Natural killer-like cells produce the cell-directed inhibitor of monocyte leukotaxis, CDI-MLx, in vitro

The leukotactic responsiveness of human peripheral blood monocytes is regulated by the cell-directed inhibitor of monocyte leukotaxis, CDI-MLx. Normal peripheral blood mononuclear cells elaborated CDI-MLx in vitro in response to soluble and cell-associated antigens; concanavalin A and pokeweed mitogen induced production of the inhibitor while phytohemagglutinin and staphylococcal protein A were without effect. By erythrocyte rosetting and immunoadherence, the CDI-producing cell had the phenotype, E-rosette+, OKMI+, and Leu 7+, and thus appeared related to natural killer cells. PBMC and plasma CDI-MLx had similar molecular weights (230,000) and showed similar heterogeneity on chromatofocusing with peaks of activity at pH 5.8 and 5.25. CDI-MLx was immunologically distinct from immunoglobulins, did not inactivate preformed leukotaxins, and was distinct from other lymphokines known to modulate monocyte locomotion.     

In Vitro-Stimulated IL-6 Monocyte Secretion and In Vivo Peripheral Blood T Lymphocyte Activation Uniquely Predicted 15-Year Survival in Patients with Head and Neck Squamous Cell Carcinoma

The study was performed in order to determine whether peripheral blood monocyte in vitro function, and lymphocyte in vivo activation at diagnosis, was associated with HPV tumor infection status and 15-year survival in head and neck squamous cell carcinoma (HNSCC) patients. Sixty-five patients from a consecutive cohort of newly diagnosed HNSCCs, together with 18 control patients, were included in the study. Monocyte responsiveness was assessed by measuring monocyte in vitro interleukin (IL)-6 secretions after 24 hours of LPS stimulation in cultures with a serum-free medium. T lymphocyte activation was determined as the fraction of CD71-positive cells on CD3-positive cells by flow cytometry, whereas HPV infection was determined by PCR on formalin-fixed paraffin-embedded (FFPE) tumor tissue. Disease-specific survivals and overall survivals were determined 15 years following inclusion. HPV-positive HNSCC patients had a lower monocyte LPS-stimulated IL-6 response. A high LPS-stimulated monocyte IL-6 response predicted a decreased survival rate (P=0.019). A high percentage of CD71-positive T lymphocytes also predicted an impaired prognosis (P=0.021). The predictive power of IL-6 monocyte LPS-stimulated responses was retained when adjusted for age, gender and TNM stage of the patients. The monocyte and T lymphocyte survival predictions were independent of each other. The survival was particularly low with a combined high activated monocyte and T lymphocyte status. In a multivariate analysis, IL-6 secretion and the percentage of CD71-positive T lymphocytes both uniquely predicted survival independent of HPV infection status. It is postulated that the natural and adaptive immune systems are separately and additionally linked to the clinical aggressiveness of HNSCCs.     

Intact B-cell activity is essential for complete expression of experimental allergic encephalomyelitis in Lewis rats

The mechanisms of the inhibitory effect of the serum thymic factor (FTS) on allograft immunity have been studied on both cellular and humoral immune responses of skin allografted mice. FTS-induced suppression of allogeneic skin graft rejection was correlated with a transient diminution of in vivo alloreactive CTL production in the spleen, whereas the generation of allo-anti-H-2 antibodies was not affected. The involvement of suppressor cells in the effect of FTS was supported by the observation that irradiated spleen cells from FTS-treated recipients (bearing a 9-day allograft) suppressed the in vitro CTL generation.     

Influenza-induced depression of monocyte chemotaxis: Reversal by levamisole

Depression of monocyte chemotactic responsiveness that occurs in patients with acute influenza may be a factor in causing the high incidence of superinfection seen in this viral disease. Levamisole, a pharmacological agent capable of enhancing monocyte chemotaxis, was effective in counteracting the depression of chemotaxis produced by incubating normal monocytes with influenza in vitro. The drug, moreover, enhanced the subnormal in vitro chemotactic responses of monocytes from patients with serologically proven acute influenza. These studies suggest that levamisole may be useful in enhancing depressed cellular immune function in patients with acute influenza.     

Inhibition of NF-kappaB-dependent T cell activation abrogates acute allograft rejection.

