A radiosensitive T-lymphocyte associated with resistance of DBA/2 mice harboring Friend leukemia virus-dormant infections to transplantable Friend leukemia virus-erythroleukemia cells.

The immunobiology of Friend erythroleukemia virus (FLV) has been the focal point of much research into immunological control of leukemia. We have been studying a murine model in which a rapidly fatal FLV infection of DBA/2 mice is suppressed to a dormant state by treatment with statolon, a double stranded RNA extract of Mycoplasma stoloniferum. We report here that mice with FLV-dormant infections resist the accumulation of transplanted FLV-transformed erythroleukemia cells (FLC-745) and that FLC-745 cells persist in the spleen for a prolonged period. Winn assays revealed that the spleen of FLV-dormant mice contain radiosensitive T-lymphocytes with anti-FLC-745 cell activity. Whole body irradiation of FLV-dormant mice abrogated their resistance to transplanted FLC-745 cells and confirmed the radiosensitivity of the protective immune response.

Elimination of L5178Y cells from tumor-dormant DBA/2 mice by specific active immunotherapy.

Cytolytic T-lymphocytes (CTL) can be repeatedly stimulated in L5178Y cell tumor-dormant DBA/2 mice by the i.p. inoculation of 2 X 10(6) X-irradiated L5178Y cells. The restimulated CTL activity has the same kinetics of generation and decline and the same target cell specificity as does the CTL response generated during establishment of the L5178Y cell tumor dormant state. No increase in adherent cell-mediated cytolytic activity or cytolytic or cytophilic anti-L5178Y antibody can be detected after inoculation of irradiated L5178Y cells. The repeated stimulation of CTL activity in tumor-dormant DBA/2 mice results in the elimination of L5178Y cells from a significant number of tumor-dormant mice.

Enhanced suppressor macrophage activity associated with termination of the L5178Y cell tumor-dormant state in DBA/2 mice.

Both cytolytic T-lymphocytes and cytolytic macrophages have been implicated in the long-term maintenance of L5178Y cells in a tumor-dormant state in DBA/2 mice. Eventually, however, the tumor-dormant state terminates, and all mice develop ascitic tumors. In an evaluation of the mechanisms involved in termination of the tumor-dormant state, we detected in the peritoneal cavity of many tumor-dormant mice macrophages with increased capacity to suppress the in vitro generation of a secondary anti-L5178Y cell cytolytic T-lymphocyte response. The incidence of macrophage-mediated immunosuppressive activity in individual tumor-dormant mice was related directly to the number of tumor cells in the peritoneal cavity of those mice. Furthermore, in tumor-dormant mice harboring fewer than 5 X 10(4) L5178Y cells, the detection of macrophage-mediated immunosuppressive activity was a prognostic indicator of termination of the tumor-dormant state and development of an ascitic tumor. These data suggest that peritoneal macrophage-mediated immunosuppressive activity, through inhibition of cytolytic T-lymphocyte generation in vivo, contributes to the termination of the tumor-dormant state and development of ascitic tumors.

Effect of 1,25,28-trihydroxyvitamin D2 and 1,24,25-trihydroxyvitamin D3 on intestinal calbindin-D9K mRNA and protein: is there a correlation with intestinal calcium transport?

Although analogs and metabolites of vitamin D have been tested for their calciotropic activity, very little information has been available concerning the effects of these compounds on gene expression. In this study one analog of vitamin D, 1,25,28-trihydroxyvitamin D2 [1,25,28-(OH)3D2], and one metabolite, 1,24,25-trihydroxyvitamin D3 [1,24,25-(OH)3D3], were tested for their effect on intestinal calbindin-D9K mRNA and protein as well as for their effect on intestinal calcium absorption and bone calcium mobilization. These compounds were also evaluated for their ability to compete for rat intestinal 1,25-(OH)2D3 receptor sites and to induce differentiation of human leukemia (HL-60) cells as indicated by reduction of nitro blue tetrazolium. In vivo studies involved intrajugular injection of 12.5 ng 1,25-(OH)2D3 or test compound to vitamin D-deficient rats and sacrifice after 18 h. 1,25,28-Trihydroxyvitamin D2 had no effect on intestinal calcium absorption, bone calcium mobilization, or intestinal calbindin-D9K protein and mRNA. Competitive binding to 1,25-(OH)2D3 receptors was 0.8% of that observed using 1,25-(OH)2D3. However, 20- and 40-fold higher doses of 1,25,28-(OH)3D2 (250 and 500 ng) resulted in significant inductions in calbindin-D9K protein and mRNA (3.5 to 7.4-fold), although doses as high as 800 ng were found to have no effect on intestinal calcium absorption or bone calcium mobilization.(ABSTRACT TRUNCATED AT 250 WORDS)

Suppression of cytotoxic lymphocyte responses in vitro by soluble products of alloantigen-activated spleen cells.

