Interleukin-4 plus tumor necrosis factor α augments the antigenicity of melanoma cells

Immune cytokines are important regulators of the immune response to neoplastic cells. We previously reported that interleukin 4 (IL-4) and either tumor necrosis factor α (TNF) or interferon γ (IFN) synergistically inhibit melanoma cell growth and induce cell differentiation. In the present study we used various combinations of IL-4, IFN and TNF to enhance the antigenicity of melanoma cells. IL-4 plus TNF significantly increased the ability of melanoma cells to stimulate cytotoxic T cells (CTL) and act as targets of these CTL; IL-4 plus IFN was somewhat less effective, while TNF plus IFN was not as effective. IL-4 plus TNF also increased the expression of HLA class I and HLA-DR antigens on melanoma cells. The CTL lines examined in this study were CD3⁺CD4⁺ and oligoclonal. These preclinical results suggest that the immune response to melanoma whole-cell vaccines might be enhanced by pretreating vaccine cells with IL-4 plus TNF.     

Chronic alcohol consumption decreases the percentage and number of NK cells in the peripheral lymph nodes and exacerbates B16BL6 melanoma metastasis into the draining lymph nodes

NK cells in the lymph nodes play important roles in inhibiting tumor metastasis into draining lymph nodes. Previously, we reported that chronic alcohol consumption interferes with NK cell trafficking from the bone marrow to the spleen. Herein, we found that alcohol consumption decreases the numbers of NK cells in lymph nodes. Adoptive transfer experiments indicated that continued exposure of donor splenocytes to alcohol inhibits NK but not T cell trafficking to lymph nodes. Alcohol did not negatively affect CCR7⁺ and CXCR3⁺ NK cells, but decreased the percentage and number of CD62L⁺ NK cells in the spleen, which are an important source of NK cell trafficking into the lymph nodes. These data suggest that modulation of the microenvironment associated with alcohol consumption impairs the trafficking of NK cells to lymph nodes. The decreased number of NK cells in the lymph nodes was associated with increased melanoma metastasis into the draining lymph nodes.     

The stimulation of arginine transport by TNFα in human endothelial cells depends on NF-κB activation

In human saphenous vein endothelial cells (HSVECs), tumor necrosis factor-α (TNFα) and bacterial lipopolysaccharide (LPS), but neither interferon γ (IFNγ) nor interleukin 1β (IL-1β), stimulate arginine transport. The effects of TNFα and LPS are due solely to the enhancement of system y⁺ activity, whereas system y⁺L is substantially unaffected. TNFα  causes an increased expression of SLC7A2/CAT-2B gene while SLC7A1/CAT-1 expression is not altered by the cytokine. The suppression of PKC-dependent transduction pathways, obtained with the inhibitor chelerytrhine, the inhibitor peptide of PKCζ isoform, or chronic exposure to phorbol esters, does not prevent TNFα effect on arginine transport. Likewise, ERK, JNK, and p38 MAP kinases are not involved in the cytokine effect, since arginine transport stimulation is unaffected by their specific inhibitors. On the contrary, inhibitors of NF-κB pathway hinder the increase in CAT2B mRNA and the stimulation of arginine uptake. These results indicate that in human endothelial cells the activation of NF-κB pathway mediates the TNFα effects on arginine transport.     

CD40L-expressing CD4+ T cells prime adipose-derived stromal cells to produce inflammatory chemokines

The therapeutic potential of culture-adapted adipose-derived stromal cells (ASCs) is largely related to their production of immunosuppressive factors that are inducible in vitro by priming with inflammatory stimuli, in particular tumor necrosis factor-α (TNFα) and interferon-γ (IFNγ). In vivo, obesity is associated with chronic inflammation of white adipose tissue, including accumulation of neutrophils, infiltration by IFNγ/TNFα-producing immune cells, and ASC dysfunction. In the current study, we identified in obese patients a simultaneous upregulation of CD40Lin the adipose tissue stroma vascular fraction (AT-SVF), correlated with the Th1 gene signature, and an overexpression of CD40 by native ASCs. Moreover, activated CD4⁺ T cells upregulated CD40 on culture-expanded ASCs and triggered their production of IL-8 in a CD40L-dependent manner, leading to an increased capacity to recruit neutrophils. Finally, activation of ASCs by sCD40L or CD40L-expressing CD4⁺ T cells relies on both canonical and non-canonical NF-κB pathways, and IL-8 was found to be coregulated with NF-κB family members in AT-SVF. These data identify the CD40-CD40L axis as a priming mechanism of ASCs, able to modulate their cross talk with neutrophils in an inflammatory context, and their functional capacity for therapeutic applications.     

