lysine bridge. Fischer rats were vaccinated with an EGFRvIII multiple antigenic peptide (MAP). While vaccination produced a humoral immune response, anti-MAP antibody production was not accompanied by expression of the Th2 response cytokine IL-4. In MAP/GM-CSF vaccinated animals, a cellular immune response was detected in association with the appearance of CD4⁺ and CD8⁺ T cells at the tumor site. Splenocytes and CD8⁺ T cells from vaccinated rats produced the Th1 cytokine IFN- in vitro in response to stimulation by rat glioma cells expressing EGFRvIII, but not by those expressing wild-type EGFR. MAP vaccine also induced a specific lytic antitumor CTL immune response against F98 glioma cells expressing EGFRvIII, but not against F98 cells expressing either wild-type EGFR or no receptor. The in vivo growth of F98_EGFRvIII cells was attenuated in vaccinated rats; whereas, growth of F98_EGFR cells was not. The median survival of vaccinated rats was increased 72% over that of unvaccinated controls challenged with intracerebral F98_EGFRvIII tumor implants. Therefore, MAP vaccination produced a predominantly cellular antitumor immune response directed against F98 gliomas expressing the EGFRvIII target antigen. The potent immunosuppressive effects of F98 glioma cells mimic the human disease and make this particular tumor model useful for studying immunotherapeutic approaches to malignant gliomas.     

Resistance to tumor growth mediated by Listeria monocytogenes. Destruction of experimental malignant melanoma by LM-activated peritoneal and lymphoid cells.

A murine experimental model of nonspecific tumor destruction mediated by cells activated by Listeria monocytogenes (LM) is described. B16 melanoma growth is prevented or suppressed in the syngeneic host when tumor cells are inoculated in contact with viable LM. In vitro, cultured B16 cells are destroyed by LM immune peritoneal or splenic cells in the presence of the bacterial antigen(s). Activation of LM immune cells in vitro is immunologically specific. Replacement of LM by sheep red blood cells or bovine serum albumin in the in vitro cultures aborts the cytotoxic effect. Further, no tumor cell killing is obtained when thioglycollate-induced or normal peritoneal cells are substituted for LM immune cells in the in vitro cultures. Normal spleen cells in the presence of LM are weakly cytotoxic for B16 cells. Normal peritoneal cells plus LM or LM alone are not. Elimination of thymus derived "T" cells by anti-theta C3H or rabbit anti-mouse brain serum (RAMB) abrogated the cytotoxic effect. Therefore, LM-induced tumor destruction probably occurs through nonspecific mechanism(s) consequent to activation of host "T" cells by specific immune reactivity to LM antigen(s).     

Effects of exposure of different skin areas to low-power laser light

The effect of He-Ne laser light of extremely low power (632.8 nm, 0.2 mW/cm²) on the immune status of mice bearing solid tumors was studied. The state of tumor-bearing animals was assessed taking into account the number of immunocompetent cells, concentration of cytokines (tumor necrosis factor and interleukin-2), production of nitric oxide, expression of heat shock proteins 70 and 90, and the activity of natural killer cells. The model of a solid tumor was formed by subcutaneous transplantation of Ehrlich ascite carcinoma cells to mice; the average lifespan of animals was approximately 55 days. Different areas of skin of tumor-bearing mice were irradiated with laser light either singly (1 min; dose, 0.012 J/cm²) or repeatedly (1 min every 3 days over 30 days; total dose, 0.1 J/cm²). It was established that long-term chronic exposure of mice bearing Ehrlich ascite carcinoma cells to low-power laser light in the thymus projection area and especially in the tumor projection area leads to a decrease in the natural antitumor potential, which is manifested in acceleration of tumor growth and a tendency to decrease in the lifespan of tumor-bearing mice. Conversely, stimulation of antitumor immunity was observed over several days after a single exposure to low-power laser radiation. The results suggest that it is expedient to continue studies of the immunomodulating effects of low-power laser light and demonstrate the necessity of monitoring the immune system in the course of laser therapy.     

