Adjuvant chemoimmunotherapy of cancer: influence of tumor burden and role of functional immune effector cells in mice. (9/26)

Starting from the observation that success of combined treatment of MBL-2 tumor-bearing mice with the alkylating agent cyclophosphamide (CY; 150 mg/kg) and the immunomodulator maleic anhydride divinyl either copolymer (MVE-2; 25 mg/kg) was dependent upon a 1-3-day interval between treatment with CY and MVE-2, we have further analyzed in vitro and in vivo the relationship between tumor burden and the activity of immune effector cells in an adjuvant chemoimmunotherapy setting with CY and MVE-2. Treatment of MBL-2 tumor-bearing mice with CY (50-200 mg/kg) caused a dose- and time-dependent decrease in the i.p. tumor burden, which correlated with a significant increase in their median survival time. CY increased also the sensitivity of the residual MBL-2 tumor cells to Mo-mediated immunotherapy. The therapeutic efficacy of Mo-mediated immunotherapy with MVE-2, however, was restricted due to adverse effects of CY on the host's immune and hematopoietic functions. The time sequence with which these CY related positive effects on tumor burden and s(Tu)I, as well as the adverse effects on macrophages and hematopoietic functions occurred, gives sufficient explanation for the narrow window in time for successful immunotherapy with MVE-2 after preceding chemotherapy with CY. We therefore propose to modify the conventional chemoimmunotherapy of MBL-2 tumor-bearing mice by combining it with an intermittent in vivo transfer of in vitro cultivated Mo (therapy sequence: CY----Mo transfer----MVE-2), which would result in an increased Mo:MBL-2 tumor cell ratio at the site of the tumor while reducing the adverse effects of CY on macrophage functions.  (+info)

Inability of anti-asialo-GM1 and 2-chloroadenosine to abrogate maleic anhydride-divinyl ether-induced resistance against experimental murine lung carcinoma metastases. (10/26)

Both macrophages and natural killer cells have been implicated in the antimetastatic activity of maleic anhydride-divinyl ether (MVE-5). In the present study, we attempted to utilize anti-asialo-GM1 antibody and 2-chloroadenosine, agents that kill natural killer (NK) cells and macrophages, respectively, to determine the relative contribution of each effector cell type to the overall host defense. These agents were tested in the M109 lung metastasis model in syngeneic BALB/c mice, and the cytotoxic activities of both peritoneal macrophages and splenic NK cells were followed. The most profound antitumor effect was observed when MVE-5 was given before rather than after i.v. tumor inoculation. Treatment i.p. with MVE-5 at 20 mg/kg produced greater than 98% inhibition of subsequent lung metastases when given 2 days prior to tumor. Anti-asialo-GM1 antibody (25 mg/kg, i.p.) and 2-chloroadenosine (50 mg/kg, i.p.) were administered concurrently with MVE-5. Although each agent exhibited greater selectivity for its respective target, the early (Day 2) inhibitory response was nonspecific. By Day 5 after MVE-5 treatment, 2-chloroadenosine only inhibited macrophage tumoricidal activity, and conversely, anti-asialo-GM1 antibody only inhibited NK reactivity. Despite the ability of these agents to increase survival of metastases in control animals, they only slightly abrogated the antimetastatic activity of MVE-5. Our data suggest that caution should be exercised in using these agents to discriminate macrophage and NK responses.  (+info)

In vivo modulation of myelopoiesis and immune functions by maleic anhydride divinyl ether copolymer (MVE-2) in tumor-free and MBL-2 tumor-bearing mice treated with cyclophosphamide. (11/26)

