Mechanisms of lysis by cytotoxic T lymphocyte clones. Lytic activity and gene expression in cloned antigen-specific CD4+ and CD8+ T lymphocytes.

Cloned murine Th having properties of either Th1 or Th2 cells as well as CD8+ CTL were tested for the capacity to lyse: 1) nucleated target cells bearing Ag or coated with anti-CD3 mAb, or 2) SRBC target cells coated with anti-CD3 mAb in a short term 51Cr-release assay. The lysis of SRBC occurs by a mechanism that does not involve nuclear degradation but presumably does involve membrane damage. Three patterns were observed: CTL and some Th2 cells lysed efficiently nucleated target cells and SRBC coated with anti-CD3 mAb. Th1 and some Th2 T cells lysed nucleated target cells but did not lyse efficiently the SRBC coated with anti-CD3 mAb. Finally, some Th2 cells failed to lyse efficiently either nucleated or SRBC targets. We also examined these clones for their expression of N-alpha-benzyloxycarbonyl-L-lysin thiobenzyl esterase activity, and for the expression of perforin or CTLA-1 (granzyme B) mRNA. Total N-alpha-benzyloxycarbonyl-L-lysin thiobenzyl esterase activity expressed by CTL and Th2 clones tended to be higher than that of Th1 cells. Perforin mRNA and CTLA-1 mRNA were readily detectable in CTL and some Th2 clones. Expression of perforin and CLTA-1 mRNA correlated well with the capacity of these clones to lyse SRBC coated with anti-CD3 mAb. Our results show that some but not all Th2 clones have lytic characteristics similar to those of CD8+ CTL. Two mechanisms appear to contribute to their lytic process, one mechanism of lysis involves membrane damage that correlates with the expression of perforin mRNA; a second mechanism involves the induction of DNA degradation in the target cells. In contrast, some CD4+ effector cells appear to lack the capacity to lyse efficiently via the mechanism involving membrane damage and may only have the lytic activity associated with the capacity to induce DNA degradation.     

The requirements for triggering of lysis by cytolytic T lymphocyte clones. II. Cyclosporin A inhibits TCR-mediated exocytosis by only selectively inhibits TCR-mediated lytic activity by cloned CTL

TCR-mediated granule exocytosis, as measured by the release of serine esterase activity, has been implicated in the lytic process of Ag-specific CTL. Exocytosis appears to be the mechanism of release of other lysis-relevant molecules including cytotoxic lymphokines and proteins that have the capacity to induce membrane lesions as measured by the hemolysis of non-nucleated SRBC. In the studies presented here, we assessed the contribution of exocytosis and lymphokine production in CTL lysis of nucleated and non-nucleated target cells by using a panel of murine CTL clones. Ag-mediated activation of cytolysis, lymphokine production, and exocytosis could be mimicked by mAb against the TCR/CD3 complex, or by stimulation with the combination of PMA + calcium ionophore, which appear to bypass the TCR (neither PMA nor calcium ionophore alone induced these functions efficiently in our CD8+ CTL clones). Although lysis, IFN-gamma production and exocytosis of N-alpha-benzyloxycarbonyl-L-lysin esterase (BLTE) activity were induced by either stimulus, we were able to identify distinct activation requirements for each of these functions. We found that lymphokine production, exocytosis, and cytolysis could be selectively inhibited. Cycloheximide inhibited IFN-gamma production, but did not inhibit exocytosis of BLTE activity or cytolysis. In addition we showed that cyclosporine A (CsA) profoundly inhibited IFN-gamma production as well as exocytosis induced by stimulation through the Ag receptor or by PMA + calcium ionophore. In contrast, CsA had little or no effect on lysis of nucleated target cells that bear the relevant Ag. These findings indicate that our CTL clones can lyse target cells by a mechanism independent of exocytosis or (de novo) lymphokine production. To directly assess the capacity of our CTL clones to lyse target cells without inducing nuclear damage we developed a system of coating non-nucleated SRBC with anti-CD3 mAb for use as stimuli and as targets for lysis. We found that our cloned CTL were indeed activated to produce IFN-gamma by SRBC that were coated with anti-CD3 mAb, and, furthermore, they were able to lyse the SRBC in a short term cytolytic assay. Thus our CD8+ CTL are capable of lysing certain target cells by a mechanism independent of DNA degradation, presumably by inducing a membrane lesion. In addition, CsA did inhibit lysis of the non-nucleated SRBC targets as well as exocytosis of BLTE activity.(ABSTRACT TRUNCATED AT 400 WORDS)     

