Recombinant interleukin-6 increases the intracellular and extracellular growth of Mycobacterium avium

Human monocytes were isolated from the peripheral blood of normal donors and allowed to differentiate in vitro into macrophages. The susceptibility of these cells to infection with a virulent Mycobacterium avium and its modulation by some soluble factors was monitored. The virulent strain of Mycobacterium avium grew progressively in untreated macrophage monolayers. Interleukin-6 (IL-6) was tested for its ability to modulate the macrophage-mycobacteria interaction. Surprisingly, IL-6 was shown to increase M. avium growth in macrophage monolayers by twofold as compared with untreated cells, when added before or after infection. Moreover, addition of rIL-6 to replicating mycobacteria in vitro enhanced their growth two- to three-fold as compared with cultures treated with rIL-6 and a rabbit antiserum to rIL-6. Treatment with IL-6 and interferon-gamma (IFN-gamma) or IL-4 did not modify the growth promoting effect of IL-6 in human macrophages. Overall, our results suggest that IL-6 may contribute significantly to the pathogenesis of infections with M. avium by promoting mycobacterial growth.     

Generation of tumor-specific cytotoxic T lymphocytesin vivo by combined treatment with inactivated tumor cells and recombinant interleukin-2

In order to search for a new therapy that would maximize the effect of interleukin-2 (IL-2) in evoking antitumor immunity in vivo, the therapeutic effect of a combination of mitomycin-C(MMC)-treated tumor cells and recombinant IL-2 was examined for its induction of antitumor activity against established melanoma metastasis. In C57BL/6 mice intravenously (i. v.) injected with B16 melanoma cells on day 0, the combined treatment with an intraperitoneal (i. p.) injection of MMC-treated melanoma cells on day 6 and 2500 U rIL-2 (twice daily) on days 7 and 8 markedly reduced the number of pulmonary metastases. This antitumor activity was more effective than that in untreated controls and mice that were injected with MMC-treated melanoma cells alone or rIL-2 alone. When the i. p. injection of MMC-treated tumor cells was replaced by other syngeneic tumor cells, antitumor activity against metastatic melanoma was not induced. The antitumor activity induced by this treatment increased in parallel with an increase in the dose of rIL-2 injected. In contrast, an i. p. injection of soluble tumor-specific antigens alone could induce only a marginal level of antitumor activity, and this activity was not augmented by subsequent i. p. injections of rIL-2. In vivo treatment with anti-CD8 monoclonal antibody (mAb), but not with anti-CD4 mAb or anti-asialo-GM1 antibody, abrogated the antitumor activity induced by this combined therapy. This suggests that the antitumor effect was dependent on CD8⁺ T cells. Lung-infiltrating lymphocytes from mice that had been i. v. injected with melanoma cells 11 days before and were treated with this combined therapy, showed melanoma-specific cytolytic activity. This combined therapy also showed significant antitumor activity against subcutaneously inoculated melanoma cells. These results demonstrate that the combined therapy of an i. p. injection of MMC-treated tumor cells and subsequent and consecutive i. p. administration of rIL-2 increases antitumor activity against established metastatic melanoma by generating tumor-specific CD8⁺ CTL in vivo.     

Improved clearance of Mycobacterium avium upon disruption of the inducible nitric oxide synthase gene.

Mice genetically deficient in the inducible NO synthase gene (iNOS-/-) were used to study the role played by NO during infection by Mycobacterium avium. iNOS-/- macrophages were equally able to restrict M. avium growth in vitro following stimulation by IFN-gamma and TNF-alpha as macrophages from wild-type mice. In vivo, the infection progressed at similar rates in wild-type and NO-deficient mice during the first 2 mo of infection, but the latter mice were subsequently more efficient in clearing the mycobacteria than the former. The increased resistance of iNOS-/- mice was associated with higher IFN-gamma levels in the serum and following in vitro restimulation of spleen cells with specific Ag, increased formation of granulomas and increased survival of CD4+ T cells. We show that NO is not involved in the antimycobacterial mechanisms of M. avium-infected macrophages and, furthermore, that it exacerbates the infection by causing the suppression of the immune response to the pathogen.     