Suppression of in vitro cytotoxic lymphocyte (CL) responses was mediated by soluble factor(s) produced when in vivo alloantigen-activated suppressor cells were re-exposed to alloantigen in vitro. Elaboration of suppressor factor (SF) was T cell dependent and was optimal 7 days after alloantigen injection. Suppressor factor failed to inhibit CL generation when alloantigen-primed cells rather than normal spleen cells were used as responders. Moreover, SF added at day 3 of incubation rather than at culture initiation was also ineffective, suggesting that suppression probably occurs during antigen induction or early differentiation. Additionally, suppression was abrogated by the presence of 2-mercaptoethanol. Studies combining SF and CL responder cells from a variety of H-2 disparate mouse sdrains revealed that suppression of CL responses: 1) was not alloantigen specific; 2) did not require H-2 homology between responder and suppressor strains; and 3) could not be demonstrated with CBA/J mice. Although CBA/J CL responses were not suppressed by any SF preparation, allo-sensitized CBA/J spleen cells did elaborate SF that inhibited BALB/c CL responses.

Role of cellular density, in vitro, in anti-tumor activity of CFA-treated and immunized cells.

Incorporation of tritiated deoxythymidine (3HdT) into DNA was used to measure growth, in vitro, of P815 tumor cells admixed with spleen and peritoneal effector cells. At a high tumor cell density ((1x10(5) cells per dish), using anti-theta and anti-macrophage sera, T-cells and macrophages from the peritoneum of immunized mice could be identified as cells possessing anti-tumor activity. A nonspecific inhibition by normal effector cells, which occurred at the high tumor cell density, did not occur at a lower tumor cell density (1x10(4) cells per dish). Therefore, the effects of immunization and Freund's adjuvant treatment on the anti-tumor activity of effector cells were determined more accurately when normal cells were no longer inhibitory. Thus, experimental variables dealing with cellular density (cells/mm2 of the culture vessel surface) and effector:tumor cell ratios play an important role in the anti-proliferative capacity of effector cells.

Establishment and control of the L5178Y-cell tumor dormant state in DBA/2 mice.

The L5178Y-cell tumor dormant state in DBA/2 mice is an excellent model for assessing immunologically mediated tumor-growth restraint mechanisms associated with establishment and control of a tumor dormant state. It has enabled us to relate components of the host's tumor suppressive immune system to the stage of tumor dormancy and the magnitude of the tumor burden. A strong CTL response has been associated with establishment of the tumor dormant state and can be reelicited in vivo or in vitro, after its initial decline, by reexposure to tumor antigen. This reelicitation is mediated via immunologic stimulation of memory CTL. Combined cultures of NAD T-lineage lymphocytes and macrophages from tumor dormant mice produce considerable cytolytic activity where little or no activity can be detected in the individual populations. Based on the similar pattern of tumor target cell specificity of the two responses, it is likely that memory CTL contribute to this synergistic cytolytic activity. The synergistic cytolytic response persists after CTL activity has waned to undetectable levels and is probably the predominant cytolytic activity associated with maintenance of the tumor dormant state. However, this activity may be obscured by proliferation of endogenous tumor cells, which in turn triggers direct macrophage-mediated cytolytic activity. The target cell specificity of this direct macrophage-mediated cytolytic response is also similar to the CTL response suggesting T cell (or memory CTL) involvement in its generation. The L5178Y-cell tumor dormant model is well suited for attempts at cure with immunotherapy. Active specific and nonspecific immunotherapy are each capable of eliminating all tumor cells from approximately 50% of tumor dormant mice. The L5178Y-cell tumor dormant state is one of several animal models of tumor dormancy. The great variety of growth restraint mechanisms that control tumor dormant states in animal systems is strong evidence that tumor dormant states exist in cancer in human beings.

Regulation of cytotoxic lymphocyte responses in vitro by alloantigen-activated spleen cells.

