Preferential localization of effector memory cells in nonlymphoid tissue.

Many intracellular pathogens infect a broad range of host tissues, but the importance of T cells for immunity in these sites is unclear because most of our understanding of antimicrobial T cell responses comes from analyses of lymphoid tissue. Here, we show that in response to viral or bacterial infection, antigen-specific CD8 T cells migrated to nonlymphoid tissues and were present as long-lived memory cells. Strikingly, CD8 memory T cells isolated from nonlymphoid tissues exhibited effector levels of lytic activity directly ex vivo, in contrast to their splenic counterparts. These results point to the existence of a population of extralymphoid effector memory T cells poised for immediate response to infection.

T-cell receptor transgenic analysis of tumor-specific CD8 and CD4 responses in the eradication of solid tumors.

The role of tumor-specific CD8 and CD4 lymphocytes in rejecting solid tumors has been difficult to determine because of the lack of models in which tumor antigen, specific CD8 cells, and specific CD4 cells can be monitored and controlled. To investigate the minimal components required for the induction and maintenance of CTL activity sufficient to reject a solid tumor in vivo, we transfected the influenza hemagglutinin (HA) gene into a nonimmunogenic class I+/class II- murine malignant mesothelioma (MM) tumor line to generate an endogenous tumor antigen and used TCR transgenic mice with class I- or class II-restricted specificities for HA as sources of naive, tumor-specific T cells. The data show that the presence of a strong tumor antigen is not in itself sufficient to induce an effective CTL response, nor does the presence of a high frequency of precursor cells guarantee tumor rejection. We also show that tumor-specific CD4 cells, when CTL numbers are suboptimal, greatly enhance the eradication of tumor, confirming the importance of antigen-presenting cell presentation of tumor antigens to class II-restricted cells. These data confirm that T-cell receptor transgenic cells, combined with nominal tumor antigen transfection, represent powerful tools to analyze tumor-specific T-cell responses.

Antisense oligonucleotides specific for transforming growth factor beta2 inhibit the growth of malignant mesothelioma both in vitro and in vivo.

Transforming growth factor beta (TGF-beta) is a potent growth-regulatory and immunomodulatory cytokine that exerts a diverse range of effects on many types of cells. High levels of TGF-beta are produced by several human and mouse malignant mesothelioma (MM) cell lines, and it is known to act as a growth factor for these cells. Antisense oligonucleotides (ODNs), targeted against specific TGF-beta mRNA, were used to block TGF-beta production from MM cells in vitro and in vivo. TGF-beta antisense ODNs were encapsulated in liposomes and transfected into MM cells or delivered intratumorally. TGF-beta2 mRNA levels, assessed by semiquantitative PCR, and TGF-beta2 protein secretion were reduced after TGF-beta2 antisense ODN transfection. MM cell proliferation, assessed by tritiated thymidine uptake, was specifically inhibited by both TGF-beta1- and TGF-beta2-specific antisense ODNs. In vivo administration of TGF-beta2 antisense ODNs, delivered locally, reduced tumor growth. These data show that the blockade of TGF-beta2 within this tumor reduces tumor growth and raises the possibility that TGF-beta2 antisense ODNs may be useful as a therapy for this disease.

Lack of ignorance to tumor antigens: evaluation using nominal antigen transfection and T-cell receptor transgenic lymphocytes in Lyons-Parish analysis--implications for tumor tolerance.

A substantial body of literature has described weak antitumor CTL responses in tumor-bearing hosts, and a number of authors have suggested that tumor tissue in some way sequesters antigen from the immune system, a failure of the tumor-specific immune response largely attributable to "ignorance." To evaluate this in a tumor model, we stably transfected murine tumor cell lines with genes coding for the nominal antigens influenza hemagglutinin (HA) or ovalbumin (OVA) and adoptively transferred HA- or OVA-specific T-cell receptor-transgenic, CD8-positive T cells into mice-bearing these tumors. Tumor antigen cross-presentation within draining lymph nodes (LNs) was then examined using Lyons-Parish analysis, detection of a proliferative response of 5,6-carboxyfluorescein diacetate succinimidyl ester-labeled CD8 T cells from T-cell receptor mice using flow cytometric analysis. Our studies demonstrate clearly that tumor antigens are constitutively presented in LNs draining tumors and can stimulate a T-cell proliferative response. This lack of ignorance was not simply attributable to the model chosen, because it was seen with three different cell lines, two different antigens, and two different mouse strains. Furthermore, it occurred regardless of whether these tumor antigens were expressed as cytoplasmic, transmembrane, or secreted proteins. When tumor antigens were present in low concentrations, antigen cross-presentation was not absent but simply delayed. Interestingly, tumor antigen cross-presentation remained localized to the LNs draining the tumor throughout the period of tumor growth. Curiously, in animals where tumors failed to grow, evidence of continued cross-presentation of the tumor antigen was seen up to 6 months after tumor inoculation. These data suggest that ignorance is not an explanation for the failure of the host immune system to respond to tumor antigens.