Enhanced expansion of the thymic CD8+ cell subset as a potential mechanism for the generation of enhanced antitumor cytotoxicity by thymocytes from low-dose melphalan-treated MOPC-315 tumor bearers

Summary We have previously shown that thymocytes from low-dose melphalan (l-phenylalanine mustard)-treated MOPC-315-tumor-bearing mice (melphalan TuB) are able to generate an enhanced level of anti-MOPC-315 cytotoxicity, as compared to thymocytes from untreated MOPC-315-tumor-bearing mice or thymocytes from untreated or low-dose melphalan-treated normal mice, upon in vitro stimulation with MOPC-315 tumor cells in the presence of a low concentration of recombinant interleukin-2 (rIL-2). Here we show that the generation of enhanced anti-MOPC-315 cytotoxicity by melphalan TuB thymocytes depends on the ability of the thymocytes to proliferate. In addition, the ability of melphalan TuB thymocytes to generate an enhanced level of anti-MOPC-315 cytotoxicity correlated with their ability to proliferate more readily than thymocytes from untreated tumor-bearing mice and thymocytes from untreated or melphalan-treated normal mice in response to stimulation with MOPC-315 tumor cells plus a low concentration of rIL-2. Moreover, although fresh melphalan TuB thymocytes do not contain a higher percentage of phenotypically mature cells (i.e., CD4^–/CD8⁺ or CD4⁺/CD8^–) than do thymocytes from normal mice or untreated tumor-bearing mice, after a 5-day culture with both MOPC-315 tumor cells and a low concentration of rIL-2, cultures of thymocytes from melphalan TuB contained a much higher percentage of CD4^–/CD8⁺ (but not CD4⁺/CD8^–) cells than did cultures of thymocytes from the other two sources. Since CD4^–/CD8⁺ cells were previously shown to be responsible for the exertion of antitumor cytotoxicity by thymocytes stimulated with MOPC-315 in vitro, our results indicate that the enhanced antitumor cytotoxicity exerted by melphalan TuB thymocytes following in vitro stimulation with MOPC-315 tumor cells in the presence of a low concentration of rIL-2 is due, at least in part, to an expansion of the pool of CD4^–/CD8⁺ effector cells.Supported by research grant CA-35 761 from the National Cancer InstituteIn partial fulfillment of the requirements for the Doctor of Philosophy degreeSupported by career development award CA-01 350 from the National Cancer Institute     

Potentiated lymphokine-activated killer cell activity generated by low-dose interleukin-2 and mismatched double-stranded RNA

Summary Lymphokine-activated killer (LAK) cell activity was measured in human peripheral blood mononuclear cells (PBMC) treated in vitro for 3 days with recombinant interleukin-2 (rIL-2) and mismatched double-stranded RNA (dsRNA). Lytic activity was measured utilizing K562 (NK-sensitive) and 786-0 (NK-resistant) target cells. PBMC cultured with rIL-2 (10–1000 BRMP U/ml) alone showed concentration-dependent lytic activity against the 786-0 target cells, while cells cultured in unsupplemented medium or medium supplemented with mismatched dsRNA (200 µg/ml) alone could not lyse the 786-0 targets. The combination of mismatched dsRNA with suboptimal concentrations of rIL-2 (10–30 U/ml) showed enhancement of both natural killer (NK) and LAK cell activities. The uptake of [³H]thymidine by treated effector cells was dependent on time and rIL-2 concentration and was not increased in the cells treated with low-dose rIL-2/mismatched dsRNA, compared to those treated with low-dose rIL-2 or mismatched dsRNA alone. Similarly, changes in the expression of CD3, CD4, CD8, CD57, CD16 and CD25 cell surface antigens were dependent on rIL-2 concentration and not altered by the presence of mismatched dsRNA. These results indicate that mismatched dsRNA can potentiate rIL-2-induced LAK cell activity by increasing the functional activity per cell, rather than by increasing the number of activated cells.     

Single-cell analysis of costimulation by B cells, endothelial cells, and fibroblasts demonstrates heterogeneity in responses of CD4(+) memory T cells.

Human endothelial cells (EC) express MHC class II molecules in vivo and are likely to be involved in presentation of antigens to CD4(+) T cells. We examined, at the single-cell level, EC presentation of superantigens to resting CD4(+) memory T cells. Within 2 h of adherence to class II+ EC early T cell activation is evidenced by translocation of nuclear factor of activated T cells (NFAT), surface expression of CD69, and synthesis of IFN-gamma and IL-2. Naive T cells are not activated. T cell activation is dependent on the prior induction of MHC class II molecules on EC and is blocked by antibodies to LFA-3 (CD58). Our data place EC along a spectrum of antigen-presenting ability. Activated B cells and macrophages trigger more cells to express cytokines than do EC and at lower antigen concentrations; EC are in turn, superior to fibroblasts or smooth muscle cells. Furthermore, the concept of activation thresholds for cytokine synthesis within T cells also extends to earlier activation events: NFAT translocation is relatively easy to trigger, as is CD69 expression; fewer cells can be triggered to express IFN-gamma and fewer still to express IL-2. EC may, therefore, contribute to a graded immune response by inducing qualitatively and quantitatively different responses than professional APC.     