Therapeutic potential of Smilax fluminensis ethanolic extract: antitumoral activity in murine melanoma cells

The aim of the study was to investigate the in vitro and in vivo antitumor activity of leaves ethanol extract from Smilax fluminensis on murine melanoma. The extract was performed by ethylic alcohol and submitted to classical chemical analysis. Cytotoxicity test were performed on neoplastic cells, where antitumor activity was expressed in GI₅₀ (concentration that inhibits 50% of cell growth) and the determination of selectivity index using a normal cell line. In addition, BALB/c mice models were used to evaluate the in vivo antitumor activity of extract in two different concentrations against B16-F10 melanoma cells. The tumor inhibition ratio was determined and the histopathological analyses of nodules and liver were compared. The chemical analysis indicated a major presence of phenolic compounds and flavonoids. Cytotoxicity test results that S. fluminensis extract was active in B16-F10 line (GI₅₀: 4.37 µg/mL), being the extract considered a promising antineoplastic agent. In the experimental model, the inhibition percentage of tumoral growth was between 78.77 and 83.49%. Histopathology analysis of nodules showed necrotic cells reduction, adipocytes presence, melanin deposition, vascularization, and inflammatory process in a concentration-dependent manner. On the liver, the animals treated with the extract on both concentrations showed normal hepatic organization, normal hepatocytes, and absence of inflammatory focus. The results indicate that S. fluminensis extract demonstrated both in vitro and in vivo antitumor activity, reducing the tumoral growth in B16-F10 and could therefore be a promising antineoplastic agent.

     

Chemo-adoptive immunotherapy against a guinea-pig leukemia

Summary Strain-2 guinea-pigs bearing the transplantable L₂C leukemia were treated with cytoxan 24 h prior to receiving an injection of either allogeneic or syngeneic spleen cells from donors preimmunized to the leukemia. Treatment with the drug alone produced a remission period which lasted for 4–5 weeks before eventual relapse and death. An IP transfer of spleen or peritoneal exudate (PE) cells from syngeneic strain-2 guinea-pigs hyperimmunized to the leukemia greatly extended the survival times of drug-treated animals beyond that observed in animals receiving normal strain-2 cells. Long-term survivors were refractory to a subsequent challenge with a lethal inoculum of L₂C cells. A reduced tumor load was essential for an immunotherapeutic effect of adoptively transferred cells. The use of sensitized lymphocytes alone failed to control the established disease. Hyperimmune spleen cells from strain-13 and Hartley guinea-pigs also demonstrated a slight capacity to inhibit the proliferation of leukemia cells when injected into diseased animals previously treated with the drug. Due to inadequate drug suppression, however, the injection of allogeneic cells from either immune strain-13 or Hartley guinea-pigs did not prolong the latent period for the appearance of the leukemia to the same extent as either immune strain-2 spleen or PE cells. A marked delay in the onset of disease was noted when immune spleen cells from either syngeneic or allogeneic sources were mixed in vitro with L₂C leukemia cells at a ratio of 200:1 before injection back into normal strain-2 animals. However, an exposure of L₂C blast cells in vitro with heat-inactivated serum obtained from L₂C-immune strain-2 animals significantly enhanced the onset of disease.     

Ribonuclease binase inhibits primary tumor growth and metastases via apoptosis induction in tumor cells

Exogenous ribonucleases are known to inhibit tumor growth via apoptosis induction in tumor cells, allowing to consider them as promising anticancer drugs for clinical application. In this work the antitumor potential of binase was evaluated in vivo and the mechanism of cytotoxic effect of binase on tumor cells was comprehensively studied in vitro. We investigated tumoricidal activity of binase using three murine tumor models of Lewis lung carcinoma (LLC), lymphosarcoma RLS₄₀ and melanoma B-16. We show for the first time that intraperitoneal injection of binase at a dose range 0.1–5 mg/kg results in retardation of primary tumor growth up to 45% in LLC and RLS₄₀ and inhibits metastasis up to 50% in LLC and RLS₄₀ and up to 70% in B-16 melanoma. Binase does not exhibit overall toxic effect and displays a general systemic and immunomodulatory effects. Treatment of RLS₄₀-bearing animals with binase together with polychemotherapy revealed that binase decreases the hepatotoxicity of polychemotherapy while maintaining its antitumor effect. It was demonstrated that the cytotoxic effect of binase is realized via the induction of the intrinsic and extrinsic apoptotic pathways. Activation of intrinsic apoptotic pathway is manifested by a drop of mitochondrial potential, increase in calcium concentration and inhibition of respiratory activity. Subsequent synthesis of TNF-α in the cells under the action of binase triggers extrinsic apoptotic pathway through the binding of TNF with cell-death receptors and activation of caspase 8. Thus binase is a potential anticancer therapeutics inducing apoptosis in cancer cells.     

