Functional activity in vivo of effector T cell populations. II. Anti-tumor activity exhibited by syngeneic anti-MoMULV-specific cytolytic T cell clones

The functional activity in vivo of murine tumor-specific cytolytic T lymphocyte populations and clones was studied. Tumor cell destruction induced after the i.v. injection of cytolytic effector cells was quantitated by monitoring the elimination of 131IUdR-labeled tumor cells in the peritoneal cavity by using whole-body counting techniques. Mixed leukocyte-tumor cell cultures were established by using spleen cells from C57BL/6 regressor mice that had rejected an intramuscular tumor induced by the injection of MSV-MoMuLV virus. This effector cell population was observed to eliminate syngeneic MoMuLV-induced tumor cells in a dose-dependent manner. Treatment of the effector cell population with monoclonal anti-Lyt-2 antibodies plus complement totally abrogated their ability to induce tumor cell destruction in the peritoneal cavity. MSV-MoMuLV-specific Lyt-2+ cytolytic T cell clones derived by micro-manipulation of T lymphocyte-tumor cell conjugates were also tested for functional activity in vivo. Several clones induced a rapid, specific elimination of 131I-labeled MBL-2 tumor cells from the peritoneal cavity after i.v. injection, whereas others were inactive. Both active and inactive clones were highly cytolytic and secreted MAF/IFN-gamma lymphokines. In contrast to previous results obtained in a tumor allograft model, the MSV-MoMuLV-specific cytolytic T cell clones that were active in vivo did not proliferate in vitro in response to stimulation with irradiated tumor cells plus filler spleen cells in the absence of an added source of interleukin 2.     

Interaction of T cells with allogeneic macrophages in mixed leukocyte cultures in rats.

The role of macrophages in rat mixed leukocyte cultures was investigated. Previous studies indicated that macrophages in the responding cells suppressed the proliferative and cytotoxic responses. When, in the present study, macrophages were depleted from the stimulating cells, the proliferative and cytotoxic responses were greatly depressed. Reconstitution of the macrophage-depleted cultures with low concentrations of irradiated peritoneal exudate cells of the stimulator but not the responder haplotype resulted in the generation of strong cytotoxic responses. Further, highly purified stimulator peritoneal macrophage populations induced the generation of strongly cytotoxic effector cells, which suggested that macrophages are the predominant stimulating cells in rat mixed leukocyte cultures.     

Cloned "anomalous" killer cells derived from allogeneic mixed leukocyte culture

In addition to allospecific cytotoxic lymphocytes, cytolytic effector cells capable of killing a broad range of targets are generated during mixed leukocyte culture (MLC). These cells, which have been previously called anomalous killer cells, are a distinct functional subset separate from natural killer cells or allospecific cytotoxic lymphocytes but display many characteristics of lymphokine-activated killers. In order to isolate anomalous killer cells for detailed analysis, we generated the cytolytic effectors from an allogeneic MLC using heat-inactivated stimulators. This treatment of the stimulator population abrogated the generation of classical allospecific cytotoxic lymphocytes but allowed the generation of anomalous killer cells which were subsequently cloned via limiting dilution. The clones derived by this method displayed the functional properties of anomalous killers seen in bulk MLCs. The clones demonstrated potent cytolytic activity against both NK-sensitive and NK-resistant tumor targets in vitro and also suppressed tumor growth in vivo. Ultrastructural studies revealed features similar to those of cloned antigen-specific cytolytic cells and clones with NK-like function. The cells expressed surface glycoproteins associated with both NK and T lymphocytes including Thy-1, Ly-2, T200, Qa-5, asialo GM1, and the antigens defined by the NK alloantisera NK-2.1 and NK-3.1. These cells may play an important role during early phases of the immune response, since cytolytic cells of broad specificity may protect the host until classical cytotoxic lymphocytes with restricted specificity are generated.     

Immunologically specific cytolytic activity induced in long-term mixed leukocyte culture cells by concanavalin A.

Stimulation of cells from long-term primary MLC with Con A resulted in the generation of CTL activity comparable in magnitude to that induced by reexposure of the cells to the original stimulating cellular antigen. CTL generated by stimulation of long-term MLC cells with ConA had lytic activity specific for the original stimulating alloantigen used in primary MLC. The pattern of stimulation of long-term MLC cells with Con A differed from that of restimulation with alloantigen in that there was no detectable CTL activity the first 24 hr after Con A stimulation and the peak lytic activity occurred later. Unlike restimulation with alloantigen early lytic activity after Con A stimulation was dependent on DNA synthesis. PHA also proved to be an effective agent for stimulating cytolytic activity in long-term MLC cells. The response to PHA was comparable in magnitude to that generated by Con A. Stimulation of long-term MLC cells with T cell mitogens gave decreased cell recoveries relative to restimulation with alloantigen, however, the lytic activity per cells recovered was generally greater in the mitogen-stimulated cultures.     

Macrophage activation of allogeneic lymphocyte proliferation in the guinea pig mixed leukocyte culture.

The role of the macrophage in the guinea pig mixed leukocyte culture was investigated. Macrophages obtained from oil-induced peritoneal exudates, peritoneal wash-out cells, spleen, and alveolar washings were found to be effective stimulators of allogeneic lymph node and splenic lymphocyte DNA synthesis. The stimulatory properties of macrophages proved radioresistant but viability dependent. Unfractionated lymph node cells or adherence column purified lymph node lymphocytes and thymocytes were only minimally active as stimulators, even in the presence of macrophages syngeneic to the responder lymphocytes. Allogeneic fibroblasts, polymorphonuclear leukocytes, L2C leukemia cells, and xenogeneic (murine) macrophages failed to simulate. These data provide evidence that the macrophage is the predominant stimulator of the mixed leukocyte culture in the guinea pig.     

