Regulation of cellular immune response against autologous human melanoma. II. Mechanism of induction and specificity of suppression

The cytotoxic immune response in the peripheral blood lymphocytes (PBL) against an autologous malignant melanoma cell line, PJ-M, was found to be down-regulated in in vitro co-culture (IVC) selectively by unfractionated resident lymph node lymphocytes (derived from a lymph node infiltrated with the PJ-M melanoma cells) and T4+ as well as T8+ fractions of the resident lymph node-derived lymphocytes. In this study, the mechanism involved in, and the specificities of, cytotoxic immune response in this autologous system were examined at population and clonal levels. Resident lymph node lymphocytes were isolated from both involved and uninvolved lymph nodes from the same patient. Resident lymphocytes from both sources regulated the generation of cytotoxic immune response when both types of resident lymph node lymphocytes were further sensitized against the PJ-M cells in IVC and were expanded in interleukin 2 (IL 2). An IL 2-dependent homogeneous lymphocyte line (I-10:1) bearing the phenotype of a helper T cell (T4+) and a T4+ clone (I-10.3) of the I-10:1 line, established by limiting dilution culture, also down-regulated the generation of cytotoxic immune effector cells in the PBL in IVC against the PJ-M targets. The IL 2-dependent T4+ inducer line I-10:1 generated a functionally differentiated T8+ suppressor population(s) that, in turn, could abrogate cytotoxic response in fresh PBL in IVC against PJ-M cells. The inducer line I-10:1 and its subclone I-10.3 suppressed the generation of cytotoxic effector cells in the PBL in IVC selectively against the autologous PJ-M cells. Generation of cytotoxic allo-response in IVC was unaffected by the inducer lines. These results provide further evidence for the involvement of the regulatory network in cytotoxic immune response in an autologous human tumor system, and suggest a potential explanation for cytotoxic unresponsiveness against autologous melanoma cells.     

Autologous melanoma-induced activation of regulatory T cells that suppress cytotoxic response

The host immune response toward autologous human cancer is subject to regulation by the immunoregulatory network. We show that certain CD4+ T cell clones, derived from melanoma involved lymph node lymphocytes and from PBL stimulated by autologous melanoma cells, selectively down-regulated the induction of cytotoxic immune response of PBL against the respective autologous melanoma cells in two autologous systems. In both systems, only the generation of cytotoxic response against the autologous melanoma cells were suppressed. Cytotoxic response against EBV-infected autologous lymphoblastoid cell line in one case and cytotoxic responses against allogeneic targets in the other were not affected. In addition to suppressor activity selectively expressed against the autologous melanoma cells, the T cell clones up-regulated their Tac receptors when cocultured with the autologous melanoma cells and APC. These results support the existence of a putative tumor Ag-driven activation of regulatory T cells that affect cytotoxic immune response, in vitro, against autologous human melanoma.     

Membrane structures involved in auto-tumor recognition

Tumor patients' blood lymphocytes have the capacity to recognize autologous tumor cells in vitro. A consequence of this recognition is the proliferation of small-size, high-density, resting T cells. Both helper (CD4+) and cytotoxic/suppressor (CD8+) T lymphocytes proliferate in the mixed lymphocyte-tumor cell cultures. In contrast to the autologous mixed lymphocyte cultures, both the auto-erythrocyte rosetting and non-rosetting (AE+ and AE-) T cells participate in the auto-tumor response. In contrast to stimulation by virus-infected or hapten-modified cells, DR antigen expression is not essential for stimulation by autologous tumor cells. In a proportion of cancer patients, blood lymphocytes have the capacity to lyse the patients' own tumor cells in vitro. There are two populations of lymphocytes with auto-tumor cytotoxic function. The first is characterized by low buoyant density and by non-adaptive cytotoxicity. In contrast to the recognition of hapten-modified or virus-infected target cells by the CTL, recognition of autologous tumor cells by the cytotoxic LD cells occurs even when the MHC class I antigens are blocked by mAb. The CD3 complex is also not involved in LD-mediated lysis. The other population with auto-tumor cytotoxic function comprises high-density, resting T cells. Recognition of autologous tumor cells by cytotoxic HD lymphocytes shares the characteristics of CTLs, i.e., their function is abrogated by pretreatment of the effectors with mAbs directed to the T3 receptor complex and by preincubation of the targets with mAb to the MHC class I antigens. Cytotoxicity of HD cells is restricted to the autologous tumor cells. This selectivity and the characteristics shared with CTL suggest that the auto-tumor reactivity of HD lymphocytes reflects an immune response against the autologous tumor.     