Further characterization of cytotoxic T cells generated by short-term culture of human peripheral blood lymphocytes with interleukin-2 and anti-CD3 mAb

 In this study we have specifically investigated the participation of T cells in the cytotoxic activity of peripheral blood lymphocytes (PBL) activated by interleukin-2 (IL-2, 50 U/ml) alone or in combination with an anti-CD3 mAb (BMA030, 10 ng/ml, IgG2a). Purified CD3⁺ T cells, incubated in the presence of the anti-CD3 mAb for 4 days, mediated a cytotoxic activity against HL60 and U937 tumor cell lines. Several findings suggested the involvement of a redirected-cytotoxicity phenomenon, since the lytic process was restricted to target cell lines bearing the high-affinity Fcγ receptor (FcγRI) and T lymphocytes stimulated by IL-2 alone did not lyse these cell lines. Furthermore, anti-CD3 mAb F(ab′)₂, anti-CD3 IgG1 (UCHT1), phytohemagglutinin or staphylococcal enterotoxin A did not induce a similar cytotoxic activity in T lymphocytes. The cytotoxic process occurred in the presence of a very low level of anti-CD3 antibodies (in the nanomolar range). The cytotoxic activity of T cells stimulated by IL-2 or by IL-2 + BMA030, against OVCAR-3 cells (MOv18⁺ ovarian tumor cell line), was also compared in the presence of a bispecific antibody (OC/TR, anti-CD3 × MOv18). The stimulation by IL-2 + BMA030 induced approximately a twofold higher cytotoxic activity than IL-2-activated T cells. This could be related to the state of activation of effector cells stimulated by IL-2 + BMA030, since the phenotypic analysis showed an increased proportion of T cells expressing several activation/differentiation markers (CD25, HLA-DR, CD45R0, adhesion molecules). These findings could be applied to the design of therapeutic protocols using anti-CD3 ×antitumoral bispecific antibodies. Received: 6 December 1995 / Accepted: 4 June 1996     

Frequency of regulatory T cells in renal cell carcinoma patients and investigation of correlation with survival

Background Regulatory T cells are important in maintaining immune homeostasis, mediating peripheral tolerance and preventing autoimmunity. Increased frequencies of CD4⁺CD25^high T regulatory (T_Reg) cells have been documented in the peripheral blood of patients with several types of cancer consistent with a role in tumour escape from immunological control. We have investigated the presence of T_Reg cells systemically and in situ in previously untreated patients with renal cell carcinoma (RCC). Results We have shown that there is a significant increased frequency of CD4⁺CD25^high T cells in RCC patients (n = 49) compared to normal donors (n = 38), respectively, 2.47% versus 1.50%; P < 0.0001. We confirmed these data using the FOXP3 marker of T_Reg cells in a subset of these patients and normal donors. The population of T_Reg cells identified showed the expected phenotype with CD4⁺CD25^high population in both RCC patients and normal donors contained higher proportions of CD45RO and GITR than CD4⁺CD25^−/low populations and exhibiting suppressive activity in an anti-CD3 and anti-CD28 induced proliferation assay. CD4⁺FOXP3⁺ T cells were detected in the tumour microenvironment by immunofluorescence and the numbers enumerated in lymphocytes recovered following enzymatic disaggregations of biopsies; their frequency was higher in the tumour than the peripheral blood of the same patients. The early follow up data show an association between higher peripheral blood regulatory T-cell count and adverse overall survival. Conclusion These data confirm the increase of T_Reg cells in RCC patients and provide impetus to further investigate modulation of T_Reg activity in RCC patients as part of therapy. Richard W. Griffiths and Eyad Elkord have equally contributed to the study.     