On the role of APC-activation for in vitro versus in vivo T cell priming

Professional antigen-presenting cells take up antigens for processing and presentation in association with MHC class I and II molecules. When APCs receive the right stimuli, they undergo a maturation process and migrate to secondary lymphoid organs to trigger T cell activation. In this study, we compared side-by-side in vivo and in vitro activation of T cells. Transgenic CD8(+) T cells specific for the p33 epitope, derived from the lymphocytic choriomeningitis virus glycoprotein, were labeled with CFSE and injected into syngeneic mice or alternatively, co-cultured in vitro with APCs. The p33 epitope was delivered as free peptide or genetically fused to virus-like particles. Whereas proliferation of specific T cells was comparable in both systems, the production of IFN-gamma and the expression of CD25 showed important differences. Induction of effector function and expression of activation markers were strongly enhanced in vitro by both the free peptide and VLPs. Surprisingly, addition of CpG-containing immune-stimulating DNA for activation of APCs dramatically increased effector T cell differentiation in vitro, whereas no enhancement could be observed in vitro. Thus, activation of professional APCs was mandatory for induction of effector CD8(+) T cell responses in vivo, while this step was largely dispensable in vitro.     

Tumor necrosis factor, alone or in combination with IL-2, but not IFN-gamma, is associated with macrophage killing of Mycobacterium avium complex

Organisms belonging to the Mycobacterium avium complex (MAC) are the most common bacterial pathogens in patients with AIDS but factors associated with the activation of cellular defense mechanisms against this atypical mycobacterium have not been defined. Peritoneal macrophages harvested from a chronic MAC infection in C57 black mice are able to kill approximately 86% of intracellular MAC in contrast to 0 to 20% killing by unstimulated human and mouse macrophages in vitro. The availability of human rTNF-alpha, rIFN-gamma, and rIL-2 permitted evaluation of the role of each of these lymphokines/monokines, alone or in combination, in activating macrophages in vitro to kill MAC. Human monocyte-derived macrophages were cultured in vitro, stimulated with rIL-2, rIFN-gamma, or rTNF, and then infected with MAC (serovars 1 and 8). Mouse peritoneal macrophages were harvested, cultured in vitro, and stimulated with rIFN-gamma. rTNF (10(4) U/ml) was associated with a modest increase of intracellular killing of MAC (58 +/- 5%) even when utilized 24 or 48 h after macrophage infection or when administered for 5 consecutive days after infection (78.1 +/- 4%). Both human and murine IFN-gamma were associated with increased intracellular growth of MAC (32 +/- 4% for murine and 38 +/- 3% for human macrophages). However, intracellular killing (53 +/- 6% compared with control) was observed after 6 days of treatment with IFN-gamma. This latter effect was fully blocked by anti-TNF antibody, whereas rIL-2 alone did not augment the intracellular killing of MAC by human macrophages. rTNF plus either rIFN-gamma or rIL-2 triggered significant increases in superoxide anion production, but subsequent MAC killing was no greater than with rTNF alone. Treatment of macrophages with 10 U/ml of rTNF followed by rIL-2 (200 U/ml) was associated with 68% of intracellular killing. TNF seems to be an important monokine, promoting activation of mycobactericidal mechanisms in human macrophages.     

Identification of a chemotactic,MCP-1-like protein from Mycobacterium avium

In the immunocompetent host, Mycobacterium avium is responsible for chronic localized pulmonary disease, which is characterized by the presence of increased numbers of activated T cells and macrophages in the lungs. M. avium organisms as well as sonic extracts of M. avium were found to act as chemoattractants for THP-1 cells as well as monocytes, monocyte-derived macrophages and alveolar macrophages obtained from normal human donors in an in vitro chemotaxis assay, where a significantly higher number of cells were found in wells containing M. avium compared to control wells. Proteolytic treatment of M. avium sonicate resulted in significant loss (50%) of chemotactic activity. Monoclonal antibodies against recombinant human monocyte chemoattractant protein-1 (MCP-1) were found to cross-react with a 34-kDa protein of M. avium sonicate on Western blot and inhibit M. avium sonicate-mediated chemotaxis of THP-1 cells (47%). These data suggest the presence of an 'MCP-1 like' molecule on M. avium. Recruitment of host immune regulatory cells to the site of infection by pathogens may be involved in generating a local immune response or may be a bacterial strategy for survival within the host by recruiting the cells that they infect, i.e. macrophages.     