Regulation of cellular immune response against autologous human melanoma. I. Evidence for cell-mediated suppression of in vitro cytotoxic immune response

The potential existence of down-regulation of cytotoxic immune response against an autologous human melanoma line was investigated as a possible explanation for cytotoxic unresponsiveness against the autologous melanoma cells. The melanoma cell line, PJ-M, was established and lymph node resident lymphocytes (LNL) were isolated from a lymph node which was partially infiltrated with the melanoma cells. Autologous peripheral blood lymphocytes (PBL) were sensitized in in vitro co-culture (IVC) against radiated PJ-M cells in the presence or absence of PJ-M-sensitized LNL and enriched suppressor (OKT8+) or inducer (OKT4+) LNL populations, and were assayed for cytotoxicity in a 4-hr 51Cr-release microcytotoxicity assay. Significant cytotoxic response against PJ-M could be generated in the PBL, but not in the LNL. The addition of sensitized, unfractionated LNL, OKT8+, or OKT4+ LNL populations abrogated cytotoxic response in the PBL against PJ-M. The suppression of cytotoxic response was induced selectively against the PJ-M targets, because IVC of PBL in the presence of the sensitized LNL did not affect the generation of polyclonal cytotoxic alloreactivities, nor did they abrogate the generation of cytotoxic response against allogeneic targets in IVC against the corresponding allogeneic targets. These results suggest the possibility that cytotoxic immune response against the autologous melanoma cells might have been suppressed by the individual's own immunoregulatory circuit.     

The rationale and practice of CTL therapy against cancer in the mouse and human

It is essential to investigate and elucidate the immune response especially T cell response to either syngeneic or autologous tumor for establishing a rational immunotherapy of cancer. We reported that major immune effector cells capable of inducing tumor regression are cytotoxic T lymphocytes (CTL). We found that there are at least two distinct CTL subsets directed to syngeneic tumor. One CTL subset which is selectively induced by syngeneic solid tumor is independent from CD4 positive helper T cells but requires a soluble factor (s) released from macrophage-like accessory cells designated killer T cell activating factor (KAF) in its induction and generation directed to the homologous tumor. The other CTL subset which is usually induced by syngeneic tumor of hematocytic origin is dependent on CD4 positive helper T cells in its induction. On the basis of our findings regarding the induction and activation mechanism of CTL to syngeneic tumors in the mouse, we have investigated the mechanisms of human CTL generation to autochthonous tumor in peripheral blood mononuclear cells of cancer patients. It was found that the nature of human CTL and its generation to autochthonous tumor are similar to those of murine CTL to syngeneic solid tumor. We are now establishing a rational cancer specific immunotherapy utilizing intravenous passive cell transfer of in vitro activated CTL to autochthonous tumor into an original cancer patient.     

The therapeutic effect of OK-432-combined adoptive immunotherapy against liver metastases from gastric or colorectal cancers

Twenty-four patients with liver metastases from gastric or colorectal cancer were treated with OK-432-combined adoptive immunotherapy (AIT). Lymphocytes isolated from regional lymph nodes or peripheral blood were cultured with medium containing T cell growth factor and sonicated tumor extract antigen (SE-Ag) for 9–13 days. The cultured lymphocytes were transferred mainly through the hepatic artery after the administration of OK-432, a streptococcal preparation. Sixteen of the 24 patients received a low dose of anti-cancer agents between the OK-432 injection and cell transfer. When cultured without SE-Ag, regional lymph node lymphocytes (RLNL) showed significantly (P<0.05) higher cytotoxic activity against autologous tumor cells and, on the contrary, lower cytotoxic activity against K562 than peripheral blood lymphocytes (PBL). When cultured with SE-Ag, cytotoxicity of RLNL against autologous tumor cells was nearly equivalent to that of PBL. The blastogenesis of fresh PBL to SE-Ag was significantly (P<0.05) augmented after the OK-432-combined AIT. Two patients showed complete response and 4 patients showed partial response among 19 patients who had evaluable lesions. Five patients whose liver metastases were resected were treated with OK-432-combined AIT as an adjuvant therapy. To date they are alive without recurrence in the liver.Abbreviations AIT adoptive immunotherapy - RLNL regional lymph node lymphocytes - SE-Ag sonicated tumor extract antigen     