Efficient expansion of tumor-infiltrating lymphocytes from solid tumors by stimulation with combined CD3 and CD28 monoclonal antibodies

Combined CD3 and CD28 monoclonal antibodies (mAb) may initiate efficient activation and expansion of tumor-infiltrating lymphocytes (TIL). In this study we compared phenotypical and functional characteristics of TIL from a group of 17 solid human tumors, stimulated either by high-dose recombinant interleukin 2 (rIL-2, 1000 IU/ml) or by a combination of anti-CD3 and anti-CD28 monoclonal antibodies in the presence of low-dose rIL-2 (10 IU/ml). Compared to activation with high-dose rIL-2, stimulation of TIL with CD3/CD28 mAb induced significantly stronger proliferation and yielded higher levels of cell recovery on day 14. Following the CD3/CD28 protocol, expansion of an almost pure population of CD3⁺ cells was obtained. Whereas CD4⁺ cells dominated in the first week of culturing, within 4 weeks the CD8⁺ population increased to over 90%. The specific capacity to kill autologous tumor cells was not increased as compared to the high-dose rIL-2 protocol, but all cultures showed high cytotoxic T cell activity as measured in a CD3-mAb-mediated redirected kill assay. These studies show that combined CD3 and CD28 mAb are superior to rIL-2 with respect to the initiation of expansion of CD8⁺ cytolytic TIL from solid tumors. Stimulation with specific tumor antigens at a later stage of culturing may further augment the expansion of tumor-specific cytolytic T cells.     

Elimination of CD4+ T cells in mice bearing an advanced sarcoma augments the antitumor action of interleukin-2

Experiments were undertaken to determine whether the depletion of CD4⁺ T cells from mice bearing an advanced immunogenic SA-1 sarcoma would result in an enhanced ability of interleukin-2 (IL-2) to cause tumor regression. The results show that whereas IL-2 therapy given as a 5-day course starting on day 10 of tumor growth caused complete regression of the tumor, it failed to cause regression if started on day 15 of tumor growth. However, in mice depleted of CD4⁺ T cells by treatment with anti-CD4 monoclonal antibody (mAb), IL-2 therapy started on day 15 resulted in appreciable tumor regression in most animals, and the therapeutic effect was greatly increased if two consccutive courses of anti-CD4 mAb and IL-2 therapy were given. On the other hand, treatment with anti-CD4 mAb alone had no effect on tumor growth. It was shown that the therapeutic action of combination therapy with anti-CD4 mAb and IL-2 was mediated by CD8⁺ T cells, because the therapeutic effect was completely ablated in mice depleted of CD8⁺ T cells with anti-CD8 mAb. Taken together these results suggest that, at a late stage of growth of an immunogenic tumor, depletion of CD4⁺ T cells can enhance the antitumor effect of IL-2 therapy by releasing CD8⁺-T-cell-mediated immunity from T-cell-mediated suppression.     

Heat Shock Cognate Protein 71-Associated Peptides Function as an Epitope for Toxoplasma gondii-Specific CD4+ CTL

HLA-DR-restricted CD4⁺ cytotoxic T-lymphocyte (CTL) lines specific for Toxoplasma gondii (T. gondii)-infected melanoma cells have been established from peripheral blood lymphocytes (PBLs) of a patient with chronic toxoplasmosis. The role of heat shock cognate protein (HSC) 71 in antigen (Ag) processing and presentation of T. gondii-infected melanoma cells to these CD4⁺ CTL lines was investigated. A human melanoma cell line (P36) pulsed with T. gondii-infected P36 cell-derived HSC71 was lysed by a T. gondii-specific CD4⁺ CTL line (Tx-HSC-1). The Tx-HSC-1 also killed T. gondii-infected P36 cells. The lytic activity of Tx-HSC-1 against P36 cells pulsed with T. gondii-infected P36 cell-derived HSC71 was inhibited by monoclonal antibodies (mAbs) against HSC71. Anti-human leukocyte antigen (HLA)-DR mAb also partially blocked the lytic activity, whereas anti-HLA-A,B,C mAb did not block the lytic activity. In addition, a flow cytometric analysis with these specific mAbs against HSC71 showed HSC71 to be expressed on the cell surface of T. gondii-infected P36 cells as well as uninfected P36 cells. These data indicate that HSC71 molecules are expressed on human melanoma cell line P36, and that HSC71 may play a potential role in Ag presentation and processing of T. gondii-infected P36 cells to CD4⁺ CTL.     