Spleen cells obtained from BALB/c mice 4 days after allosensitization to C57BL/6 spleen cells via footpad injection suppressed the in vitro generation of BALB/c cytotoxic lymphocytes (CL) against C57BL/6 spleen cells in mixed leukocyte cultures (MLC). Suppressor activity was demonstrated by spleen cells at 4 and 7 days but not at 2, 10, or 14 days after allosensitization and was abolished by treatment with anti-Thy-1,2 serum and complement. A weak and transient cytotoxic response directed against the sensitizing alloantigen was associated with suppressor spleen cell populations, but was dissociated from suppressor function by two experimental approaches. First, increasing stimulatory cell concentration in MLC did not competitively diminish the suppressor activity; rather, the magnitude of suppression increased as the stimulatory cell concentration was increased. Second. BALB/c suppressor cells generated in vivo by either H-2b or H-2k alloantigens suppressed CL responses generated simultaneously against both alloantigens in vitro. CL responses generated against one or the other H-2 haplotype in vitro were suppressed only by suppressor cells activated by that haplotype. Therefore, splenic suppressor cells activated by alloantigen in vivo required antigen-specific restimulation in vitro; thereafter, responder cells syngeneic with the suppressor cell were rendered hyporesponsive to alloantigens by an antigen-nonspecific mechanism.

The therapeutic activity in cancer of IL-2 in combination with other cytokines.

Animal studies have been carried out to assess the antitumour efficacy of recombinant interleukin-2 (rIL-2) in combination with other cytokines. In several murine tumour models, rIL-2 in combination with recombinant alpha interferon (rIFN-alpha) elicits a potent antitumour response which is often greater than that which can be reached with the individual agents at non-toxic doses. By contrast, recombinant gamma interferon (rIFN-gamma) usually fails to potentiate the antitumour response to rIL-2. Recombinant alpha tumour necrosis factor (rTNF) can synergize with rIL-2 in some circumstances, but, as with the rIL-2/rIFN-alpha combination, the correct regimen is critical for generating a potent response without overt toxicity. Although appropriate cytokine combinations can lead to markedly enhanced tumour infiltration by lymphocytes, it is not clear that only a single type of lymphocyte is invariably involved in the antitumour response or, for that matter, the toxic side effects; nor has the mechanism of action of any of the cytokines in the therapeutic action been unequivocally elucidated. Finally, results of early clinical studies appear to be consistent with results in preclinical models: promising clinical responses to the combination of rIL-2 and rIFN-alpha have already been observed and further study is merited.

Interaction between T cells and non-T cells in suppression of cytotoxic lymphocyte responses.

Generation of cytotoxic T lymphocytes (CTL) in mixed leukocyte cultures was suppressed by a factor elaborated by alloantigen-activated T cells. This suppressor factor, CTL-TsF, in contrast to a factor that suppresses proliferative responses in mixed leukocyte reactions (MLR-TsF), was effective only when added during the first 24 hr of a 6-day-culture period. Moreover, removal of CTL-TsF 24 hr after culture initiation failed to restore CTL responses. CTL activity could be rescued from suppressed cultures, however, by addition of 2-mercaptoethanol on days 3 or 4. Similarly, transfer of nonadherent cells at 3 or 4 days from cultures treated with CTL-TsF to cultures of adherent cells initiated in control factor restored CTL responses. Mixing experiments with cells pulsed with CTL-TsF for 4 hr at culture initiation identified a target of CTL-TsF as a Thy-1 negative cell that was adherent to plastic and to Sephadex G-10. Suppression was not due to interference with physiologic accessory cell function, but more likely was accomplished via a negative signal from CTL-TsF-pulsed cells. The results thus suggest that CTL-TsF acts early, but reversibly, in the CTL differentiative process via a second suppressor effector cell, possibly a macrophage.

Effects of vitamin D derivatives on soft tissue calcification in neonatal and calcium mobilization in adult rats.

The activity of 18 vitamin D analogs on soft tissue calcification and growth impairment in neonatal rats and their effect on bone calcium mobilization, intestinal calcium absorption and binding to intestinal 1,25-dihydroxyvitamin D3 receptors in adult rats were compared. Depending on the chemical modification of the vitamin D parent compounds, they could be separated into active and inactive analogs. Cholecalciferol and ergocalciferol were similarly active, but epimerization of ergocalciferol at carbon 23 caused loss of activity. Hexafluorination at carbon 26 and 27 and the introduction of a double bond at carbon 22 or 23 had no or little effect on the activity. The loss of activity was caused by the introduction of a triple bond at carbon 23 and by hydroxylation at carbon 23, 26 or 28. The differentiation of human promyelocytic leukemia cells (HL-60) induced by these derivatives was used as a parameter for antitumour activity. All six analogs, which markedly affected calcium metabolism, were highly active in HL-60 cells. However, at least three derivatives were highly active in the antitumour test but failed to induce hypercalcemia. Thus, these results indicate that it could be possible to develop medically useful vitamin D derivatives devoid of hypercalcemic side-effects.