Identification of a mutated receptor-like protein tyrosine phosphatase kappa as a novel,class II HLA-restricted melanoma antigen

Recent studies increasingly point to a pivotal role of CD4(+) T cells in human anti-tumor immune response. Here we show that lymphocytes purified from a tumor-infiltrated lymph node of a melanoma patient that had remained disease free for 10 years after surgical resection of a lymph node metastasis comprised oligoclonal class II HLA-restricted CD4(+) T cells recognizing the autologous tumor cells in vitro. In fact, the CD4(+) T cell clones isolated from these lymphocytes displayed a tumor-specific, cytotoxic activity in addition to a Th1-like cytokine profile. By a genetic approach, a peptide derived from a mutated receptor-like protein tyrosine phosphatase kappa was identified as a novel HLA-DR10-restricted epitope for all the melanoma-specific CD4(+) T cell clones. The immunogenic peptide was shown to contain the mutated residue that was crucial for T cell recognition and activation. Moreover, a systemic immunity against the mutated peptide was detectable in the patient's peripheral blood T lymphocytes obtained during the disease-free period of follow-up. These findings further support the relevance of CD4(+) T cells directed against mutated epitopes in tumor immunity and provide the rationale for a possible usage of mutated, tumor-specific Ags for immunotherapy of human cancer.     

Identification of specific cytolytic immune responses against autologous tumor in humans bearing malignant melanoma

Tumor-infiltrating lymphocytes from six patients with metastatic malignant melanoma were expanded by culture in recombinant interleukin 2. Three of the preparations were highly cytotoxic against autologous fresh melanoma tumor cells, but not against autologous fresh normal cells or allogeneic fresh tumor targets. The other three were highly cytotoxic against autologous fresh melanoma tumor cells and also had a limited capacity to kill allogeneic fresh tumor targets. The tumor-associated specific killer cells could be expanded from threefold to 95,652-fold with maintenance of specific antitumor lysis. The expanded tumor-infiltrating cells were Leu-4+ T cells, and in five of six patients the majority were Leu-3+. These studies demonstrate that the melanoma-bearing patient raises an immune response against autologous tumor and presents a method for the generation of human lymphocytes with antitumor reactivity that may be useful in the adoptive immunotherapy of tumors.     

Macrophage T lymphocyte interactions in the anti-tumor immune response: a mathematical model

In this paper we present a model of the macrophage T lymphocyte interactions that generate an anti-tumor immune response. The model specifies i) induction of cytotoxic T lymphocytes, ii) antigen presentation by macrophages, which leads to iii) activation of helper T cells, and iv) production of lymphoid factors, which induce a) cytotoxic macrophages, b) T lymphocyte proliferation, and c) an inflammation reaction. Tumor escape mechanisms (suppression, antigenic heterogeneity) have been deliberately omitted from the model. This research combines hitherto unrelated or even contradictory data within the range of behavior of one model. In the model behavior, helper T cells play a crucial role: Tumors that differ minimally in antigenicity (i.e., helper reactivity) can differ markedly in rejectability. Immunization yields protection against tumor doses that would otherwise be lethal, because it increases the number of helper T cells. The magnitude of the cytotoxic effector cell response depends on the time at which helper T cells become activated: early helper activity steeply increases the magnitude of the immune response. The type of cytotoxic effector cells that eradicates the tumor depends on tumor antigenicity: lowly antigenic tumors are attacked mainly by macrophages, whereas large highly antigenic tumors can be eradicated by cytotoxic T lymphocytes only.     