Vaginal Immunization to Elicit Primary T-Cell Activation and Dissemination

Primary T-cell activation at mucosal sites is of utmost importance for the development of vaccination strategies. T-cell priming after vaginal immunization, with ovalbumin and CpG oligodeoxynucleotide adjuvant as model vaccine formulation, was studied in vivo in hormone-synchronized mice and compared to the one induced by the nasal route. Twenty-four hours after both vaginal or nasal immunization, antigen-loaded dendritic cells were detected within the respective draining lymph nodes. Vaginal immunization elicited a strong recruitment of antigen-specific CD4⁺ T cells into draining lymph nodes that was more rapid than the one observed following nasal immunization. T-cell clonal expansion was first detected in iliac lymph nodes, draining the genital tract, and proliferated T cells disseminated towards distal lymph nodes and spleen similarly to what observed following nasal immunization. T cells were indeed activated by the antigen encounter and acquired homing molecules essential to disseminate towards distal lymphoid organs as confirmed by the modulation of CD45RB, CD69, CD44 and CD62L marker expression. A multi-type Galton Watson branching process, previously used for in vitro analysis of T-cell proliferation, was applied to model in vivo CFSE proliferation data in draining lymph nodes 57 hours following immunization, in order to calculate the probabilistic decision of a cell to enter in division, rest in quiescence or migrate/die. The modelling analysis indicated that the probability of a cell to proliferate was higher following vaginal than nasal immunization. All together these data show that vaginal immunization, despite the absence of an organized mucosal associated inductive site in the genital tract, is very efficient in priming antigen-specific CD4⁺ T cells and inducing their dissemination from draining lymph nodes towards distal lymphoid organs.     

Inflammation,caveolae and CD38-mediated calcium regulation in human airway smooth muscle

The pro-inflammatory cytokine tumor necrosis factor-alpha (TNFα) increases expression of CD38 (a membrane-associated bifunctional enzyme regulating cyclic ADP ribose), and enhances agonist-induced intracellular Ca^2 + ([Ca^2 +]_i) responses in human airway smooth muscle (ASM). We previously demonstrated that caveolae and their constituent protein caveolin-1 are important for ASM [Ca^2 +]_i regulation, which is further enhanced by TNFα. Whether caveolae and CD38 are functionally linked in mediating TNFα effects is unknown. In this regard, whether the related cavin proteins (cavin-1 and -3) that maintain structure and function of caveolae play a role is also not known. In the present study, we hypothesized that TNFα effects on CD38 expression and function in human ASM involve caveolae. Caveolar fractions from isolated human ASM cells expressed CD38 and its expression was upregulated by exposure to 20 ng/ml TNFα (48 h). ASM cells expressed cavin-1 and cavin-3, which were also upregulated by TNFα. Knockdown of caveolin-1, cavin-1 or cavin-3 (using siRNA) all significantly reduced CD38 expression and ADP-ribosyl cyclase activity in the presence or absence of TNFα. Furthermore, caveolin-1, cavin-1 and cavin-3 siRNAs reduced [Ca^2 +]_i responses to histamine under control conditions, and blunted the enhanced [Ca^2 +]_i responses in TNFα-exposed cells. These data demonstrate that CD38 is expressed within caveolae and its function is linked to the caveolar regulatory proteins caveolin-1, cavin-1 and -3. The link between caveolae and CD38 is further enhanced during airway inflammation demonstrating the important role of caveolae in regulation of [Ca^2 +]_i and contractility in the airway.     