Human endothelial cells enhance human immunodeficiency virus type 1 replication in CD4+ T cells in a Nef-dependent manner in vitro and in vivo

Infected CD4+ T cells are the primary sites of human immunodeficiency virus type 1 (HIV-1) replication in vivo. However, signals from professional antigen-presenting cells (APCs), such as dendritic cells and macrophages, greatly enhance HIV-1 replication in T cells. Here, we report that in cocultures, vascular endothelial cells (ECs), which in humans can also serve as APCs, can enhance HIV-1 production of both CCR5- and CXCR4-utilizing strains approximately 50,000-fold. The observed HIV-1 replication enhancement conferred by ECs occurred only in memory CD4+ T cells, required expression of major histocompatibility complex class II (MHC-II) molecules by the ECs, and could not be conferred by fixed ECs, all of which are consistent with a requirement for EC-mediated T-cell activation via T-cell receptor (TCR) signaling. Deletion of nef (Nef-) decreased HIV-1 production by approximately 100-fold in T cells cocultured with ECs but had no effect on virus production in T cells cocultured with professional APCs or fibroblasts induced to express MHC-II. Human ECs do not express B7 costimulators, but Nef- replication in CD4(+)-T-cell and EC cocultures could not be rescued by anti-CD28 antibody. ECs act in trans to enhance wild-type but not Nef- replication and facilitate enhanced wild-type replication in naive T cells when added to T-cell or B-lymphoblastoid cell cocultures, suggesting that ECs also provide a TCR-independent signal to infected T cells. Consistent with these in vitro observations, wild-type HIV-1 replicated 30- to 50-fold more than Nef- in human T cells infiltrating allogeneic human skin grafts on human huPBL-SCID/bg mice, an in vivo model of T-cell activation by ECs. Our studies suggest that ECs, which line the entire cardiovascular system and are, per force, in frequent contact with memory CD4+ T cells, provide signals to HIV-1-infected CD4+ T cells to greatly enhance HIV-1 production in a Nef-dependent manner, a mechanism that could contribute to the development of AIDS.     

Mycobacterium avium enters intestinal epithelial cells through the apical membrane, but not by the basolateral surface, activates small GTPase Rho and, once within epithelial cells, expresses an invasive phenotype

Mycobacterium avium is a common pathogen in AIDS patients that is primarily (but not exclusively) acquired through the gastrointestinal tract, leading to the development of bacteraemia and disseminated disease. To cause infection through the gut, binding and invasion of the intestinal epithelial barrier are required. To characterize this process further, we determined the cell surface(s) (basolateral vs. apical membrane) that M. avium interacts with in intestinal mucosal cells in vitro . The level of binding and invasion of both HT-29 and Caco-2 intestinal cell monolayers by M. avium were similar when the assay was performed with control medium in the presence of Ca²⁺ (when only the apical surface was exposed), with Ca²⁺-depleted medium or with Ca²⁺-depleted medium + 1 mM EGTA (exposure of both apical and basolateral membranes), suggesting that the bacterium enters the apical surface of the epithelial lining. These observations were confirmed by assays in a transwell system and by using fluorescent microscopy. Real-time video microscopy showed that M. avium entry was not associated with membrane ruffling and the use of pharmacological inhibitors of the small GTPases demonstrated that M. avium invasion is dependent on the activation of the small GTPases Rho, but not on Rac or Cdc42. Passage of M. avium through HT-29 cells led to a phenotypic change (intracellular growth; IG) that was associated with a significantly greater (between five- and ninefold) ability to bind to and invade new monolayers of epithelial cells or macrophages when compared with the invasion by M. avium grown on agar (extracellular growth; EG). IG phenotype invasion of HT-29 cells also takes place only by the apical surface. M. avium enters intestinal epithelial cells by the apical surface and, once within the cells, changes phenotype, becoming more invasive towards both macrophages and other epithelial cells.     