Human cytotoxic T cell clones directed against herpes simplex virus-infected cells. II. Bifunctional clones with cytotoxic and virus-induced proliferative activities exhibit herpes simplex virus type 1 and 2 specific or type common reactivities

Human cytotoxic T lymphocyte (CTL) clones directed against herpes simplex virus (HSV)-infected cells were generated after stimulation of peripheral blood lymphocytes (PBL) with HSV type 1 (HSV-1) and HSV type 2 (HSV-2). These CTL clones were studied with regard to HSV type specificity and with regard to whether they also express helper cell activity. Some clones, generated after stimulation with HSV-1, were cytotoxic for autologous cells infected with either HSV-1 or HSV-2 ("HSV type common clones"), whereas other clones lysed HSV-1-infected cells only ("type-specific clones"). Similarly, after HSV-2 stimulation, both HSV-2 specific and HSV type common clones were obtained, indicating the heterogeneity of human cytotoxic T cells to HSV. All CTL clones tested were found to be bifunctional in that they also proliferated in response to stimulation with HSV. The HSV type specificity of the proliferative response was identical to that of the cytotoxic activity of the clones. An HSV type common clone, when stimulated with either HSV-1 or HSV-2, and an HSV-1 specific clone, when stimulated with HSV-1 but not with HSV-2, produced a factor, presumably interleukin 2 (IL 2), which induced proliferation of CTLL, an IL 2-dependent T cell line, providing evidence that our HSV-directed CTL clones also express helper cell activity. CTL clones that we previously reported were restricted in cytotoxic activity by HLA class II DR-1 or MB-1 antigens were found, in this study, to be restricted in proliferative response to HSV by these same HLA antigens. These results suggest that our bifunctional T cell clones directed against HSV may recognize the same viral antigenic determinants and the same HLA antigens for both cytotoxic and virus-induced proliferative activities. This is the first demonstration of human HSV type specific and HSV type common T cell clones and HSV specific T cell clones with both cytotoxic and helper cell activities.     

Characteristics and mechanisms of action of the concanavalin A-activated suppressor cell in man.

Human peripheral blood lymphocytes treated for 24 to 48 hr with optimally mitogenic doses of concanavalin A suppressed the proliferative response of autologous T cells to mitogens and antigens. Con A-treated cells also suppressed the proliferative response and the immunoglobulin synthetic response of autologous B cells stimulated in vitro by T cell helper factor. The human Con A suppressor cell was sensitive to treatment with mitomycin C and to exposure to radiation doses exceeding 1000 rads. The Con A suppressor cell was shown to reside in the nylon wool-nonadherent, sheep red cell rosette-forming, histamine receptor-bearing population of lymphocytes and to lack surface DRW antigens. One mechanism of action of Con A suppressor cells was shown to be the inactivation of nonspecific T cell helper factor.     

Suppressive effect of human natural killer cells on pokeweed mitogen-induced B cell differentiation

The suppressive effect of human natural killer (NK) cells on B cell differentiation induced by pokeweed mitogen (PWM) was investigated. By using Percoll discontinuous density gradient centrifugation, peripheral blood nonphagocytic and nonadherent mononuclear cells were divided into low and high density fractions for which NK cells (Large granular lymphocytes, LGL) and T cells were enriched, respectively. These fractionated mononuclear cells were co-cultured with purified autologous B cells in the presence of PWM, and were examined for their helper and suppressor activities on differentiation of B cells to immunoglobulin-(IgM and IgG) producing cells by a highly sensitive reversed hemolytic plaque assay. The T cell-enriched high density fractions provided help for B cell differentiation to levels higher than that of unfractionated mononuclear cells. On the other hand, the NK-enriched low density fractions did not show helper activity, and when added to the culture of B cells plus helper T cells, they markedly suppressed B cell differentiation. This suppressive activity, as well as the NK cytotoxicity of the NK-enriched fractions, was abrogated by treatment of the cells with monoclonal antibody against human NK cells (HNK-1), but not against T cells (OKT3) in the presence of complement. NK cells also suppressed PWM-driven B cell differentiation in the presence of T4+ (helper/inducer T) but not T8+ (cytotoxic/suppressor T) cells; however, they showed no inhibition of soluble factor-induced B cell differentiation assayed in the absence of helper T cells. It is thus concluded that human peripheral blood NK cells exhibit an ability to suppress PWM-driven B cell differentiation, possibly by acting through the effect on helper T cells but not directly on B cells.     