Kjellmaniella crassifolia Miyabe (Gagome) Extract Modulates Intestinal and Systemic Immune Responses

Kjellmaniella crassifolia Miyabe (gagome) is a brown alga. Oral gagome administration (oral gagome) resulted in significant upregulation of IL-10 and IFNγ production by Peyer’s patch cells. To assess the adjuvant activity of oral gagome, treated mice were subcutaneously injected with ovalbumin (OVA). The production of cytokines from antigen (Ag)-specific T cells in draining lymph nodes (dLN) and their proliferative response were significantly increased as compared with the control group. These enhancements were associated with increased CD44^hiCD62L^? activated/memory T cells in dLN as well as upregulation of Ag-specific IgA level in luminal contents. No upregulation of cytokine production by dLN T cells was observed in dectin-1-deficient mice, suggesting that the effect of gagome on cytokine production is largely dependent on the dectin-1 pathway despite its composite constituents. Our findings indicate that gagome is an effective immunomodulator and a potent adjuvant for both the intestinal and the systemic immune response.     

Lymphocyte subpopulations of regional lymph nodes in human colon and gastric adenocarcinomas

 In order to study the host immune response to tumours, previous knowledge of the cellular composition of regional draining lymph nodes is necessary. Enlarged regional lymph nodes are a common finding in colon and gastric adenocarcinomas. We have studied the cellular composition of normal non-reactive and of regional draining lymph nodes of colon and gastric adenocarcinomas. In normal non-reactive lymph nodes, T lymphocytes (CD2⁺, CD7⁺) constituted the largest fraction of the lymphoreticular cells. These lymphocytes were mainly CD4⁺, and there were more cells expressing the CD45RA isoform of the CD45 antigen than CD45RO. Reactive lymph nodes presented a decreased proportion of CD4⁺ CD45RA⁺ cells and an increased number of B cells. Although most of the T cells in the reactive nodes were CD4⁺ CD45RO⁺, their proportion was similar to that found in normal non-reactive nodes. We studied the presence of the molecules CD28 and CD80 involved in the processes of interaction and activation of T and B lymphocytes. The CD28 molecule was found in all the T lymphocytes, while the CD80 molecule was weakly expressed on the B lymphocyte membrane. Received: 4 January 1996 / Accepted: 28 May 1996     

High expression of adhesion molecules/activation markers with little interleukin-2, interferon γ, and tumor necrosis factor β gene activation in fresh tumor-infiltrating lymphocytes from lung adenocarcinoma

Tumor-infiltrating lymphocytes (TIL) were derived from primary breast tumors, metastatic lymph nodes and malignant pleural effusions from 34 patients with breast cancer. TIL were cultured for approximately 30 days and studied for phenotype, cytotoxicity, and the ability to secrete cytokines in response to autologous tumor stimulation. Tumor specimens were obtained from two different sites in 7 patients, resulting in 41 samples from which 38 TIL cultures were established. In addition to screening 38 bulk TIL cultures, TIL from 21 patients were separated into CD4⁺ and CD8⁺ subsets and extensively studied. Three CD4⁺ TIL were found specifically to secrete granulocyte macrophage-colony-stimulating factor and tumor necrosis factor when stimulated by autologous tumor and not by a large panel of stimulators (24–34) consisting of autologous normal cells, allogeneic breast or melanoma tumors and EBV-B cells. This cytokine release was found to be MHC-class-II-restricted, as it was inhibited by the anti-HLA-DR antibody L243. These 3 patients' EBV-B cells, when pulsed with tumor lysates, were unable to act as antigen-presenting cells and induce cytokine secretion by their respective CD4⁺ TIL. These findings demonstrate that MHC-class-II-restricted CD4⁺ T cells recognising tumor-associated antigens can be detected in some breast cancer patients.     

Intraperitoneal Administration of a Tumor-Associated Antigen SART3, CD40L,and GM-CSF Gene-Loaded Polyplex Micelle Elicits a Vaccine Effect in Mouse Tumor Models

Polyplex micelles have demonstrated biocompatibility and achieve efficient gene transfection in vivo. Here, we investigated a polyplex micelle encapsulating genes encoding the tumor-associated antigen squamous cell carcinoma antigen recognized by T cells-3 (SART3), adjuvant CD40L, and granulocyte macrophage colony-stimulating factor (GM-CSF) as a DNA vaccine platform in mouse tumor models with different types of major histocompatibility antigen complex (MHC). Intraperitoneally administrated polyplex micelles were predominantly found in the lymph nodes, spleen, and liver. Compared with mock controls, the triple gene vaccine significantly prolonged the survival of mice harboring peritoneal dissemination of CT26 colorectal cancer cells, of which long-term surviving mice showed complete rejection when re-challenged with CT26 tumors. Moreover, the DNA vaccine inhibited the growth and metastasis of subcutaneous CT26 and Lewis lung tumors in BALB/c and C57BL/6 mice, respectively, which represent different MHC haplotypes. The DNA vaccine highly stimulated both cytotoxic T lymphocyte and natural killer cell activities, and increased the infiltration of CD11c⁺ DCs and CD4⁺/CD8a⁺ T cells into tumors. Depletion of CD4⁺ or CD8a⁺ T cells by neutralizing antibodies deteriorated the anti-tumor efficacy of the DNA vaccine. In conclusion, a SART3/CD40L+GM-CSF gene-loaded polyplex micelle can be applied as a novel vaccine platform to elicit tumor rejection immunity regardless of the recipient MHC haplotype.     