Modulation of the immune response to tumors by a novel synthetic compound, (4R)-3-benzoyl-N-[(1R)-1-phenylethyl]-4-thiazolidinecarboxamide (RS-0481)

Summary RS-0481, (4R)-3-benzoyl-N-[(1R)-phenylethyl]-4-thiazolidinecarboxamide, is a compound that can re-establish the function of certain lymphoid cell populations impaired by the presence of a growing tumor in an animal. The compound markedly augmented the tumorspecific cytotoxic T lymphocytes,Tdth (delayed-type hypersensitivity T cells), and the nonspecific lymphokine-activated-killer-cell-like cell responses. It also enhanced the tumor-inhibitory effect of macrophages in tumor-bearing mice, but not in normal mice, indicating that it enhances the antitumor immune responses. Lymphocytes from RS-0481-treated tumor-bearing mice released significantly higher amounts of macrophage-activating factor(s) (MAF) and interleukin-2(IL-2)-like factors in culture compared with lymphocytes from untreated animals. Also, sera from treated tumor bearers showed elevated colony-stimulating factor (CSF) activity. Although the compound did not influence the factor-producing activity in mice without tumor, it enhanced the responsiveness of their bone marrow cells, T cells, and macrophages to CSF, IL-2, and MAF. It seems therefore possible that the compound enhances the responsiveness of immunocompetent cells to cytokines, resulting in a marked augmentation of antitumor T cell responses in tumor-bearing mice. Consistently it inhibited the development of lymph node metastasis of transplanted X5563 plasmacytoma, and we showed that T cells play a decisive role in this inhibition. The compound also counteracted the development of suppressor T cell activity in the spleen of tumor-bearing mice.     

Activation of anti-tumor immune response and reduction of regulatory T cells with Mycobacterium indicus pranii (MIP) therapy in tumor bearing mice

Background

Role of immune system in protecting the host from cancer is well established. Growing cancer however subverts immune response towards Th2 type and escape from antitumor mechanism of the host. Activation of both innate and Th1 type response is crucial for host antitumor activity. In our previous study it was found, that Mycobacterium indicus pranii (MIP) also known as M. w induces Th1 type response and activates macrophages in animal model of tuberculosis. Hence, we studied the immunotherapeutic potential of MIP in mouse tumor model and the underlying mechanisms for its antitumor activity.

Methodology and Principal Findings

Tumors were implanted by injecting B16F10 melanoma cells subcutaneously into C57BL/6 mice. Using the optimized dose and treatment regimes, anti-tumor efficacy of heat killed MIP was evaluated. In MIP treated group, tumor appeared in only 50–60% of mice, tumor growth was delayed and tumor volume was less as compared to control. MIP mediated immune activation was analysed in the tumor microenvironment, tumor draining lymph node and spleen. Induction of Th1 response and higher infiltration of immune cells in the tumor microenvironment was observed in MIP treated mice. A large fraction of these immune cells were in activated state as confirmed by phenotypic and functional analysis. Interestingly, percentage of Treg cells in the tumor milieu of treated mice was less. We also evaluated efficacy of MIP along with chemotherapy and found a better response as compared to chemotherapy alone.

Conclusion

MIP therapy is effective in protecting mice from tumor. It activates the immune cells, increases their infiltration in tumor, and abrogates tumor mediated immune suppression.     