Induction of cytotoxicity against autologous tumour cells by interleukin-12: evidence for intrinsic anti-tumor immune capacity in curatively resected gastrointestinal tumour patients

The aim of this study was to investigate the cell-mediated immune response in 14 patients undergoing curative resection for a gastrointestinal tumor by the induction of peripheral blood mononuclear cell (PBMC)-mediated immune activity against autologous tumour cells. PBMC were stimulated by interleukin-12 (IL-12; 100 IU/ml) and IL-2 (1,000 IU/ml) without contact with tumour cells for 36 h. Specific cytotoxic activity against autologous tumour cells (auTu), natural killer (NK)-sensitive cells (K562) and allogeneic tumour cells (RF48/HT29) was determined by fluorescence cytotoxicity assay. Additionally, inhibition experiments using the mononuclear antibodies (mAb) FMC16 and W6/32 against major histocompatibility complex I (MHC I) on autologous tumour cells were performed in order to determine the involvement of specific T lymphocytes. The cytotoxic activity of unstimulated PBMC did not differ between the three target cells. IL-12 caused a 3.2-fold increase in activity against auTu ( P=0.002). In contrast, after stimulation with IL-2, only a slight increase in activity was observed. After IL-12 stimulation, cytotoxic activity against auTu was 2.5- to 2.7-fold higher than the corresponding activity against K562/allogeneic tumour cells ( P=0.002/ P=0.006). After blocking of the MHC I complex on auTu by FMC 16 or W6/32 mAb, a 62.9%/74.4% reduction in the specific cytotoxicity of IL-12-stimulated PBMC was found. In summary, IL-12 induced an effective immune response against auTu, which was partly mediated by specific cytotoxic T lymphocytes (CTL). It was considered that de novo generation of this activity during 36 h incubation without antigen contact was hardly possible, but that the observed induction of effective anti-tumor cytotoxicity was rather based on the re-activation of a pre-existing immune potential from the tumour-host interaction. These findings indicate the existence of an autologous anti-tumor immune response following curative resection in patients undergoing surgery for solid tumours, which might influence the development of tumour recurrence from disseminated tumour cells. Making use of this capacity could constitute an attractive immunotherapeutical approach for curatively operated tumour patients.     

Two distinct human cloned T cell lines that exhibit natural killer-like and anti-human effector activities

Cloned T cell lines from mixed lymphocyte cultures stimulated with autologous Epstein Barr virus- (EBV) transformed lymphoblastoid cell line (LCL) cells were established using a limiting dilution technique in the presence of T cell growth factor (TCGF). The T cell lines included two distinct clones of cytotoxic T cells (Tc) in addition to EBV-specific Tc. A cytotoxic profile of one cloned line was similar to that of endogenous NK cells in peripheral blood. The other cloned Tc line showed an anti-human cytotoxicity. The susceptible targets for this latter Tc line were various human cells, including autologous LCL and peripheral blood lymphocytes (PBL), stimulated with pokeweed mitogen, along with NK-sensitive and NK-resistant cell lines. Weak cytotoxic activity was detected against various xenogeneic cell lines. Furthermore, autologous and allogeneic cloned T cell lines were resistant to killing by the anti-human effector clone. These t wo distinct cloned Tc lines expressed the Leu-1 and Leu-2a antigens, which are markers of suppressor/cytotoxic T cells.     