Treatment of normal or MBL-2 tumor-bearing mice with cyclophosphamide (CY) caused severe suppression of myelopoiesis and macrophage (M phi) functions, both of which may limit further use of chemotherapy. Additional treatment with the chemically defined biological response modifier maleic anhydride divinyl ether copolymer (MVE-2) was able to ameliorate the myelosuppressive effects of CY and to restore normal bone marrow cellularity. The stimulatory effects on myelopoiesis, however, could only be obtained by administering MVE-2 at greater than or equal to 3 days after CY, which correlated with an MVE-2-induced simultaneous increase in granulocyte and/or macrophage colony-stimulating factor secretion by bone marrow cells or M phi. Injection of MBL-2 tumor-bearing mice with MVE-2, at 3 days after Cy treatment, caused a decrease in tumor burden and a significant increase in median survival time as compared to treatment with CY alone. At the same time, MVE-2 induced an increase in the number of cytotoxic M phi and a complete restoration within the myelopoietic lineage, which might prevent delayed side effects of CY, such as secondary infections, and might permit more intensive chemotherapeutic treatment. Treatment of MBL-2 tumor-bearing mice with MVE-2, at 6 days after CY, induced a significant increase in M phi cytotoxicity but did not prolong median survival time, probably due to a rapid regrowth of tumor after treatment with CY. Our studies thus show that successful combined therapy with the primary cytotoxic agent CY and the biological response modifier MVE-2 depends on precise timing of the drug regimen and is influenced by the extent and reversibility of CY-induced immunosuppression, as well as by the kinetics of recruitment of new effector cells from bone marrow and by the tumor burden present at the time of treatment.  (+info)

Chemical and biological adjuvants capable of potentiating tumor cell vaccine. (12/26)

With an L1210 tumor vaccine model, three biological and two chemical agents were tested for their ability to act as adjuvants. Adjuvant was administered with irradiated L1210 cells to immunize mice against this poorly immunogenic tumor. Two chemicals, pyran copolymer and glucan, and one biological, Brucella abortus strain 456 ether extract, were shown to be strong stimulators of antitumor immunity. Vaccination with irradiated tumor cells or adjuvant alone did not produce host resistance. Optimal immunity to challenge was produced by concomitant administration of either pyran copolymer, glucan, or B. abortus strain 456 ether extract with L1210 vaccine. Antitumor immunity was maximally expressed when vaccine and adjuvant were administered i.p. Evidence for systemic immunity was demonstrated when challenge was at a distal s.c. site. Mice immune to challenge were found to be refractory to a later rechallenge.  (+info)

Effects of adriamycin and cyclophosphamide treatment on induction of macrophage cytotoxic function in mice. (13/26)

The effects of i.p. and s.c. Adriamycin and cyclophosphamide treatment of BALB/c x DBA/2F1 mice were studied alone and in combination with immunotherapeutic agents, pyran copolymer and Bacillus Calmette-Guerin, on macrophage cytotoxic ability, As assessed by direct viable cell counts of MBL-2 leukemia cells, both Adriamycin and cyclophosphamide produced growth-inhibitory macrophages. This function after s.c. cytostatic treatment peaked at Day 1 and decreased progressively, attaining normal control values by Day 6. When adjuvants, such as pyran and B. Calmette-Guerin, were administered i.p. simultaneously with s.c. Adriamycin or cyclophosphamide, adjuvant-induced cytotoxic function was not markedly affected. A better knowledge of the influence of cytostatic agents alone or combined with immunoadjuvants on macrophage cytotoxic ability may be useful in designing more effective chemoimmunotherapy protocols.  (+info)

Enhancing activity of various immunoaugmenting agents on the delayed-type hypersensitivity response in mice. (14/26)

Six immunoaugmenting agents were tested in the delayed-type hypersensitivity reaction (DTH) in normal BALB/c X DBA/2 mice. The agents tested, levan, lentinan, mannozym, maleic anhydride divinyl ether, polyriboinosinic-polycytidylic acid-poly-L-lysine, and highly purified L-cell interferon, gave significant increases in the DTH response above the sheep red blood cell control. The schedule of doses for each agent corresponded with previous experiments from this laboratory of the maximum natural killer cell activity, macrophage activation, and interferon induction. Highly purified L-cell interferon was capable of eliciting a significant DTH response when given 4 hr after the initial challenge with sheep erythrocytes. In addition, lambda-carrageenan, a macrophage-cytotoxic agent which can render the macrophage inactive, was found to suppress the DTH response to levels slightly above phosphate-buffered saline controls. The carrageenan-induced suppression of the DTH response could be abrogated by coadministration with immunoaugmenting agents to levels attained with the immunoaugmenting agents alone.  (+info)