Using a heterotopic model of transplantation, we investigated the role of T cell activation in vivo during allograft rejection in I-kappaB(DeltaN)-transgenic mice that express a transdominant inhibitor of NF-kappaB in T cells. Our results show indefinite prolongation of graft survival in the I-kappaB(DeltaN)-transgenic recipients. Interestingly, at the time of rejection of grafts in wild-type recipients, histology of grafts in the I-kappaB(DeltaN)-transgenic recipients showed moderate rejection; nevertheless, grafts in the I-kappaB(DeltaN) recipients survived >100 days. Analysis of acute phase cytokines, chemokine, chemokine receptors, and immune responses shows that the blockade of NF-kappaB activation in T cells inhibits up-regulation of many of these parameters. Interestingly, our data also suggest that the T cell component of the immune response exerted positive feedback regulation on the expression of multiple chemokines that are produced predominantly by non-T cells. In conclusion, our studies indicate NF-kappaB activation in T cells is necessary for acute allograft rejection.     

Pre-Transplant Donor-Specific T-Cell Alloreactivity Is Strongly Associated with Early Acute Cellular Rejection in Kidney Transplant Recipients Not Receiving T-Cell Depleting Induction Therapy

Preformed T-cell immune-sensitization should most likely impact allograft outcome during the initial period after kidney transplantation, since donor-specific memory T-cells may rapidly recognize alloantigens and activate the effector immune response, which leads to allograft rejection. However, the precise time-frame in which acute rejection is fundamentally triggered by preformed donor-specific memory T cells rather than by de novo activated naïve T cells is still to be established. Here, preformed donor-specific alloreactive T-cell responses were evaluated using the IFN-γ ELISPOT assay in a large consecutive cohort of kidney transplant patients (n = 90), to assess the main clinical variables associated with cellular sensitization and its predominant time-frame impact on allograft outcome, and was further validated in an independent new set of kidney transplant recipients (n = 67). We found that most highly T-cell sensitized patients were elderly patients with particularly poor HLA class-I matching, without any clinically recognizable sensitizing events. While one-year incidence of all types of biopsy-proven acute rejection did not differ between T-cell alloreactive and non-alloreactive patients, Receiver Operating Characteristic curve analysis indicated the first two months after transplantation as the highest risk time period for acute cellular rejection associated with baseline T-cell sensitization. This effect was particularly evident in young and highly alloreactive individuals that did not receive T-cell depletion immunosuppression. Multivariate analysis confirmed preformed T-cell sensitization as an independent predictor of early acute cellular rejection. In summary, monitoring anti-donor T-cell sensitization before transplantation may help to identify patients at increased risk of acute cellular rejection, particularly in the early phases after kidney transplantation, and thus guide decision-making regarding the use of induction therapy.     

Cytotoxic cells suppress in vitro generation of cellular immunity by stimulator cell lysis

Irradiated BALB/c spleen-cell populations actively cytotoxic to BL/6 alloantigens (modulator cells) were capable of suppression of the in vitro generation of BALB/c anti-BL/6 cellular cytotoxicity. This suppression was abrogated by anti-θ serum plus complement. The suppression was dose dependent on the number of modulator cells and correlated directly with the magnitude of their cytotoxicity. By varying the number of stimulator cells, specific suppression for a relevant stimulator cell and nonspecific suppression for an irrelevant stimulator cell were demonstrated in the same cultures. These data suggest that cytotoxic cells caused specific suppression in mixed lymphocyte culture by lysing stimulator cells although evidence for other nonspecific suppressor factors was seen. A model was proposed suggesting that cell populations possessing high levels of cytotoxicity may feed back negatively on an ongoing immune response by competing with proliferating T cells for cellular antigen.     

Immune cytokine inhibition of beta-adrenergic agonist stimulated cyclic AMP generation in cardiac myocytes

We hypothesize that reversible depression of cardiac function in cardiac allograft rejection and lymphocytic myocarditis reflects down modulation of the beta-adrenergic receptor system by a soluble product of activated immune cells. Thus, exposure of cultured cardiac myocytes to mixed lymphocyte culture or activated splenocyte supernatants produces 70% inhibition of isoproterenol-stimulated cAMP concentrations (Ki = 5% supernatant) in the absence of gross cellular injury or control media effects. This cAMP suppressive factor is not dialyzable and is ammonium sulfate precipitable. Beta-adrenergic receptor density, binding constant and affinity states are unaffected. These results demonstrate the existence of a cytokine inhibitor of cAMP accumulation that may mediate, in part, depression of cardiac contractility observed when immune cells invade the myocardium.     