Assessment of the number of local cytotoxic T lymphocytes required for degradation of micrometer-size tumor spheroids

Adoptive immunotherapy with human cytotoxic T lymphocytes (CTL) is a promising cancer treatment. Previously we showed that human CTLs against various types of tumors can be efficiently produced by coculturing peripheral blood cells with target cells. The aims of this study were to simulate the interaction of CTLs and micrometer-size tumor tissues in vitro and to assess the required number of CTLs at local tumor sites for degradation of a tumor. Allogeneic CTLs against a human transitional cell carcinoma cell line and autologous CTLs against a renal cell carcinoma cell derived from a surgical specimen were generated. The cytotoxic activities of CTLs against tumor cells in monolayer culture and tumor spheroids formed in U-bottom 96-well culture plates were assessed. Both allogeneic and autologous CTLs showed greater destructive activity than lymphokine activated killer (LAK) cells against target tumor spheroids. CTLs inoculated at E/T ratios of 0.1 to 1 coexisted with the tumor spheroid for 5 to 6 days and then increased in number with apparently lethal activity against the tumor spheroid. In contrast to CTLs, the increase in LAK cell numbers was scarcely observed, and the proliferated LAK cells did not show cytotoxicity against the tumor spheroid. These observations suggest that, when a small number of CTLs reach a local tumor site, they can destroy micrometer-size tumors after considerable local proliferation. This revised version was published online in August 2006 with corrections to the Cover Date.     

Induction of large granular lymphocyte morphology in human peripheral blood mononuclear cells

The transformation of human agranular blood lymphocytes into large granular lymphocytes (LGL) was studied. On the average, 2.8% of peripheral blood lymphocytes differentiate in less than 24 hr into LGL when cultured with autologous plastic-adherent monocytes and the Burkitt's lymphoma cell line Raji. The LGL precursors were intermediate-density lymphoid cells that were heterogenous for T3, T8, and Leu-7 antigens, negative for T4 and Leu-11, and positive for NK-9. During the transformation, frequency of Leu-11-positive cells increased and the cytotoxic activity was augmented. In single cell cytotoxicity experiments, the number of binding cells increased, whereas the number of killer cells among the binding cells remained unaltered. The transformation inducing factor was detectable in coculture supernatants of Raji and monocytes or Raji and the myeloid cell line ML-2. Analyses of the Raji-ML-2 coculture supernatants with reverse phase and gel filtration high-pressure liquid chromatography indicated that the factor is a heat- and trypsin-sensitive hydrophilic molecule with an apparent m.w. of 1000.     

Bone marrow progenitor cells induce a regulatory autologous proliferative T lymphocyte response

The proliferative response of human T lymphocytes to autologous bone marrow progenitor cells was studied by in vitro coculture in autologous serum. Irradiated enriched bone marrow progenitor cells induced the proliferation of cocultured peripheral blood T cells, with maximal proliferation at 8 days and stimulator:proliferator ratios of 1/1. This autologous proliferative T lymphocyte response was completely abrogated by the inclusion of anti-HLA-DR, anti-CD2, or anti LFA-3 antibodies into the coculture, and partially inhibited by anti-CD4. Repetitive stimulation with autologous progenitors at days 14 and 28 expanded and further enriched the autoreactive T cells, which proliferated specifically in the presence of autologous progenitors. When incubated for 12 h with bone marrow before short term hematopoietic culture, these autoreactive T cells inhibited hematopoiesis 60 to 100%. These data indicate that a subset of T lymphocytes recognize proliferating hematopoietic progenitors and regulate the growth and differentiation of normal bone marrow cells.     

Contrasting effects of T cell growth factors on T cell responses to melanoma in vitro

 Determinants of T cell responses to tumor cells remain largely unknown. In the present study we have used long-term cultures of human melanoma cells and autologous peripheral blood lymphocytes to examine the influence of cytokines with T cell growth activity on the phenotype and cytotoxic and proliferative response of T cells to melanoma. It was found that addition of interleukin-4 (IL-4) inhibited the response of CD8⁺ T cells and promoted the response of the CD4 subset. IL-2 or IL-7 was effective in increasing melanoma-specific cytotoxic T lymphocyte (CTL) activity in cultures where CD8 T cells were predominant, whereas IL-4 followed by IL-2 was most effective in cultures where CD4 T cells predominated. IL-10 or IL-12 inhibited proliferation and CTL activity against melanoma in long-term cultures. The effects of IL-12 were reproduced in long-term cultures of T cells stimulated with mAb against CD3 and were shown to depend on prior exposure of T cells to IL-12 before IL-2. As yet unidentified factors, such as co-factor expression on melanoma, appear to be as important as exogenous cytokines in determining the nature of T cell responses to melanoma. These results suggest that analysis of responses in long-term culture may assist in defining the role of key cytokines and other determinants of immune responses to melanoma. Received: 4 June 1996 / Accepted: 12 November 1996     