Expression of murine killer immunoglobulin-like receptor KIRL1 on CD1d-independent NK1.1<Superscript>+</Superscript> T cells

Three mouse killer immunoglobulin-like receptors (KIRs), namely, KIR3DL1, KIRL1, and KIRL2, have recently been identified in C56BL/6 (B6) mice. However, only two Kir genes are found in the B6 mouse genome sequence data base. To clarify this discrepancy, we cloned Kir cDNAs from multiple strains of mice. Sequencing of the cDNA clones showed that the Kir3dl1 gene is found in C3H/HeJ and CBA/J but not in B6 mice. Analysis of the single nucleotide polymorphism data base suggested that Kir3dl1 is the C3H/HeJ and CBA/J allele of Kirl1. We generated mAb to the recombinant KIRL1 protein to investigate its expression pattern. The anti-KIRL1 mAb bound to NK1.1⁺ T cells but only very weakly or at undetectable levels to other lymphocytes including natural killer (NK) cells and conventional T cells. Among NK1.1⁺ T cells, conventional NK T cells stained with CD1d tetramer did not significantly bind anti-KIRL1 mAb, whereas CD1d-tetramer-negative subset was KIRL1-positive. Furthermore, the expression of KIRL1 is readily detected on NK1.1⁺ T cells from β₂-microglobulin-deficient B6 mice. Thus, KIRL1 is predominantly expressed on CD1d-independent NK1.1⁺ T cells.     

Eradication of metastatic tumour cells from lymph nodes by local administration of anti-CD3 antibody

The possibility of in vivo removal of metastatic tumour cells from lymph nodes by local intradermal administration of an anti-CD3 monoclonal antibody (mAb) was examined. Murine tumour cells in the lymph nodes were completely eradicated by intradermal injections of the mAb. This treatment was effective for removal of Lewis lung cancer cells from lymph nodes, but not for removal of subcutaneous tumours of this cell line. This treatment induced in vivo cytotoxicity in the regional lymph nodes against the syngeneic tumour cells. The following in vitro studies suggested that the cytotoxicity was probably mediated mainly by CD4⁺ T cells, with slight participation of CD8⁺ T cells. Normal lymph node and spleen cells showed cytotoxicity after in vitro incubation with the mAb for 2 days. Cell sorting with a fluoresceinactivated cell sorter showed that CD4⁺ T cells developed during the incubation to lyse syngeneic tumor cells directly by themselves, macrophages not being involved in this tumour cell lysis. The lytic activity was detected in the cellular fractions, but not in the culture supernatants of these T cells. Furthermore, it was completely blocked by specific antiserum for tumour necrosis factor- (TNF). An immunoprecipitation study revealed that these T cells expressed TNF molecules of 26 kDa, but not of 17 kDa, suggesting that tumour cell lysis was caused by membraneintegrated TNF molecules. These results strongly suggest that local administration of anti-CD3 antibody is a very effective and appropriate procedure for eradication of metastatic tumour cells from regional lymph nodes.     

Lymphocytes cytotoxic to uveal and skin melanoma cells from peripheral blood of ocular melanoma patients