The peripheral nerve allograft: a dose-response curve in the rat immunosuppressed with cyclosporin A

The potential use of peripheral nerve allografts would significantly improve the reconstructive potential for patients with major peripheral nerve deficits. This study evaluated the response of the nerve allograft recipient treated with varying dosages of cyclosporin A (CsA) to determine the minimal effective dosage necessary to prevent nerve graft rejection. Lewis rats (RT1l) were the recipients of syngeneic nerve grafts from identical Lewis donors or allogeneic nerve grafts from ACI (RT1a) donors. Nerve grafts were inlaid next to the intact sciatic nerve of the recipient. The immunologic responsiveness of the recipient animal's lymphocytes to a donor-specific antigenic challenge was assessed by the mixed lymphocyte reaction (MLR). In addition, nerve grafts were evaluated histologically. Animals were monitored for cyclosporin A toxicity. It was found that cyclosporin A (5 mg/kg per day) was effective in rendering the recipient animals unresponsive by mixed lymphocyte reaction at 10, 20, and 40 days after engraftment. This dosage was similarly effective in preventing histologic changes characteristic of nerve allograft rejection. This dosage regimen was nontoxic to the animals. Our study ascertained a minimal nontoxic dosage of cyclosporin A that effectively prevented nerve allograft rejection across a major histocompatibility disparity in rats.     

Cell-associated immunity to measles (rubeola): The demonstration of in vitro lymphocyte tritiated thymidine incorporation in response to measles complement fixation antigen

Lack of a reliable in vitro assay for lymphocyte responsiveness to measles (rubeola) has hampered our understanding of the cell-associated response in diseases caused by, or related to, the measles virus. We report a reliable and reproducible system for demonstrating specific lymphocyte incorporation of ³H-thymidine in response to measles complement fixation antigen (CFA). Seventeen patients with positive histories of measles as children demonstrated a dose-response curve that varied between individuals but was constant for each individual. Kinetic data disclosed maximal responsiveness on day 7, and viral inactivation experiments disclosed that live virus was neither necessary for nor inhibitory to the reaction. The implications of this assay in terms of our understanding of the cell-associated response to measles virus in clinical measles and SSPE are discussed. The concept is explored that membrane-associated antigen is crucial in demonstrating the host's cellular immune response to viruses that can grow by cell-to-contiguous cell spread.     

Histones-Mediated Lymphocyte Apoptosis during Sepsis Is Dependent on p38 Phosphorylation and Mitochondrial Permeability Transition

Lymphocyte apoptosis is one reason for immunoparalysis seen in sepsis, although the triggers are unknown. We hypothesized that molecules in plasma, which are up-regulated during sepsis, may be responsible for this. In this study, peripheral lymphocyte apoptosis caused by extracellular histones was confirmed both in mouse and human primary lymphocytes, in which histones induced lymphocyte apoptosis dose-dependently and time-dependently. To identify which intracellular signal pathways were activated, phosphorylation of various mitogen-activated protein kinases (MAPKs) were evaluated during this process, and p38 inhibitor (SB203580) was used to confirm the role of p38 in lymphocyte apoptosis induced by histones. To investigate the mitochondrial injury during these processes, we analyzed Bcl2 degradation and Rhodamine 123 to assess mitochondrial-membrane stability, via cyclosporin A as an inhibitor for mitochondrial permeability transition (MPT). Then, caspase 3 activation was also checked by western-blotting. We found that p38 phosphorylation, mitochondrial injury and caspase 3 activation occurred dose-dependently in histones-mediated lymphocyte apoptosis. We also observed that p38 inhibitor SB203580 decreased lymphocyte apoptotic ratio by 49% (P<0.05), and inhibition of MPT protected lymphocytes from apoptosis. Furthermore, to investigate whether histones are responsible for lymphocyte apoptosis, various concentrations of histone H4 neutralization antibodies were co-cultured with human primary lymphocytes and plasma from cecal ligation and puncture (CLP) mice or sham mice. The results showed that H4 neutralization antibody dose-dependently blocked lymphocyte apoptosis caused by septic plasma in vitro. These data demonstrate for the first time that extracellular histones, especially H4, play a vital role in lymphocyte apoptosis during sepsis which is dependent on p38 phosphorylation and mitochondrial permeability transition. Neutralizing H4 can inhibit lymphocyte apoptosis, indicating that it could be a potential target in clinical interventions for sepsis associated immunoparalysis.     