Identification of new cytokine combinations for antigen-specific T-cell therapy products via a high-throughput multi-parameter assay

Infusion of viral-specific T cells (VSTs) is an effective treatment for viral infection after stem cell transplant. Current manufacturing approaches are rapid, but growth conditions can still be further improved. To optimize VST cell products, the authors designed a high-throughput flow cytometry-based assay using 40 cytokine combinations in a 96-well plate to fully characterize T-cell viability, function, growth and differentiation. Peripheral blood mononuclear cells (PBMCs) from six consenting donors were seeded at 100 000 cells per well with pools of cytomegalovirus peptides from IE1 and pp65 and combinations of IL-15, IL-6, IL-21, interferon alpha, IL-12, IL-18, IL-4 and IL-7. Ten-day cultures were tested by 13-color flow cytometry to evaluate viable cell count, lymphocyte phenotype, memory markers and interferon gamma (IFNγ) and tumor necrosis factor alpha (TNFα) expression. Combinations of IL-15/IL-6 and IL-4/IL-7 were optimal for the expansion of viral-specific CD3+ T cells, (18-fold and 14-fold, respectively, compared with unstimulated controls). CD8+ T cells expanded 24-fold in IL-15/IL-6 and 9-fold in IL-4/IL-7 cultures (P < 0.0001). CD4+ T cells expanded 27-fold in IL-4/IL-7 and 15-fold in IL-15/IL-6 (P < 0.0001). CD45RO+ CCR7– effector memory (CD45RO+ CCR7– CD3+), central memory (CD45RO+ CCR7+ CD3+), terminal effector (CD45RO– CCR7– CD3+), and naive (CD45RO– CCR7+ CD3+). T cells were the preponderant cells (76.8% and 72.3% in IL-15/IL-6 and IL-15/IL-7 cultures, respectively). Cells cultured in both cytokine conditions were potent, with 19.4% of CD3+ cells cultured in IL-15/IL-6 producing IFNγ (7.6% producing both TNFα and IFNγ) and 18.5% of CD3+ cells grown in IL-4/IL-7 producing IFNγ (9% producing both TNFα and IFNγ). This study shows the utility of this single-plate assay to rapidly identify optimal growth conditions for VST manufacture using only 10⁷ PBMCs.     

Cellular and cytokine-dependent immunosuppressive mechanisms of grm1-transgenic murine melanoma

Grm1-transgenic mice spontaneously develop cutaneous melanoma. This model allowed us to scrutinize the generic immune responses over the course of melanoma development. To this end, lymphocytes obtained from spleens, unrelated lymph nodes and tumor-draining lymph nodes of mice with no evidence of disease, and low or high tumor burden were analyzed ex vivo and in vitro. Thereby, we could demonstrate an increase in the number of activated CD4⁺ and CD8⁺ lymphocytes in the respective organs with increasing tumor burden. However, mainly CD4⁺ T cells, which could constitute both T helper as well as immunosuppressive regulatory T cells, but not CD8⁺ T cells, expressed activation markers upon in vitro stimulation when obtained from tumor-bearing mice. Interestingly, these cells from tumor-burdened animals were also functionally hampered in their proliferative response even when subjected to strong in vitro stimulation. Further analyses revealed that the increased frequency of regulatory T cells in tumor-bearing mice is an early event present in all lymphoid organs. Additionally, expression of the immunosuppressive cytokines TGF-??1 and IL-10 became more evident with increased tumor burden. Notably, TGF-??1 is strongly expressed in both the tumor and the tumor-draining lymph node, whereas IL-10 expression is more pronounced in the lymph node, suggesting a more complex regulation of IL-10. Thus, similar to the situation in melanoma patients, both cytokines as well as cellular immune escape mechanisms seem to contribute to the observed immunosuppressed state of tumor-bearing grm1-transgenic mice, suggesting that this model is suitable for preclinical testing of immunomodulatory therapeutics.     