Summary To study antitumor immunity in patients with choroidal melanoma, T cells were generated from the peripheral blood of choroidal melanoma patients by mixed lymphocyte/tumor cell culture (MLTC). Because autologous tumors are generally unavailable, an allogeneic choroidal melanoma cell line, OCM-1, was used as the specific stimulus. Lymphocyte cultures from 27 patients were characterized by cell-surface phenotypes, patterns of reactivity towards cells of the melanocytic origin and T-cell-receptor gene usage. Antimelanoma reactivity was found in cell-sorter-purified CD4⁺ and CD8⁺ T cell subsets. To analyze this reactivity, sorter-purified CD4⁺ and CD8⁺ cells from a MLTC were cloned by limiting dilution in the presence of exogenous interleukin-2 and interleukin-4 as well as irradiated OCM-1. Under these conditions, CD4⁺ T cells did not proliferate, perhaps because of the absence of antigen-presenting cells. However, CD8⁺ grew vigorously and 29 cytolytic CD8⁺ T cell clones were isolated. On the basis of their pattern of lysis of OCM-1, a skin melanoma cell line M-7 and its autologous lymphoblastoid cell line LCL-7, the clones were categorized into three groups. Group 1, representing 52% of the clones, lysed all three target cells, and are alloreactive. However, since OCM-1 and M-7 did not share class I antigens, these clones recognized cross-reactive epitope(s) of the histocompatibility locus antigen (HLA) molecule. Group 2, constituting 28% of the clones, lysed both the ocular and skin melanoma cell lines but not LCL-7, and were apparently melanoma-specific. Unlike classical HLA-restricted cytolytic T lymphocytes, these T cells might mediate the lysis of melanoma cells via other ligands or a more degenerate type of HLA restriction. For the latter, the HLA-A2 and -A28 alleles would have to act interchangeably as the restriction element for shared melanoma-associated antigen(s). Group 3, representing only 10% of the T cell clones, was cytotoxic only to OCM-1, but not to M-7 or LCL-7. These clones may recognize antigens unique to ocular melanoma cells. Our data suggest that choroidal melanoma patients can recognize melanoma-associated antigens common to both ocular and cutaneous melanoma cells, and presumbly their autologous tumor. Thus, choroidal melanoma, like its skin counterpart, may be responsive to immunotherapeutic regimens such as active specific or adoptive cellular immunotherapy.This work is supported by National Institutes of Health research grants CA 36 233 and EY 9031, the Lucy Adams Memorial Fund and support from the Concern Foundation     

Plasticity within the αβ+CD4+ T-cell lineage: when,how and what for?

Following thymic output, αβ⁺CD4⁺ T cells become activated in the periphery when they encounter peptide–major histocompatibility complex. A combination of cytokine and co-stimulatory signals instructs the differentiation of T cells into various lineages and subsequent expansion and contraction during an appropriate and protective immune response. Our understanding of the events leading to T-cell lineage commitment has been dominated by a single fate model describing the commitment of T cells to one of several helper (T_H), follicular helper (T_FH) or regulatory (T_REG) phenotypes. Although a single lineage-committed and dedicated T cell may best execute a single function, the view of a single fate for T cells has recently been challenged. A relatively new paradigm in αβ⁺CD4⁺ T-cell biology indicates that T cells are much more flexible than previously appreciated, with the ability to change between helper phenotypes, between helper and follicular helper, or, most extremely, between helper and regulatory functions. In this review, we comprehensively summarize the recent literature identifying when T_H or T_REG cell plasticity occurs, provide potential mechanisms of plasticity and ask if T-cell plasticity is beneficial or detrimental to immunity.     

Requirement of monocytes and T-helper cells during development of tumor cell cytotoxicity in targeted T cells

In cocultures of human plancental alkaline phosphatase(PLAP)-positive MO₄ tumor cells and human peripheral blood mononuclear cells (PBMC), also containing a heteroconjugate (7E8-OKT3) synthesized between the anti-PLAP monoclonal antibody 7E8 and the anti-CD3 antibody OKT3, and supplemented with low levels of recombinant interleukin-2 (rIL-2), T cells are progressively activated, resulting in tumor cell lysis. To unravel the contribution of PBMC subsets to the generation of this targetable cytotoxicity, PBMC subsets were studied after their isolation by cell sorting, either from fresh PBMC or from PBMC peractivated with OKTe3 and rIL-2. Whereas no targetable cytotoxicity was found in Fc-receptor-bearing CD3-cells, tumor cells were lysed by CD3⁺ T cells (mostly CD8⁺) isolated from pre-activated PBMC. When isolated from fresh PBMC, neither the CD8⁺ T cell subset, nor the total CD3⁺ T cell population developed significant targetable cytotoxicity, even in the presence of rIL-2. Thus, additional cell types are essential for the CD8⁺ T cell activation. Indeed. CD4⁺ T cells isolated from pre-activated but not from fresh PBMC were capable of eliciting cytotoxicity in fresh CD8⁺ T cells. The non-targeted monocytes were found to be the activators of the CD4⁺ T cells. In summary, targeting T cells to the surface of a tumor cell is not sufficientper se to achieve activation and lysis. The progressive tumor cell lysis by targeted T cells seems to be initiated by non-targeted monocytes activating CD4⁺ T cells, these cells in turn promoting CD8⁺ T cell activation, necessary for the development of cytotoxicity.     