Augmentation of organ-associated natural killer activity by biological response modifiers. Isolation and characterization of large granular lymphocytes from the liver. (15/26)

Natural killer (NK) activity in the rat and human has been attributed to cells having the morphology of large granular lymphocytes (LGL). However, this association has been less clear in the mouse, largely because of difficulties in obtaining highly enriched populations of LGL from normal spleen and blood. We have previously observed that the administration of the biological response modifier (BRM) maleic anhydride divinyl ether (MVE-2) strongly augmented NK activity in lung and liver, and the augmented NK activity coincided with increased resistance to the formation of experimental metastases in these organs. The degree of NK augmentation was most striking in the liver, an unexpected and previously unreported observation. In the present study, both MVE-2 or Corynebacterium parvum induced a dramatic augmentation of liver NK activity, which reached maximum levels 3-5 d after treatment. This augmentation of NK activity in the liver coincided with a large increase in the number of lymphoid cells with the morphological characteristics of LGL that could be isolated from enzymatically digested suspensions of perfused liver. The yield of LGL per liver following BRM treatment corresponded to a 10-50-fold increase as compared to normal mice. LGL were purified from these enzymatically digested suspensions of perfused liver by depletion of adherent cells on nylon wool columns and subsequent enrichment for low-density lymphoid cells by fractionation on Percoll density gradients. The enrichment of LGL correlated with greatly increased NK activity against YAC-1. Conversely, the higher-density fractions were depleted of both LGL and NK activity. This increase in NK activity in the liver was suppressed by in vivo treatment with anti-asialo GM1 (asGM1) serum. This treatment also resulted in a corresponding reduction in both the total number and percentage of LGL. By flow cytometry analysis, the phenotype of the majority of these highly cytolytic LGL isolated from the livers of BRM-treated mice were asGM1+, Thy-1+, Ly-5+, Qa-5+, Mac-1+, and Gma-1+, whereas these LGL were Ly-1-, Lyt-2-, L3T4-, and surface Ig-. We conclude that the livers of BRM-treated mice can provide a rich source of highly active mouse LGL that could be used for further characterization of this lymphocyte subset. Further, these studies imply a potential for BRM therapy of neoplastic or viral diseases through augmentation of organ-associated immune responses.  (+info)

Apoprotein E is synthesized and secreted by resident and thioglycollate-elicited macrophages but not by pyran copolymer- or bacillus Calmette-Guerin-activated macrophages. (16/26)

Macrophages are active secretory cells that display functionally distinct phenotypes that are regulated by inflammation. We have found that apoprotein E (ApoE), a component of plasma lipoproteins, was synthesized and secreted by resident and nonspecifically stimulated macrophages elicited with thioglycollate broth, but not by activated macrophages obtained from mice treated with bacillus Calmette-Guerin, pyran copolymer, whole Corynebacterium parvum, or bacterial endotoxin. ApoE represented approximately 1% of the newly synthesized protein and approximately 10% of secreted protein of resident and thioglycollate-elicited macrophages. ApoE from thioglycollate-elicited macrophages was indistinguishable from ApoE in mouse plasma lipoproteins, as determined by immunoreactivity, peptide mapping, and molecular weight. When specific antibodies were used to localize cell-associated ApoE, strong immunofluorescence was seen in the Golgi region of resident and thioglycollate-elicited macrophages immediately after removal from the peritoneal cavity, as well as after culture for up to 7 d. In contrast, activated macrophages did not synthesize or secrete ApoE to an appreciable extent and had no immunocytochemically detectable intracellular ApoE. When activated macrophages were cultured in medium containing serum, their activated state, as judged by production of H2O2, declined within 48-72 h in parallel with the induction of synthesis and secretion of ApoE and detection of intracellular ApoE by immunofluorescence. During prolonged culture the rate of synthesis and secretion of ApoE increased in both resident and activated macrophages. Therefore, the synthesis and secretion of ApoE may serve as markers for the functional state of macrophages.  (+info)