Potential for interferon-alpha-based therapy in mesothelioma: assessment in a murine model.

Malignant mesothelioma is an aggressive tumor, usually induced by asbestos exposure, that has a poor prognosis and is unresponsive to conventional therapy. The present study was aimed at assessing the potential for interferon-alpha (IFN-alpha)-based therapies in a murine model for malignant mesothelioma. The effect of recombinant human IFN-alpha B/D on tumor growth, alone and in combination with either of two immunomodulatory and antiproliferative agents beta-carotene or alpha-difluoromethylornithine (DFMO), was assessed. The data suggest that IFN-alpha treatment is most efficacious when commenced early in tumor development. Combination of IFN-alpha with either DFMO or dietary beta-carotene supplementation improved the effect of an otherwise suboptimal IFN-alpha therapy regimen. Both IFN-alpha and beta-carotene had in vivo stimulatory effects on immune cells, perhaps indirectly by inhibiting TGF-beta generation. The immunomodulatory effects may contribute, at least in part, to the positive antitumor and clinical activities of the treatments in this model.

Susceptibility to murine experimental autoallergic myasthenia gravis: the role of antibody specificity.

To examine the differing susceptibility of C57BL/6J and C3H/HeJ mice to experimental autoallergic myasthenia gravis (EAMG), we have compared the pathogenicity of sera from the two strains. Mice were immunized with acetylcholine receptor from T. californica and muscle weakness assessed as the time mice were capable of running on an exercise drum following the administration of a sub-lethal dose of D-tubocurarine. 16 of 20 C57BL/6J and only 4 of 19 C3H/HeJ mice developed muscle weakness. However, anti-AChR antibody titres were similar in both strains. The effect of transfer of pooled immune sera from each strain to naive recipients was therefore compared. Transfer of pooled C57BL/6J sera to naive C3H/HeJ and C57BL/6J mice produced significant muscle weakness (P less than 0.001 & P less than 0.001 respectively). Transfer of pooled C3H/HeJ sera did not produce statistically significant muscle weakness in either strain. It is concluded that differences in disease susceptibility result from differences in antibody specificities of the major antibody populations, rather than differences in total antibody amounts or other factors.

Transforming growth factor-beta: antisense RNA-mediated inhibition affects anchorage-independent growth, tumorigenicity and tumor-infiltrating T-cells in malignant mesothelioma.

Transforming growth factor-beta (TGF-beta) is produced by a number of tumor cell types including human malignant mesothelioma (MM), but its role as a direct or indirect factor in tumorigenesis is incompletely understood. We have investigated the expression of TGF-beta isoforms by human and murine MM cells and have analysed the effects of inducible antisense RNA-mediated inhibition of TGF-beta expression on murine MM in vitro and in vivo. The results showed that (a) TGF-beta 1 and -beta 2 were produced by both human and mouse MM cells, (b) antisense RNA against either TGF-beta 1 or -beta 2 cross-inhibited both TGF-beta 1 and -beta 2 expression, (c) inhibition of TGF-beta expression reduced the anchorage-independent growth of MM cells in vitro and the tumorigenicity of MM cells in vivo, and (d) inhibition of TGF-beta expression led to increased T lymphocyte infiltration into tumors. The data suggest that TGF-beta has multiple tumor-enhancing effects in MM.

Cross-presentation of tumour antigens: evaluation of threshold, duration, distribution and regulation.

The development of technology to measure antigen presentation in the secondary lymphoid system has provided the opportunity of analysing components of the host antitumour immune response that have, until now, been unavailable for study. In particular, this technology has enabled us to evaluate threshold levels of tumour antigen required for cross-presentation in draining lymph nodes, the duration of this antigen presentation and processes that regulate tumour antigen presentation. Thus, we have been able to dissect out the relationship between antigen presentation and the resultant development of effector function in class I-restricted T cells, as well as the role of regulatory CD4 cells. We have also used this technology to evaluate the effects of antitumour therapy on local antigen cross-presentation.

Interleukin-6 involvement in mesothelioma pathobiology: inhibition by interferon alpha immunotherapy.