Adoptive transfer of CD3+ T cells and CD4+CD44high memory T cells induces autoimmune pancreatitis in MRL/MpJ mice

The immunopathogenesis of autoimmune pancreatitis (AIP) is poorly understood. Here, we have used MRL/MpJ mice, a model of spontaneous AIP, to address the role of cellular autoimmune processes in the initiation and progression of the disease. Therefore, different T cell subpopulations were adoptively transferred from sick to still healthy (but susceptible) MRL/MpJ mice. Unpurified splenocytes and CD3⁺ T cells both efficiently induced AIP, while CD4⁺ and CD8⁺ T cells alone, as well as splenocytes from healthy mice, were insufficient to trigger the disease. Strikingly, CD4⁺CD44^high memory T cells, although transferred at lower numbers than other T cells, also induced AIP in recipient mice. Employing a modified experimental design, we also evaluated the effects of regulatory T cells (T_regs) on the progression of AIP in already diseased mice. Under the given experimental conditions, there was no significant suppressive effect of adoptively transferred T_regs on pancreatic histopathology. The results of our studies suggest a key role of T cell‐mediated processes in murine AIP. The effects of CD4⁺CD44^high memory T cells are in accordance with genetic studies of our group, which had previously implicated this cell type into the pathogenesis of AIP. In follow‐up studies, we will focus on the interplay of cellular and humoral autoimmunity in the context of AIP.     

The antitumor effect of tumor-draining lymph node cells activated by both anti-CD3 monoclonal antibody and activated B cells as costimulatory-signal-providing cells

To establish an efficient cell-culture system for adoptive immunotherapy, we attempted to use lipopolysacharide (LPS)-activated B cells (LPS blasts) as costimulatory-signal-providing cells in the in vitro induction of antitumor effector cells. Both normal and tumor-draining lymph node cells were efficiently activated by both anti-CD3 monoclonal antibody (mAb) and LPS blasts, and subsequently expanded by a low dose of interleukin-2 (IL-2; anti-CD3 mAb and LPS blasts/IL-2). The expanded cells were predominantly CD8⁺ T cells and showed a low level of tumor-specific cytotoxic T lymphocyte (CTL) activity. The adoptive transfer of B16-melanoma-draining lymph node cells expanded by anti-CD3 mAb and LPS blasts/IL-2 showed significant antitumor effect against the established metastases of B16 in combination with intraperitoneal injections of IL-2. This treatment cured all B16-bearing mice. In addition, these mice also showed tumorspecific protective immunity against B16 at the rechallenge. Considering that activated B cells express several kinds of costimulatory molecules, these findings thus indicate an efficacy of costimulation that is derived from activated B cells for the in vitro induction of tumor-specific CTL, in co-operation with anti-CD3 mAb. The culture system presented here may thus be therapeutically useful, providing potent effectors for adoptive immunotherapy against various types of cancer.     

Clinical-scale selection and viral transduction of human naïve and central memory CD8+ T cells for adoptive cell therapy of cancer patients

The adoptive transfer of lymphocytes genetically engineered to express tumor-specific antigen receptors is a potent strategy to treat cancer patients. T lymphocyte subsets, such as naïve or central memory T cells, selected in vitro prior to genetic engineering have been extensively investigated in preclinical mouse models, where they demonstrated improved therapeutic efficacy. However, so far, this is challenging to realize in the clinical setting, since good manufacturing practices (GMP) procedures for complex cell sorting and genetic manipulation are limited. To be able to directly compare the immunological attributes and therapeutic efficacy of naïve (T_N) and central memory (T_CM) CD8⁺ T cells, we investigated clinical-scale procedures for their parallel selection and in vitro manipulation. We also evaluated currently available GMP-grade reagents for stimulation of T cell subsets, including a new type of anti-CD3/anti-CD28 nanomatrix. An optimized protocol was established for the isolation of both CD8⁺ T_N cells (CD4^?CD62L⁺CD45RA⁺) and CD8⁺ T_CM (CD4^?CD62L⁺CD45RA^?) from a single patient. The highly enriched T cell subsets can be efficiently transduced and expanded to large cell numbers, sufficient for clinical applications and equivalent to or better than current cell and gene therapy approaches with unselected lymphocyte populations. The GMP protocols for selection of T_N and T_CM we reported here will be the basis for clinical trials analyzing safety, in vivo persistence and clinical efficacy in cancer patients and will help to generate a more reliable and efficacious cellular product.     