Umbelliprenin shows antitumor,antiangiogenesis, antimetastatic,anti‐inflammatory,and immunostimulatory activities in 4T1 tumor‐bearing Balb/c mice

Umbelliprenin (UMB) has shown various pharmacological properties in vitro. We investigated the antineoplastic and immunostimulatory effects of UMB in 4T1 mammary‐tumor‐bearing mice. Two‐hundred microliter of UMB (12.5 mg/ml) was intraperitoneally administrated to healthy and tumor‐bearing female Balb/c mice for a period of 18 days. Data was analyzed using GraphPad Prism 5 software for Windows (version 5, La Jolla, CA). UMB caused a significant decrease in tumor size (P < 0.01). Serum interferon gamma (IFNγ) was augmented in both healthy and tumor‐bearing animals (P < 0.01), and IL‐4 declined in healthy animals (P < 0.01) treated with UMB. Expressions of Ki‐67, VEGF, CD31, MMP2, MMP9, VCAM1, and NF‐κB were significantly decreased in tumors from UMB‐treated animals (P < 0.001), whereas E‐Cadherin and TNFR1 expressions were markedly increased (P < 0.001). The rates of liver and lung metastases in UMB‐administrated animals were smaller compared to the control. UMB can potently inhibit tumor growth, angiogenesis, metastasis, and inflammation and potentiate an antitumor immune response in vivo. However, further investigations are required to evaluate the UMB mechanisms of action in cancerous cells.     

Cyclophosphamide modifies the induction kinetics but not cell types and cytotoxic mechanisms of antitumor cells elicited with OK-432 plus attenuated tumor cells

Summary The present study was designed to examine whether the antitumor cells induced by treatment with mitomycin-C-treated EL4 cells (EL4_MMC) plus OK-432 plus cyclophosphamide differed from those induced by treatment with EL4_MMC plus OK-432 in terms of their cell types and antitumor mechanisms. Antitumor activity of peritoneal exudate cells (PEC) from mice receiving either treatment was nonspecific, and inhibition of their target cell growth increased for up to 24 h. Macrophage toxin, silica and trypan blue abrogated the activity in vitro and in vivo, respectively. The activity of the PEC was inhibited with inhibitors of the arachidonic acid cascade, such as dexamethasone, 4-bromophenacyl bromide and nordihydroguaiaretic acid but not esculetin, ibuprofen, indomethacin and BW755C.N ^G-monomethyl-l-arginine, a specific competitive inhibitor of thel-arginine-dependent nitric oxide synthesis, also inhibited the activity. These results and morphological observations indicated that antitumor cells in the PEC from mice receiving either treatment were macrophages, and that their activity was closely related to the arachidonic acid cascade and to nitric oxide. Antitumor activity of the PEC spontaneously decayed in vitro and this decay was inhibited by the addition of OK-432 or lipopolysaccharide. On the other hand, cyclophosphamide sustained the appearance of antitumor cells in mice treated with EL4_MMC plus OK-432. Therefore, cyclophosphamide treatment did not modify cell types and cytotoxic mechanisms of antitumor cells elicited with EL4_MMC plus OK-432, but did modify the induction kinetics of such antitumor macrophages.     

Passive transfer of tumor immunity with spleen cells from guinea pigs cured of hepatocarcinoma by nonspecific immunotherapy

Summary The purpose of this study was to evaluate cell-mediated tumor immunity in strain-2 guinea pigs cured of line-10 hepatocarcinoma by oil-in-water emulsions containing phenol-water extracts from either BCG or the Re mutant of Salmonella typhimurium (Re ET) admixed with mycobacteria glycolipid (P3). Treatment with these emulsions produced complete regression of established tumor nodules and prevented the growth of lymph node metastases in 25 of the 28 animals inoculated intradermally (ID) with 10⁶ line-10 cells and given intralesional immunotherapy 6 days later. No tumor regression was observed in animals given phenol-water extracts alone. Spleen cells, taken from guinea pigs cured of line-10 by BCG extract + P3 or Re ET + P3, were tested for their influence on tumor growth by means of an in vivo adoptive neutralization test (Winn test). Cell transfer was accomplished by the subcutanous injection of various concentrations of spleen cells admixed with 10⁵ viable line-10 cells. The results showed that as few as 10⁷ immune spleen cells completely inhibited the growth of 10⁵ tumor cells in 46–54% of the animals. The best tumor growth inhibition (77–85%) was observed in animals given 5 × 10⁷ immune cells admixed with 10⁵ tumor cells. The onset of transferrable tumor immunity was earlier in animals treated with the BCG extract + P3 than in those given the Re ET + P3. However, the duration of detectable tumor immunity was longer in the latter group. In contrast, no inhibition of tumor growth was observed in animals given spleen cells from normal or tumor-bearing guinea pigs. Moreover, spleen cells obtained from guinea pigs immunized with BCG extract + P3 or Re ET + P3 emulsions only and admixed with line-10 cells failed to transfer tumor immunity to normal animals. Thus, results from this study clearly demonstrated that cell-mediated tumor immunity was elicited in animals cured of line-10 tumor with combinations of P3 and phenol-water extracts of either BCG or Re mutant of S. typhimurium and that sensitized spleen cells effectively transferred systemic tumor immunity to normal recipients.     