A role for interleukin-6 (IL-6) in malignant mesothelioma has been suggested by the clinically presenting symptoms of mesothelioma patients, which include fever, weight loss and thrombocytosis. A murine model of malignant mesothelioma was therefore used to examine the potential role of IL-6 in this cancer type and whether the effect of interferon alpha (IFN alpha) therapy on mesothelioma might be mediated, in part, by regulating IL-6 levels and/or IL-6-induced pathobiology. A panel of human and murine mesothelioma cell lines was assayed for endogenous IL-6 production in a bioassay, and for IL-6-mRNA expression. Four out of 5 human and 5 out of 15 murine mesothelioma cell lines produced moderate to high levels of bioactive IL-6 in vitro. This result was corroborated by mRNA detection. One of the representative murine cell lines, AB22, was chosen for further in vivo studies in the murine mesothelioma model. In AB22-inoculated mice detectable serum IL-6 levels were found to precede macroscopically detectable tumour growth, clinical signs (cachexia, abdominal distension, diarrhoea) and changes in the peripheral lymphoid organs (cell depletion and functional depression). Treatment with anti-IL-6 antibody curtailed the clinical symptoms (P < 0.001), as did treatment with recombinant human (rhu) IFN alpha (P < 0.001). Neither anti-IL-6 antibody nor rhuIFN alpha had a direct growth-inhibitory effect on the AB22 mesothelioma cell line in vitro, however, in vivo rhuIFN alpha treatment of mice inoculated with AB22 cells attenuated both IL-6 mRNA expression in the tumours and serum IL-6 levels, ameliorated the depression of lymphocyte activities, and enhanced the number of tumour-infiltrating lymphocytes and macrophages. On the basis of these results it is suggested that IL-6 mediates some of these effects, directly or indirectly, and that a combination therapy of rhuIFN alpha and anti-IL-6 antibody may be an improved palliative treatment for patients with malignant mesothelioma.

Patho- and immunobiology of malignant mesothelioma: characterisation of tumour infiltrating leucocytes and cytokine production in a murine model.

Malignant mesothelioma (MM) is an aggressive, uniformly fatal serosal tumour, usually associated with asbestos exposure, for which there currently is no effective treatment. In order to gain insight into the mechanism(s) whereby MM might escape immune surveillance, a murine model for MM was used (a) to characterise the tumour-infiltrating lymphocytes (TIL) and macrophages (TIM) phenotypically, (b) to examine systemic immune recognition of MM, and (c) to examine the possible influence of tumour-derived cytokines on systemic and local pathobiological manifestations of MM. A profound down-regulation of lymphocyte surface markers, known to be involved in T cell activation, was found in TIL. Likewise, although TIM were present in large numbers, their expression of MHC class II antigen and integrins was weak or absent, suggestive of altered functional activity. Significant amounts of cytokines, in particular transforming growth factor beta, interleukin-6 (IL-6), IL-1 and tumour necrosis factor were produced during the course of MM tumour development-directly by the MM cells and/or indirectly in response to tumour growth. These factors may contribute both to derangement of antitumour effector mechanisms and to the clinical and pathological manifestations of the disease.

Tumor antigens are constitutively presented in the draining lymph nodes.

Tumor growth is rarely associated with a strong specific CTL response, suggesting that the immune system is ignorant of the presence of tumor because the Ags are not readily available to or are sequestered from potential effector cells. We studied the in vivo activation of naive TCR transgenic hemagglutinin (HA)-specific CD8+ T cells adoptively transferred into mice bearing HA-expressing tumor using 5,6-carboxy-succinimidyl-fluorescein-ester labeling, which allows the identification of proliferating HA-specific T cells. We demonstrate that tumor Ags are constitutively presented in the lymph nodes draining tumors and are powerfully mitogenic for responding T cells despite the absence of anti-tumor CTL responses. Importantly, this proliferative signal occurs throughout tumor growth and is still detectable 6 mo after tumor inoculation when tumor is not palpable. These results provide the first evidence that there is constitutive presentation of tumor Ags in draining lymph nodes.

Tumor-specific CD4+ T cells have a major "post-licensing" role in CTL mediated anti-tumor immunity.

A number of tumor studies have indicated a link between CD4 help and the magnitude and persistence of CTL activity; however, the mechanisms underlying this have been largely unclear. To evaluate and determine the mechanisms by which CD4(+) T cells synergize with CD8(+) T cells to prevent tumor growth, we used the novel technique of monitoring in vivo CTL by labeling target cells with CFSE. This approach was supported by the direct visualization of CTL using peptide-MHC tetramers to follow tumor-specific T cells. The data presented demonstrate that while cotransfer of Ag-specific CD4(+) T cells was not required for the generation of CTLs, because adoptive transfer of CD8(+) T cells alone was sufficient, CD4(+) T cells were required for the maintenance of CD8(+) T cell numbers. Our data suggest that there is a correlation among the number of CD8(+) T cells, in vivo CTL function, and IFN-gamma production, with no evidence of a partial or nonresponsive phenotype among tetramer-positive cells. We also show that CD4(+) T cells are required for CD8(+) T cell infiltration of the tumor.