Impaired tumor antigen processing by immunoproteasome-expressing CD40-activated B cells and dendritic cells

Professional APCs, such as dendritic cells, are routinely used in vitro for the generation of cytotoxic T lymphocytes specific for tumor antigens. In addition to dendritic cells, CD40-activated B cells and variant K562 leukemic cells can be readily transfected with nucleic acids for in vitro and in vivo antigen presentation. However, the expression of immunoproteasome components in dendritic cells may preclude display of tumor antigens such as Mart1/MelanA. Here, we use three target epitopes, two derived from tumor antigens [Mart1_26?C34 (M26) and Cyp1B1_239?C247 (Cyp239)] and one derived from the influenza A viral antigen [FluM1_58?C66 (FluM58)], to demonstrate that CD40-activated B cells, like dendritic cells, have a limited capability to process certain tumor antigens. In contrast, the K562 HLA-A*0201 transfectant efficiently processes and presents M26 and Cyp239 as well as the influenza FluM58 epitopes to T cells. These results demonstrate that the choice of target APC for gene transfer of tumor antigens may be limited by the relative efficacy of proteasome components to process certain tumor epitopes. Importantly, K562 can be exploited as an artificial APC, efficient in processing both M26 and Cyp239 epitopes and presumably, by extension, other relevant tumor antigens.     

Presence of an enlarged pool of MOPC-315-specific cytotoxic T lymphocyte precursors in the thymuses of mice that eradicated a large MOPC-315 tumor as a consequence of low-dose melphalan therapy

Summary We have previously shown that, as a consequence of low-dose melphalan (l-phenylalanine mustard) treatment, thymocytes from mice bearing a large, day-10 MOPC-315 tumor, but not thymocytes from normal mice, acquire the ability to generate an enhanced level of antitumor cytotoxicity upon in vitro stimulation with MOPC-315 tumor cells plus low concentrations (9.0–90 IU/ml) of exogenous interleukin-2 (IL-2) [23]. Here we show that the time interval between tumor inoculation and low-dose melphalan therapy as well as the magnitude of tumor burden at the time of the chemotherapy are important for the ability of the drug to render thymocytes more responsive to in vitro stimulation with MOPC-315 tumor cells plus low concentrations of recombinant IL-2 (rIL-2). Specifically, the chemotherapy was found to be effective in enhancing the thymic antitumor reactivity only if the mice bore a large, late-stage tumor. Comparison of thymocytes from untreated mice bearing a large, late-stage tumor to thymocytes from normal mice revealed that tumor-bearer thymocytes contained approximately a three-fold higher frequency of cytotoxic T lymphocyte precursors (CTLp) for MOPC-315-associated antigens. Following curative low-dose melphalan therapy of mice bearing a large, latestage MOPC-315 tumor, the frequency of CTLp for MOPC-315-associated antigens increased further, reaching a level approximately tenfold higher than that found among thymocytes of normal mice. At the same time, the frequency of CTLp for an antigenically unrelated allogeneic tumor (EL4) as well as the overall percentage of mature cells was not increased. The cells responsible for the exertion of the enhanced antitumor cytotoxicity following in vitro stimulation of thymocytes from mice treated with low-dose melphalan when they have a large, latestage MOPC-315 tumor are of the CD8⁺/CD4^– phenotype. Thus, the enhanced level of antitumor cytotoxicity generated by thymocytes from mice that are treated with low-dose melphalan when they have a large, late-stage MOPC-315 tumor is due, at least in part, to the presence of an enlarged pool of CTLp specific for MOPC-315-associated antigens, which mature into CD8⁺/CD4^– effector cells upon stimulation with MOPC-315 tumor cells plus low concentrations of rIL-2.supported by Research Grant CA-35761 from the National Cancer Institute and Research Grant EY-05945 from the National Eye Institute. This work is in partial fulfillment of the requirements for the Doctor of Philosophy degree of M. M. B. M. B. M. was supported by a Career Development Award CA-01350 from the National Cancer Institute.     