Restoration of allograft responsiveness in B rats: IV. The divergent migratory behavior of lymphocyte populations mediating cardiac allograft rejection

The T lymphocyte-deprived (B) rat, produced by X-radiation and bone marrow reconstitution of adolescent thymectomized animals, exhibits a true immunological deficit and are unable to reject histoincompatible heterotopic cardiac allografts. A comprehensive survey of lymphocyte traffic in B recipients was performed to correlate the differential potency of specifically sensitized lymphocyte populations mediating re-establishment of immune responsiveness toward the graft, with their migratory and recirculatory behavior. ¹¹¹In-oxine-labeled thoracic duct lymphocytes (TDL) were retained in the peripheral blood and migrated from nonlymphoid organs to lymph nodes of B recipients in higher proportion than any other lymphoid population, particularly splenic lymphocytes (SL). Although all cell groups but TDL were sequestered in the spleen in equal and relatively large numbers, no differences were found between the lymphocyte populations tested in their capacity to accumulate in the grafts. In contrast, an increased avidity in the allograft of ¹²⁵IUdR-labeled TDL and lymph node (LNL) lymphoblasts, as compared to ¹²⁵IUdR-labeled SL, resembles closely the results of functional studies of the differential potency of adoptively transferred cells. We assume that specific cellular interactions induced by the accumulated ¹²⁵IUdR-labeled cells invoke nonspecific mechanisms for the recruitment of other uncommitted ¹¹¹Inlabeled lymphocytes which recirculate between blood and lymph and localize indiscriminately in the allograft amplifying its rejection. The latter lymphocytes can be “armed” by adherent cells residing in the lymphoid organs of graft recipients, particularly spleen, and subsequently increase the penetration of the foreign tissue. When radiolabeled lymphocytes were traced in B recipients experiencing rejection of their allografts following transfer of sensitized cells plus lymphokine, their migration patterns as well as blastogenic response in B hosts were similar to those observed during acute rejection of cardiac allografts in unmodified hosts. Thus the similarities between the rejection network brought by alloimmune cells into otherwise unresponsive animals and immunocompetent animals able to reject their grafts are stressed.     

Immunogenetic Profile of the Axolotl: 1977

SYNOPSIS. As with mammals, the ability to test questions ofan immunogenetic nature in the axolotl and other amphibia isgreatly enhanced by the use of defined, inbred genetic lines.These have been developed and at present qualify as partiallyinbred strains; there are 7, with the most highly inbred beingat present at F₁₃. During the development of these strains,several questions have been tested. A question of evolutionaryinterest is whether the amphibia show the equivalent of a majorhistocompatibility complex (MHC). The anurans do but there remainsa question of whether any one histocompatibility locus is predominantin urodeles; suggestive but not definitive data support theidea that one locus may be predominant. Analysis of geneticcontrol of immune responses has been done both in vivo throughallograftings and in vitro through mixed lymphocyte culture(MLC) and through responsiveness to mitogens. The axolotl respondsto MLC with low but statistically significant stimulation indicesand to mitogens in such a way that it is difficult clearly todistinguish between B and T cells. A technique has been developedthat leads to failure of thymus differentiation and this mayhelp to clarify the question of lymphocyte cell types inasmuchas thymectomy greatly reduces allograft rejection and permitsgrowth of an allogeneic lymphosarcoma. Evidence is presentedsuggesting that immune responsiveness is capable of developingat the localized site of immune stimulation rather than requiringmovement to foci such as lymph nodes, which are absent in theaxolotl. Evidence also is presented that the nature of the allograftcan alter the overt expression of the immune response. Lastly,it is shown that while several kinds of neoplasms are seen inolder axolotls, these animals tend to respond to allograft challengemore rapidly and more vigorously and thus, for this age groupat least, seem to be inconsistent with some theories of aging.     

Effects of C-reactive protein on the lymphoid system. II. Inhibition of mixed lymphocyte reactivity and generation of cytotoxic lymphocytes.