Cytotoxic T lymphocytes in DBA/2 mice harboring L5178Y cells in a tumor-dormant state.

Previous experiments have demonstrated a temporal relationship between the decline of cytotoxic T lymphocyte (CTL) activity in the peritoneal cavity of DBA/2 mice harboring L5178Y cells in a tumor-dormant state and the appearance of ascitic tumors. Some tumor-dormant mice remain clinically normal for many weeks after the decline of CTL activity, and this activity can be rapidly restimulated by an IP inoculation of irradiated L5178Y cells. We report here that the peritoneal cells from many tumor-dormant mice can be stimulated to cytolytic activity in vitro when cultured for 4 days either with or without the addition of irradiated L5178Y cells. Peritoneal cell populations which cannot be stimulated in vitro can suppress the generation of CTL in those populations which can be stimulated. The tumor-dormant state may terminate when suppressor cells in the peritoneal cavity of tumor-dormant mice inhibit the generation of CTL activity and permit tumor cells to produce an ascitic tumor.

Toxicity of human recombinant interleukin-2 in the mouse is mediated by interleukin-activated lymphocytes. Separation of efficacy and toxicity by selective lymphocyte subset depletion.

Human recombinant interleukin-2 (rIL-2) was administered to normal and tumor-bearing BDF mice for 1 to 3 weeks, and the hematologic, clinical chemistry, gross and histopathologic findings were evaluated. Vascular leak syndrome (pulmonary edema, pleural effusion, ascites), hepatocyte necrosis, elevated hepatic serum transaminases, hypoalbuminemia, tissue and peripheral eosinophilia, thrombocytopenia, and prerenal azotemia were the detrimental effects of rIL-2 treatment. Vascular leak syndrome and hepatocyte necrosis were causally associated with vascular-oriented lymphocytic infiltration of pulmonary and hepatic parenchyma. Pleural effusions contained up to 99,000 cells/mm3, most of which were large granular lymphocytes. Antiserum to the glycolipid asialo GM1 (ganglio-n-tetrosylceramide), given simultaneously with rIL-2, prevented overt toxicity of rIL-2 (mortality, vascular leak syndrome, and hepatic damage) and substantially reduced infiltration of pulmonary and hepatic vasculature by asialo GM1+ lymphocytes. Asialo GM1 antiserum did not inhibit lymphoid hyperplasia, tissue infiltration by Lyt 2+ lymphocytes, tissue and peripheral eosinophilia, or thrombocytopenia in rIL-2 treated mice. Additionally, asialo GM1 antisera prevented toxicity, but not anti-tumor efficacy, of high dose rIL-2 therapy in BDF mice bearing the colon 38 adenocarcinoma. These results suggest that, in BDF mice and with this tumor model, vascular leak syndrome and hepatocyte necrosis are mediated by an endogenous subset of rIL-2-stimulated lymphocytes which are asialo GM positive, that mechanisms of toxicity and efficacy associated with high dose rIL-2 therapy are not necessarily the same, and that these mechanisms can be therapeutically separated.

Efficacy and toxicity elicited by recombinant interferons alpha and gamma when administered in combination to tumor-bearing mice.

Administration of rHuIFN-alpha A/D and rMuIFN-gamma as single agents to tumor-bearing mice resulted in a dose-related antitumor effect in each of the six models studied. When the IFNs were given in combination, the effects varied between the tumor systems. No increase in efficacy was seen in mice bearing B16-F10 melanoma or M5076 reticulum cell sarcoma while additive antitumor activity was shown in the KA31 fibrosarcoma and P388 leukemia systems. Mice inoculated with L1210 lymphoma or colon 38 carcinoma, however, revealed enhanced efficacy which was greater than additive. The data also reveal that combination of IFNs alpha and gamma administered to normal and tumor-bearing mice resulted in toxicity which was not predicted by the appropriate doses of the single agents. These studies suggest that combination of IFNs alpha and gamma may provide greater therapeutic utility than the single agents and underscore the need for additional, carefully designed preclinical and clinical efforts.