T cell augments the antitumor activity of tumor-targeting <Emphasis Type="Italic">Salmonella</Emphasis>

Systemic administration of Salmonella to tumor-bearing mice leads to preferential accumulation within tumor sites and retardation of tumor growth. However, the detailed mechanism of Salmonella-induced antitumor immune response via host T cell remains uncertain. Herein, we used wild-type, CD4⁺ T-cell-deficient, and CD8⁺ T-cell-deficient mice to study the role of T cell in the antitumor immune responses induced by Salmonella enterica serovar Choleraesuis (Salmonella Choleraesuis). When systemically administered into mice bearing tumors, Salmonella Choleraesuis significantly inhibited tumor growth by 50%. In contrast, in T-cell-deficient mice, there was only 34–42% inhibition of tumor growth. We found that treatment with Salmonella Choleraesuis significantly upregulates interferon-γ in wild-type and CD8⁺ T-cell-deficient mice, but not in CD4⁺ T-cell-deficient mice. Furthermore, immunohistochemical staining of the tumors revealed more infiltration of macrophages and neutrophils in wild-type mice after Salmonella Choleraesuis treatment compared with those in T-cell-deficient mice. The antitumor therapeutic effect mediated by Salmonella Choleraesuis is associated with an inflammatory immune response at the tumor site and a tumor T helper 1-type immune response. In conclusion, these results suggest that tumor-targeted therapy using Salmonella Choleraesuis, which exerts tumoricidal effects and stimulates T cell activities, represents a potential strategy for the treatment of tumor.     

Antitumor Lipopolysaccharide from Heptoseless Mutant of Proteus mirabilis

Studies on lipopolysaccharide (LPS) from the cells of Proteus mirabilis RMS-203 were focused upon reduction of lethal toxicity and of pyrogenicity by biological and chemical modification. A heptoseless mutant, strain N-434, was isolated by the use of phage resistancy as a tool. LPS from that heptoseless mutant was completely deficient in neutral sugars and mainly composed of 2-keto-deoxy-octonic acid (KDO), glucosamine and fatty acids. It revealed almost the same antitumor activity as LPS of the wild type but it was less toxic and less pyrogenic.

Hydroxylaminolysis and reduction with LiAlH₄ resulted in removal of fatty acids from LPS accompanied with decrease in lethal toxicity and antitumor acitivity but not in pyrogenicity.

Lipid A fractions showed almost the same antitumor activity as intact LPS but less lethality and less pyrogenicity.     

Prostaglandin E and cancer Growth

Summary This paper reviews the evidence linking prostaglandin E (PGE) with the growth of neoplastic tissue. PGE ₂ is present in high concentrations in many natural and experimentally produced cancers. The immunosuppressive effect of some tumors in mice is due at least in part to a prostaglandin mechanism. The growth of these same tumors can be slowed and in some cases the tumor eliminated by administration of PG synthetase inhibitors. It is not yet clear whether the antitumor properties of these PG synthetase inhibitors are due to their releasing the hostimmune system from the chronic prostaglandin-mediated suppression of the tumor, resulting in an effective immune response to the tumor, or whether another mechanism is responsible. In humans overproduction of PGE ₂ by macrophages is partly responsible for the depressed PHA response in patients with Hodgkin's disease.     