C-reactive protein (CRP), an acute phase reactant which increases in concentration during inflammation, has been found to bind to human T cells and to inhibit certain of their functions. In the present study CRP was found to display a binding specificity for theta-bearing cells from mouse peripheral lymphoid tissue but not for thymus cells. CRP inhibited the proliferative response in a similar manner in both murine and human mixed lymphocyte reactions. This inhibition was prevented by the addition of the CRP substrate, pneumococcal C-polysaccharide (CPS), and was not a result of toxicity of CRP for lymphocytes. By contrast the response of spleen lymphocytes to mitogenic Con A concentrations was not altered by CRP. CRP also exerted an inhibitory effect on the in vitro generation of cytolytic T lymphocytes (CL) in mixed lymphocyte reactions of mouse spleen cells. The expression of the cytolytic process by T cells sensitized either in vivo or in mixed lymphocyte cultures was not altered in the presence of CRP. Therefore, CRP appears to influence the inductive phase of the allograft response and perhaps exerts a regulatory effect on cellular immune responsiveness during inflammatory reactions.     

Evaluation of monocyte subsets and markers of activation in leprosy reactions

Understanding host immune pathways associated with tissue damage during reactions are of upmost importance to the development of immune intervention strategies. The participation of monocytes in leprosy reactions was evaluated by determining the frequency of monocyte subsets and the degree of cellular activation through the expression of MHCII and the co-stimulatory molecules CD40, CD80, CD86. Leprosy subjects with or without reactions were included in this cross-sectional study. Peripheral blood mononuclear cell were isolated and stained ex vivo to determine monocyte subsets and the degree of cellular activation by flow cytometry. Intermediate monocytes were increased in leprosy patients with reactions when compared to patients without reactions. Although no difference was detected in the frequency of monocyte subsets between type 1 and 2 reactions, the expression of CD80 was increased in monocytes from patients with type 1 reactions and CD40 was higher in paucibacillary subjects presenting type 1 reactions. Moreover, CD86 and MHC II expression were higher in intermediate monocytes when compared to the other subsets in leprosy reaction types 1 and 2. Intermediate monocyte activation with CD86 and MHCII expression is involved with both type 1 and 2 reactions, whereas CD80 and CD40 expression is related to type 1 reactions.     

EPR detection of heme and nonheme iron-containing protein nitrosylation by nitric oxide during rejection of rat heart allograft.

The paramagnetic molecule nitric oxide (NO), produced from L-arginine by a specific enzyme (NO synthase), has been shown to be involved in a surprising variety of mammalian cellular responses, including the regulation of T cell immunity to alloantigens in vitro. In cytotoxic activated macrophages, NO production results in a characteristic pattern of alteration of iron-containing enzyme function that is mimicked by exposure to NO. Electron paramagnetic resonance (EPR) studies have shown the formation of iron-nitrosyl species during macrophage activation and also during sepsis, indicating that alteration of iron-containing protein function may be the result of the well-documented tendency of NO to bind to metal ions. We have recently shown that the NO synthesis induced during alloantigenic activation of rat splenocytes inhibits lymphocyte proliferation and cytotoxic T-lymphocyte generation. This report demonstrates that iron-nitrosyl EPR signals similar to those observed in macrophages and during sepsis are present in the blood and in the grafted tissue of rats during the rejection of allogeneic (but not syngeneic) heart grafts. These signals are found in the blood and at the site of allograft rejection, but are not found in other tissues (such as spleen and lung), and are obliterated by administration of the immunosuppressant FK506. These results directly demonstrate the formation of iron-nitrosyl complexes during vascularized allograft rejection and suggest that consequent destruction of iron-containing protein function plays an important role in the rejection response.     

Transient Combination Therapy Targeting the Immune Synapse Abrogates T Cell Responses and Prolongs Allograft Survival in Mice

T cells play a major role in allograft rejection, which occurs after T cell activation by the engagement of several functional molecules to form an immune synapse with alloantigen presenting cells. In this study, the immune synapse was targeted using mAbs directed to the TCR beta-chain (TCRβ) and lymphocyte function-associated antigen−1 (LFA1) to induce long-term allograft survival. Evaluation of antigen-specific T cell responses was performed by adoptively transferring CFSE labeled transgenic OT-II cells into wild-type mice and providing OVA peptide by intravenous injection. Graft survival studies were performed in mice by transplanting BALB/c ear skins onto the flanks of C57BL/6 recipients. The anti-TCRβ plus anti-LFA1 mAb combination (but not either mAb alone) abrogated antigen-specific T cell responses invitro and invivo. Transient combination therapy with these agents resulted in significantly prolonged skin allograft survival in mice (51±10 days; p<0.01) when compared to treatment with either anti-TCRβ mAb (24±5 days) or anti-LFA1 mAb (19±3 days) alone or no treatment (10±1 days). When lymphoid tissues from these mice were analyzed at different times post-transplant, only those receiving the combination of anti-TCRβ and anti-LFA1 mAbs demonstrated long-lasting reductions in total T cell numbers, cellular and humoral anti-donor responses, and expression of CD3 on the surface of T cells. These results demonstrate that transient anti-TCRβ and anti-LFA1 mAb combination therapy abrogates antigen-reactive T cell responses with long-lasting effects that significantly prolong allograft survival.     