Simian virus 40 large-T-antigen-specific rejection of mKSA tumor cells in BALB/c mice is critically dependent on both strictly tumor-associated, tumor-specific CD8(+) cytotoxic T lymphocytes and CD4(+) T helper cells

Protective immunity of BALB/c mice immunized with simian virus 40 (SV40) large T antigen (TAg) against SV40-transformed, TAg-expressing mKSA tumor cells is critically dependent on both CD8(+) and CD4(+) T lymphocytes. By depleting mice of T-cell subsets at different times before and after tumor challenge, we found that at all times, CD4(+) and CD8(+) cells both were equally important in establishing and maintaining a protective immune response. CD4(+) cells do not contribute to tumor eradication by directly lysing mKSA cells. However, CD4(+) lymphocytes provide help to CD8(+) cells to proliferate and to mature into fully active cytotoxic T lymphocytes (CTL). Depletion of CD4(+) cells by a single injection of CD4-specific monoclonal antibody at any time from directly before injection of the vaccinating antigen to up to 7 days after tumor challenge inhibited the generation of cytolytic CD8(+) lymphocytes. T helper cells in this system secrete the typical Th-1 cytokines interleukin 2 (IL-2) and gamma interferon. Because in this system TAg-specific CD8(+) cells secrete only minute amounts of IL-2, it appears that T helper cells provide these cytokines for CD8(+) T cells. Moreover, this helper effect of CD4(+) T cells in mKSA tumor rejection in BALB/c mice does not simply improve the activity of TAg-specific CD8(+) CTL but actually enables them to mature into cytolytic effector cells. Beyond this activity, the presence of T helper cells is necessary even in the late phase of tumor cell rejection in order to maintain protective immunity. However, despite the support of CD4(+) T helper cells, the tumor-specific CTL response is so weak that only at the site of tumor cell inoculation and not in the spleen or in the regional lymph nodes can TAg-specific CTL be detected.     

Identification of profound peripheral T lymphocyte immunodeficiencies in the spontaneously diabetic BB rat

The BB rat is presently the best available animal model for human insulin dependent diabetes (IDD). Because of the extreme susceptibility of the strain to opportunistic infections and because current studies suggest that they have an autoimmune diathesis, of which IDD is but one result, aspects of the immune system of the BB rat were studied. Severe T lymphopenia was observed in all BB rats, irrespective of sex or the presence of IDD, while numbers of B cells and serum immunoglobulin levels were normal. Both the helper T lymphocyte and cytotoxic/suppressor T lymphocyte subsets, defined by reactions with monoclonal antibodies, were depressed, and an inversion of the helper T cell subset to cytotoxic/suppressor T lymphocyte subset ratio occurred in all BB rats with increasing maturity. Concomitantly, severe impairments of T cell-mediated immune responses were noted. BB rats poorly rejected allografts across both major and minor histocompatibility barriers, and BB splenic or peripheral blood lymphocytes had markedly defective proliferative responses to mitogens and to allogeneic cells in MLC. Irradiated and nonirradiated BB spleen cells did not inhibit WF mitogenic or MLC responses, which suggests that the T cell defect in BB rats is not solely due to increased suppressor activity. Because irradiated WF cells and Con A supernatants did not restore BB proliferative responses, and BB lymphocytes were able to produce IL-2 normally, a reduced ability of BB lymphocytes to respond to helper factors such as IL-2 is suggested. In contrast to T lymphocytes from spleen or peripheral blood, BB thymocytes responded as well as did WF thymocytes to Con A or Con A supernatants. Percentages of T lymphocyte subsets and histology of BB thymuses were also normal when compared to WF thymuses. However, spleens and lymph nodes from BB rats were severely depleted of T lymphocytes, and thymocytotoxic autoantibodies were detected in many BB rat sera. The above findings indicate that BB rats have T lymphocyte immunoincompetence, which appears to be a post-thymic or peripherally acquired maturational defect.