Down-Regulation of T-Cell Proliferation in Response to Soluble Anti-CD3 Antibodies through Development of Redirected Cytolytic Activity Eliminating Costimulatory Cells

CD4⁺ T-depleted spleen cells (CD8⁺ T cells) activated by anti-CD3 antibodies (aCD3) suppressed proliferation of CD8⁺ T-depleted spleen cells (CD4⁺ T cells) and fresh normal T cells in response to aCD3. Antigen-nonspecific cytolytic activity was induced in splenic CD8⁺ T cells by stimulation with aCD3 and showed the peak level on day 3, whereas cytolytic activity induced in CD4⁺ T cells was weak. Intact Ig but not F(ab')₂ of aCD3 induced and mediated cytolytic activity. Correspondingly, the cytolytic activity induced by aCD3 was directed against target cells bearing Ig-binding Fc-receptor activity and cytolysis was inhibited by the addition of free Ig into the assay system. We showed that aCD3-activated T cells carried a high level of aCD3 on their surface at the time after the peak proliferation when they attained high cytolytic activity. This raised the possibility that the anti-CD3-induced aCD3-redirected cytolytic activity eliminated Fc-receptor-bearing costimulatory cells in the culture for down-regulation of the T-cell proliferation. This view was supported by partial restoration of anti-CD3-induced low responsiveness of CD8⁺ T cells by the addition of fresh costimulatory cells. These results suggested a new pathway of down-regulation of T-cell proliferation by aCD3-activated cytolytic CD8⁺ T cells.     

Helper T-cell subsets in mouse leishmaniasis: induction,expansion and effector function

It has been a surprise to find that the two distinct subsets of mouse CD4⁺ T cells identified from clones cultured in vitro also occur during Leishmania infection. The spectrum of disease encountered during these infections ranges from successful resolution to fatal dissemination and in mice these outcomes are accompanied by expansion of T_H1 or T_H2 CD4⁺ cells, respectively. This review focuses on the mechanisms that cause such disparate responses to the parasite.     

Recombinant IL-21 and anti-CD4 antibodies cooperate in syngeneic neuroblastoma immunotherapy and mediate long-lasting immunity

IL-21 is an immune-enhancing cytokine, which showed promising results in cancer immunotherapy. We previously observed that the administration of anti-CD4 cell-depleting antibody strongly enhanced the anti-tumor effects of an IL-21-engineered neuroblastoma (NB) cell vaccine. Here, we studied the therapeutic effects of a combination of recombinant (r) IL-21 and anti-CD4 monoclonal antibodies (mAb) in a syngeneic model of disseminated NB. Subcutaneous rIL-21 therapy at 0.5 or 1 μg/dose (at days 2, 6, 9, 13 and 15 after NB induction) had a limited effect on NB development. However, coadministration of rIL-21 at the two dose levels and a cell-depleting anti-CD4 mAb cured 28 and 70 % of mice, respectively. Combined immunotherapy was also effective if started 7 days after NB implant, resulting in a 30 % cure rate. Anti-CD4 antibody treatment efficiently depleted CD4⁺ CD25^high Treg cells, but alone had limited impact on NB. Combination immunotherapy by anti-CD4 mAb and rIL-21 induced a CD8⁺ cytotoxic T lymphocyte response, which resulted in tumor eradication and long-lasting immunity. CD4⁺ T cells, which re-populated mice after combination immunotherapy, were required for immunity to NB antigens as indicated by CD4⁺ T cell depletion and re-challenge experiments. In conclusion, these data support a role for regulatory CD4⁺ T cells in a syngeneic NB model and suggest that rIL-21 combined with CD4⁺ T cell depletion reprograms CD4⁺ T cells from immune regulatory to anti-tumor functions. These observations open new perspectives for the use of IL-21-based immunotherapy in conjunction with transient CD4⁺ T cell depletion, in human metastatic NB.