Cellular immunity in the mouse. I. In vitro lymphocyte reactivity

The mixed lymphocyte culture (MLC) and antigen-mediated proliferative response represent important correlates to the in vivo phenomena of allograft rejection and delayed hypersensitivity. This study defines an in vitro model to measure mouse lymphocyte responsiveness to allogeneic cells, antigen (tuberculoprotein), and nonspecific mitogens. Results describe optimal cells concentration, time and conditions of culture. Optimal conditions include the use of high cell concentration, flat-bottomed vials, RPMI-1640 medium, and fresh human serum. Peripheral blood lymphocytes demonstrated greater proliferation than lymph node lymphocytes, which in turn demonstrated greater activity than splenic lymphocytes. Significant proliferation occurred in serum-free media, dialyzed against fresh serum and supplemented with hydrocortisone and carrier protein. The MLC response in the mouse appears dependent on multiple subpopulations of cells and on soluble substances produced by them.     

Differential role of CCR2 in islet and heart allograft rejection: tissue specificity of chemokine/chemokine receptor function in vivo

Chemokines have a pivotal role in the mobilization and activation of specific leukocyte subsets in acute allograft rejection. However, the role of specific chemokines and chemokine receptors in islet allograft rejection has not been fully elucidated. We now show that islet allograft rejection is associated with a steady increase in intragraft expression of the chemokines CCL8 (monocyte chemoattractant protein-2), CCL9 (monocyte chemoattractant protein-5), CCL5 (RANTES), CXCL-10 (IFN-gamma-inducible protein-10), and CXCL9 (monokine induced by IFN-gamma) and their corresponding chemokine receptors CCR2, CCR5, CCR1, and CXCR3. Because CCR2 was found to be highly induced, we tested the specific role of CCR2 in islet allograft rejection by transplanting fully MHC mismatched islets from BALB/c mice into C57BL/6 wild-type (WT) and CCR2-deficient mice (CCR2-/-). A significant prolongation of islet allograft survival was noted in CCR2-/- recipients, with median survival time of 24 and 12 days for CCR2-/- and WT recipients, respectively (p < 0.0001). This was associated with reduction in the generation of CD8+, but not CD4+ effector alloreactive T cells (CD62L(low)CD44(high)) in CCR2-/- compared with WT recipients. In addition, CCR2-/- recipients had a reduced Th1 and increased Th2 alloresponse in the periphery (by ELISPOT analysis) as well as in the grafts (by RT-PCR). However, these changes were only transient in CCR2-/- recipients that ultimately rejected their grafts. Furthermore, in contrast to the islet transplants, CCR2 deficiency offered only marginal prolongation of heart allograft survival. This study demonstrates the important role for CCR2 in early islet allograft rejection and highlights the tissue specificity of the chemokine/chemokine receptor system in vivo in regulating allograft rejection.     

Alloantigens placed into the anterior chamber of the eye induce specific suppression of delayed-type hypersensitivity but normal cytotoxic T lymphocyte and helper T lymphocyte responses

Intracameral inoculation of allogeneic B16F10 melanoma cells (C57BL/6) into LP/J mice resulted in progressively growing intraocular tumors and impaired delayed-type hypersensitivity (DTH) reactivity. Additional experiments showed that DTH responses were specifically down-regulated by splenic T suppressor cells. By contrast, subcutaneous inoculation of B16F10 melanoma cells induced significant DTH responses to the alloantigens expressed on the tumor cells and stimulated brisk rejection of the subcutaneously injected tumor cells. In spite of the T suppressor cell inhibition of DTH reactivity, significant cytotoxic T lymphocyte activity could be demonstrated in lymphoid cell suspensions from hosts harboring allogeneic intraocular tumors. The demonstrated cytotoxic T lymphocyte activity is particularly noteworthy because it occurs in the face of severely suppressed DTH responsiveness and thus implies that the intracameral presentation of alloantigens evokes a precise immunoregulatory process that selectively and concomitantly modulates specific cellular immune components; one immune process (cytotoxic T lymphocyte function) is stimulated whereas the other (DTH responsiveness) is down-regulated.