Reciprocal effects of Th1 and Treg cell inducing pathogen-associated immunomodulatory molecules on anti-tumor immunity

We have addressed the hypothesis that pathogen-associated immunomodulatory molecules may influence anti-tumor immunity through their pro- and anti-inflammatory activities and abilities to induce effector and regulatory T (Treg) cells. We found that CpG oligonucleotides (CpG) and cholera toxin (CT), which promote Th1 or Th2/Treg cell biased responses, respectively, had differential effects on tumor growth. Therapeutic peritumoral administration of CpG significantly reduced subcutaneous tumor growth and prolonged survival, whereas CT enhanced tumor growth and reduced survival. Peritumoral administration of CpG enhanced the frequency of IFN-γ-secreting and reduced IL-10-secreting CD4⁺ and CD8⁺ T cells, in the tumor and in the draining lymph nodes, whereas, CT significantly enhanced the frequency of CD4⁺CD25⁺Foxp3⁺ Treg cells, but reduced IFN-γ-secreting T cells infiltrating the tumor. In contrast to the beneficial effect of CpG in mice with subcutaneous tumors, CpG or CT had no protective effect against tumor growth in the lungs when given therapeutically by the nasal route. However, prophylactic intranasal administration of CpG significantly reduced the number of lung metastases and this was associated with an enhanced frequency of IFN-γ-secreting CD8⁺ T cells in the draining lymph node and enhanced tumor-specific CTL responses. Our findings demonstrate that pathogen-associated molecules can either inhibit or enhance anti-tumor immunity by selectively promoting the induction of effector or regulatory T cells, and that the environment of the growing tumor influences the protective effect. Joanne Lysaght and Andrew G. Jarnicki contributed equally.     

Intratumoral interleukin-2/agonist CD40 antibody drives CD4<Superscript>+</Superscript>-independent resolution of treated-tumors and CD4<Superscript>+</Superscript>-dependent systemic and memory responses

Targeting interleukin-2 (IL-2) and/or agonist anti-CD40 antibody (Ab) into tumors represents an effective vaccination strategy that avoids systemic toxicity and resolves treated-site tumors. Here, we examined IL-2 and/or anti-CD40 Ab-driven local versus systemic T cell function and the installation of T cell memory. Single tumor studies showed that IL-2 induced a potent CD4⁺ and CD8⁺ T cell response that was limited to the draining lymph node and treated-site tumor, and lymph node tumor-specific CD8⁺ T cells did not upregulate CD44. A two-tumor model showed that while IL-2-treated-site tumors resolved, distal tumors continued to grow, implying limited systemic immunity. In contrast, anti-CD40 Ab treatment with or without IL-2 expanded the systemic T cell response to non-draining lymph nodes, and distal tumors resolved. Tumor-specific T cells in lymph nodes of anti-CD40 Ab ± IL-2-treated mice upregulated CD44, demonstrating activation and transition to effector/memory migratory cells. While CD40-activated CD4⁺ T cells were not required for eradicating treated-site tumors, they, plus CD8⁺ T cells, were crucial for removing distal tumors. Rechallenge/depletion experiments showed that the effector/memory phase required the presence of previously CD40/IL-2-activated CD4⁺ and CD8⁺ T cells to prevent recurrence. These novel findings show that different T cell effector mechanisms can operate for the eradication of local treated-site tumors versus untreated distal tumors and that signaling through CD40 generates a whole of body, effector/memory CD4⁺ and CD8⁺ T cell response that is amplified and prolonged via IL-2. Thus, successful immunotherapy needs to generate collaborating CD4⁺ and CD8⁺ T cells for a complete long-term protective cure.     