Antitumor effects of interleukin-2 and mismatched double-stranded RNA,individually and in combination,against a human malignant melanoma xenograft

Summary The antitumor effects of recombinant interleukin-2 (rIL-2) and mismatched double-stranded RNA (dsRNA) were assessed in tissue culture and in a nude mouse model. Mismatched dsRNA did not show a direct antiproliferative effect against the human malignant melanoma cell line, BRO, in tissue culture. However, treatment of the BRO cells with up to 1000 units/ml rIL-2 in culture showed a slight increase in growth rate. Combined rIL-2/mismatched dsRNA treatment also demonstrated a similar slight enhancement of growth. Nude mice bearing subcutaneous tumors were treated by intraperitoneal injection of low doses (5000–20 000 units) of rIL-2 and mismatched dsRNA (500 µg). The in vivo tumor growth was significantly inhibited by the combined treatments (P <0.05) and survival was significantly increased (P <0.05). Measurement of cytotoxicity using splenocytes from treated animals showed significant augmentation of lytic activity against natural killer(NK)-sensitive YAC-1 cells in all rIL-2/mismatched dsRNA treatment groups, compared to the individual treatments or controls (P <0.05). Cytotoxicity of the splenocytes against the NK-resistant BRO cells was also augmented in animals treated with mismatched dsRNA and the highest rIL-2 dose utilized here (P <0.01). Renal, liver, and hematological toxicity was evaluated by measurement of blood urea nitrogen, creatinine, serum asparrtate aminotransferase, and a complete blood count with differential. There were no significant differences in these parameters in any of the treatment groups. Similarly, no differences in weight of the animals was seen in any treatment group. These results indicate that the combination of low-dose rIL-2 and mismatched dsRNA can potentiate host-mediated antitumor effects, yielding increased survival, without significant toxicity.     

Immune reactivity in SL2 lymphoma-bearing mice compared with SL2-immunized mice

Summary We have studied the rather paradoxical phenomenon of the growth of an antigenic tumor in an immunocomponent host. This phenomenon was studied by comparing (a) the lymphocyte reactivity and (b) the macrophage cytotoxicity, during SL2 growth in DBA/2 mice (SL2-bearing mice) and in DBA/2 mice immunized against SL2 tumor cells (SL2-immune mice). Immune mice rejected a challenge of tumor cells. The immune T-lymphocytes rendered macrophages cytotoxic (arming) and were able to transfer tumor resistance to naive animals. Nonimmunized mice did not reject a challenge of SL2 cells. In these tumor-bearing mice various forms of immune reactivity were tested. Lymphocytes with the capacity to arm macrophages could not be found in the lymphoid organs. However, lymphocytes isolated from the tissue directly surrounding the subcutaneous SL2 tumor could arm macrophages in vitro.Shortly after subcutaneous tumor grafting cytotoxic macrophages were found in the peritoneal cavity. In the serum macrophage arming factors were detected that rendered macrophages cytotoxic in vitro. This cytotoxicity of the peritoneal macrophages and the presence of macrophage arming factors in the serum showed a similar biphasic pattern. The first phase of cytotoxicity between day 3 and 8 after tumor grafting was tumor (SL2) specific. The second phase from day 12 and onwards was not tumor specific. During the first 4 days after SL2 grafting the DBA/2 mice expressed a specific concomitant immunity to a second tumor graft. Then 7 or more days after grafting the first SL2 tumor, the concomitant immunity was nonspecific as the growth of a second SL2 tumor graft and a L5178Y (DBA/2) tumor graft were inhibited. In addition, the immune suppressive activity of serum and lymphocytes was tested. Neither serum nor lymphocytes from SL2-bearing mice suppressed the macrophage arming capacity of SL2 immune lymphocytes. Lymphocytes from tumor-bearing mice did not inhibit the capacity of SL2-immune lymphocytes to transfer resistance to naive animals. On the contrary, lymphocytes obtained from SL2-bearing mice 14 days after SL2 grafting transfered tumor resistance in a Winn-type assay. These data suggest that the growth of an antigenic tumor is due to the inability of the immune system to mount an effective antitumor effector cell population during tumor growth, rather than an immune suppression of the antitumor reactivity, as a limited immune reactivity could be detected in tumor-bearing mice, whereas immune suppression could not be detected.