Cutting edge: Nicastrin and related components of γ-secretase generate a peptide epitope facilitating immune recognition of intracellular mycobacteria, through MHC class II-dependent priming of T cells

Bacillus Calmette-Guérin (BCG), the antituberculosis vaccine, localizes within immature phagosomes of macrophages and dendritic cells (APCs), and avoids lysosomal degradation. BCG-derived antigenic peptides are thus inefficiently processed by APCs, and we investigated alternate mechanisms of Ag processing. Proteomics identified that BCG phagosomes are enriched for nicastrin, APH, and presenilin components of γ-secretase, a multimeric protease. Using an in vitro Ag presentation assay and BCG-infected APCs, we found γ-secretase components to cleave BCG-derived Ag85B to produce a peptide epitope, which, in turn, primed IL-2 release from Ag85B-specific T cell hybridoma. siRNA knockdown or chemical inhibition of γ-secretase components using L685458 decreased the ability of BCG or Mycobacterium tuberculosis-infected APCs to present Ag85B. In addition, L685485 inhibition of γ-secretase led to a decreased ability of BCG-dendritic cells to immunize mice and induce Ag85B-specific CD4 T cells in vivo. Because BCG and M. tuberculosis sequester within APCs preventing immune recognition, γ-secretase components appear to fortuitously process the immunodominant Ag85B, facilitating immune recognition.     

Role for thymic and splenic regulatory CD4+ T cells induced by donor dendritic cells in allograft tolerance by LF15-0195 treatment

A 20-day treatment with LF15-0195, a deoxyspergualine analogue, induced allograft tolerance in a fully MHC-mismatched heart allograft model in the rat. Long-term allografts displayed minimal cell infiltration with no signs of chronic rejection. CD4+ spleen T cells from tolerant LF15-0195-treated recipients were able to suppress in vitro proliferation of allogeneic CD4+ T cells and to transfer tolerance to second syngeneic recipients, demonstrating dominant suppression by regulatory cells. A significant increase in the percentage of CD4+CD25+ T cells was observed in the thymus and spleen from tolerant LF15-0195-treated recipient. In vitro direct stimulation with donor APCs demonstrated that CD4+ regulatory T cells proliferated weakly and expressed low levels of IFN-gamma, IL-10, and IL-2. CD4+CD25+ cell depletion increased IL-2 production by CD4+CD25- thymic cells, but not splenic cells. Moreover, tolerance was transferable with splenic and thymic CD4+CD25+ cells, but also in 50% of cases with splenic CD4+CD25- cells, demonstrating that CD25 can be a marker for regulatory cells in the thymus, but not in the periphery. In addition, we presented evidences that donor APCs were required to induce tolerance and to expand regulatory CD4+ T cells. This study demonstrates that LF15-0195 treatment induces donor APCs to expand powerful regulatory CD4+CD25+/- T cells present in both the central and peripheral compartments.     

M2 macrophages induced by prostaglandin E2 and IL-6 from cervical carcinoma are switched to activated M1 macrophages by CD4+ Th1 cells

Monocytes attracted by tumor-induced chronic inflammation differentiate to APCs, the type of which depends on cues in the local tumor milieu. In this work, we studied the influence of human cervical cancer cells on monocyte differentiation and showed that the majority of cancer cells either hampered monocyte to dendritic cell differentiation or skewed their differentiation toward M2-like macrophages. Blocking studies revealed that M2 differentiation was caused by tumor-produced PGE(2) and IL-6. TGF-β, IL-10, VEGF, and macrophage colony-stimulating factor did not play a role. Notably, these CD14(+)CD163(+) M2 macrophages were also detected in situ. Activation of cancer cell-induced M2-like macrophages by several TLR-agonists revealed that compared with dendritic cells, these M2 macrophages displayed a tolerogenic phenotype reflected by a lower expression of costimulatory molecules, an altered balance in IL-12p70 and IL-10 production, and a poor capacity to stimulate T cell proliferation and IFN-γ production. Notably, upon cognate interaction with Th1 cells, these tumor-induced M2 macrophages could be switched to activated M1-like macrophages that expressed high levels of costimulatory molecules, produced high amounts of IL-12 and low amounts of IL-10, and acquired the lymphoid homing marker CCR7. The effects of the interaction between M2 macrophages and Th1 cells could partially be mimicked by activation of these APCs via CD40 in the presence of IFN-γ. Our data on the presence, induction, and plasticity of tumor-induced tolerogenic APCs in cervical cancer suggest that tumor-infiltrated Th1 cells can stimulate a tumor-rejecting environment by switching M2 macrophages to classical proinflammatory M1 macrophages.     