Skin Allografting Activates Anti-tumor Immunity and Suppresses Growth of Colon Cancer in Mice

INTRODUCTION: The tumor cells could escape from the immune elimination through the immunoediting mechanisms including the generation of immunosuppressive or immunoregulative cells. By contrast, allograft transplantation could activate the immune system and induce a strong allogenic response. The aim of this study was to investigate the efficacy of allogenic skin transplantation in the inhibition of tumor growth through the activation of allogenic immune response. METHODS: Full-thickness skin transplantation was performed from C57BL/6 (H-2^b) donors to BALB/c (H-2^d) recipients that were receiving subcutaneous injection of isogenic CT26 colon cancer cells (2?×?10⁶ cells) at the same time. The tumor size and pathological changes, cell populations and cytokine profiles were evaluated at day 14 post-transplantation. RESULTS: The results showed that as compared to non-transplant group, the allogenic immune response in the skin-grafting group inhibited the growth of tumors, which was significantly associated with increased numbers of intra-tumor infiltrating lymphocytes, increased populations of CD11c⁺MHC-classII⁺CD86⁺ DCs, CD3⁺CD4⁺ T cells, CD3⁺CD8⁺ T cells, and CD19⁺ B cells, as well as decreased percentage of CD4⁺CD25⁺Foxp3⁺ T cells in the spleens. In addition, the levels of serum IgM and IgG, tumor necrosis factor (TNF)-α and interferon (IFN)-γ were significantly higher within the tumor in skin transplant groups than that in non-transplant group. CONCLUSIONS: Allogenic skin transplantation suppresses the tumor growth through activating the allogenic immune response, and it may provide a new immunotherapy option for the clinical refractory tumor treatment.     

Curative potential of GM-CSF-secreting tumor cell vaccines on established orthotopic liver tumors: Mechanisms for the superior antitumor activity of live tumor cell vaccines

In preclinical studies, tumor cells genetically engineered to secrete cytokines, hereafter referred to as tumor cell vaccines, can often generate systemic antitumor immunity. This study investigated the therapeutic effects of live or irradiated tumor cell vaccines that secrete granulocyte-macrophage colony-stimulating factor (GM-CSF) on established orthotopic liver tumors. Experimental results indicated that two doses (3 × 10⁷ cells per dose) of irradiated tumor cell vaccines were therapeutically ineffective, whereas one dose (3 × 10⁶ cells) of live tumor cell vaccines caused complete tumor regression. In vivo depletion of CD8+ T cells, but not natural killer cells, restored tumor formation in the live vaccine-treated animals. Additionally, the treatment of cells with live vaccine induced markedly higher levels of cytotoxic T lymphocyte activity than the irradiated vaccines in the draining lymph nodes. The higher levels of cytokine and antigen loads could partly explain the superior antitumor activity of live tumor cell vaccines, but other unidentified mechanisms could also play a role in the early T cell activation in the lymph nodes. A protocol using multiple and higher dosages of irradiated tumor cell vaccines also caused significant regression of liver tumors. These results suggest that the GM-CSF-secreting tumor cell vaccines are highly promising for orthotopic liver tumors if higher levels of immune responses are elicited during early tumor development.     

Antitumor vaccination effect of dendritic cells can be augmented by locally utilizing Th1-type cytokines from OK432-reactive CD4+ T cells

 In order to enhance the antitumor vaccination effect of dendritic cells (DC) pulsed with class I tumor peptide, we tried to utilize the local cytokine help of CD4⁺ T cells reactive to a streptococcal preparation OK432. DC were prepared from murine bone marrow cells by culture with both granulocyte/macrophage-colony-stimulating factor and interleukin(IL)-4. The peritumoral injections of OK432 induced OK432-reactive CD4⁺ T cells in the draining lymph nodes, and their in vitro production of interferon γ was thus significantly enhanced by restimulation with OK432-pulsed DC. In addition, anti-P815 mastocytoma cytotoxic T lymphocytes were generated from the in vivo OK432-treated P815-draining lymph node cells only when the lymph node cells were restimulated in vitro with the DC pulsed with both P1A peptide and OK432. Moreover, the peritumoral injections of OK432 and the subsequent vaccination of the DC, pulsed with both OK432 and P1A peptide, significantly suppressed the growth of s.c. inoculated P815. Interestingly, a significant level of IL-12 was detected in the coculture supernatant of both OK432-pulsed DC and OK432-reactive CD4⁺ T cells. Collectively, our results suggest that the antitumor vaccination effect of DC pulsed with class I tumor peptide could thus be effectively augmented by locally utilizing the Th1-type cytokines from OK432-reactive CD4⁺ T cells. Received: 18 July 1997 / Accepted: 23 December 1997