Helper-independent CD8+ cytotoxic T lymphocytes express IL-1 receptors and require IL-1 for secretion of IL-2

The purpose of this study was to examine the role of IL-1 on the activation of CD8+/CD4- class I-restricted helper cell-independent cytolytic T cell (HITc) clones known to produce IL-2 and proliferate in vitro after Ag stimulation with a Friend retrovirus-induced leukemia (FBL). The functional role of IL-1 in Ag-specific proliferation and IL-2 secretion was assessed by stimulating the T cell clones with FBL either in the presence or absence of macrophages (M phi), rIL-1, or rIL-2. Resting cloned HITc cells, purified from residual accessory cells, failed to proliferate in response to FBL alone, but proliferated in response to FBL plus M phi, rIL-1 or rIL-2. Stimulation with FBL alone in the absence of M phi or IL-1 was sufficient for induction of IL-2R expression, and rendered cells responsive to IL-2, but M phi or IL-1 were also required to induce production of IL-2. The activity of IL-1 was further examined by measuring the binding of [125I]rIL-1 alpha, which demonstrated that resting cloned HITc cells expressed IL-1R that increased in number after activation with Ag. This expression of IL-1R and requirement for IL-1 by CD8+ HITc was surprising because previous studies examining T cell populations after mitogen stimulation have not detected IL-1R on the CD8+ population. Therefore, the role of IL-1 in the activation of CD8+ CTL that do not secrete IL-2 after activation was assessed. By contrast to HITc, CD8+ CTL required exogenous IL-2 to proliferate in vitro and did not express IL-1R. These data demonstrate that the subset of CD8+ T cells responsible for IL-2 production express IL-1R and that triggering this receptor with IL-1 after Ag stimulation results in the production of IL-2 and subsequent proliferation.     

The influence of immunoregulatory cytokines IL-2, IL-7, and IL-15 upon activation, proliferation, and apoptosis of immune memory T-cells in vitro

The influence of immunoregulatory cytokines IL-2, IL-7, and IL-15 on the activation, proliferation, and apoptosis of different subpopulations of an immune memory T-cell (CD45RO+) in healthy donors were investigated. It was demonstrated that rIL-2 equally affected both the activation and proliferation of CD4⁺ and CD8⁺ subpopulations of memory T-cells in vitro. High concentrations of rIL-2 increased the number of CD8⁺ memory cells expressing apoptotic marker CD95. Effect of rIL-7 and rIL-15 on the activation and proliferation of cytotoxic CD8⁺ memory cells in vitro was different. CD4⁺ memory lymphocytes exhibited relative resistance to activation and proliferation by rIL-7 and rIL-15 compared to rIL-2. This can provide them with relative resistance to apoptosis, as well as create the necessary conditions for accelerated implementation of their functional capacity in the development of a secondary immune response.     

Generation propagation, and targeting of human CD4+ helper/killer T cells induced by anti-CD3 monoclonal antibody plus recombinant IL-2. An efficient strategy for adoptive tumor immunotherapy.

We developed a culture system for the rapid generation of CD4+ T cells that have both helper and killer functions. CD4+ T cells isolated from human PBL did not proliferate or develop significant cytotoxicity when treated with rIL-2 because of the lack of p75 IL-2R expression. However, culture of isolated CD4+ T cells with immobilized anti-CD3 mAb plus rIL-2 resulted in a marked proliferation (500-fold increase in 14 days) of CD4+ T cells. The proliferating CD4+ T cells produced IL-2 (92 U/ml) and showed strong cytotoxicity against OKT3 hybridoma cells and Daudi, K562, and U937 tumor cells in an anti-CD3 mAb-dependent manner. The CD4+ T cells contained significant amounts of cytolytic granule-related proteins such as serine esterase and perforin. Activated CD4+ helper/killer cells can be generated from both healthy donors and tumor patients and can be propagated in vitro for 14 to 35 days by biweekly restimulation with immobilized anti-CD3 mAb plus rIL-2. This culture yielded about 20,000-fold increase in cell number after a 21-day culture. Bispecific antibody containing anti-CD3 and anti-glioma Fab components enhanced the cytotoxicity of activated CD4+ helper/killer cells against IMR32 glioma cells. Moreover, the activated CD4+ helper/killer cells showed both helper and antitumor activity in vivo and prevented growth of anti-CD3 hybridoma cells in nude mice whether or not IL-2 was administered. These results indicate that anti-CD3 mAb plus IL-2-activated CD4+ helper/killer cells may provide an effective strategy for adoptive tumor immunotherapy of cancer.