Human effector memory CD4+ T cells directly recognize allogeneic endothelial cells in vitro and in vivo

The frequency of circulating alloreactive human memory T cells correlates with allograft rejection. Memory T cells may be divided into effector memory (T(EM)) and central memory (T(CM)) cell subsets, but their specific roles in allograft rejection are unknown. We report that CD4+ T(EM) (CD45RO+ CCR7- CD62L-) can be adoptively transferred readily into C.B-17 SCID/bg mice and mediate the destruction of human endothelial cells (EC) in vascularized human skin grafts allogeneic to the T cell donor. In contrast, CD4+ T(CM) (CD45RO+ CCR7+ CD62L+) are inefficiently transferred and do not mediate EC injury. In vitro, CD4+ T(EM) secrete more IFN-gamma within 48 h in response to allogeneic ECs than do T(CM). In contrast, T(EM) and T(CM) secrete comparable amounts of IFN-gamma in response to allogeneic monocytes (Mo). In the same cultures, both T(EM) and T(CM) produce IL-2 and proliferate in response to IFN-gamma-treated allogeneic human EC or Mo, but T(CM) respond more vigorously in both assays. Blockade of LFA-3 strongly inhibits both IL-2 and IFN-gamma secretion by CD4+ T(EM) cultured with allogeneic EC but only minimally inhibits responses to allogeneic Mo. Blockade of CD80 and CD86 strongly inhibits IL-2 but not IFN-gamma production by in response to allogeneic EC or Mo. Transduction of EC to express B7-2 enhances allogeneic T(EM) production of IL-2 but not IFN-gamma. We conclude that human CD4+ T(EM) directly recognize and respond to allogeneic EC in vitro by secreting IFN-gamma and that this response depends on CD2 but not CD28. Consistent with EC activation of effector functions, human CD4+ T(EM) can mediate allogeneic EC injury in vivo.     

Rapid conversion of effector mechanisms from NK to T cells during virus-induced lysis of allogeneic implants in vivo

Viral infections can strongly stimulate both NK cell and allospecific CD8 T cell responses, and these same effector cells can lyse allogeneic cell lines in vitro. However, the impact of viral infections on the effector systems mediating rejection of allogeneic tissues in vivo has not been fully explored. Using in vivo cytotoxicity assays, we evaluated the effector systems mediating the rejection of CFSE-labeled allogeneic splenocytes after an infection of C57BL/6 (B6) mice with lymphocytic choriomeningitis virus. Naive B6 mice predominantly used a NK cell-effector mechanism to reject allogeneic splenocytes because they rejected BALB/C (H2(d)) splenocytes but not CBA (H2(k)) splenocytes, and the rejection was prevented by immunodepletion of NK1.1(+) or Ly49D(+) NK cells. This rapid and efficient in vivo cytotoxicity assay recapitulated the specificity of NK cell-mediated rejection seen in longer duration in vivo assays. However, as early as 1 day after infection with lymphocytic choriomeningitis virus, a CD8 T cell-dependent mechanism participated in the rejection process and a broader range of tissue haplotypes (e.g., H2(k)) was susceptible. The CD8 T cell-mediated in vivo rejection process was vigorous at a time postinfection (day 3) when NK cell effector functions are peaking, indicating that the effector systems used in vivo differed from those observed with in vitro assays measuring the killing of allogeneic cells. This rapid generation of allospecific CTL activity during a viral infection preceded the peak of viral epitope-specific T cell responses, as detected by in vivo or in vitro cytotoxicity assays.     

Functional dichotomy in CD40 reciprocally regulates effector T cell functions

Activation of T cells requires signals through Ag-specific TCR and costimulatory molecules such as CD40L. Although the use of defined tumor Ags for the induction of protective T cells met with limited success, the CD40-CD40L interaction that was proposed to induce antitumor T cells did not prevent tumor growth completely. Using a model for prostate tumor, a leading cause of tumor-induced mortality in men, we show that the failure is due to a novel functional dichotomy of CD40 whereby it self-limits its antitumor functions by inducing IL-10. IL-10 prevents the CD40-induced CTL and TNF-alpha and IL-12 production, Th1 skewing, and tumor regression. Priming mice with tumor lysate-pulsed IL-10-deficient dendritic cells (DCs) or wild-type DC plus anti-IL-10 Ab establishes antitumor memory T cells that can transfer the protection into syngenic nude mice. Infusion of Ag-pulsed IL-10-deficient but not wild-type DCs back into syngenic mice results in successful therapeutic autovaccination. Thus, we demonstrate the IL-10-sensitive antitumor T cell memory formulating a novel prophylactic and therapeutic principle.     

Effector T cell differentiation in experimental interstitial nephritis. I. The development and modulation of effector lymphocyte maturation by I-J+ regulatory T cells

Because mice susceptible to interstitial nephritis use different effector T cells than nonsusceptible mice, we analyzed the differentiation process of the effector T cell repertoire by using an in vitro culture technique. In the presence of helper T lymphocytes, accessory cells, IL 2, tubular antigen, and precursor effector cells, both Lyt-2+ nephritogenic effector cells and L3T4+ nonnephritogenic effector cells can be initially induced in both susceptible and nonsusceptible strains within 3 days of culture. In nonsusceptible mice, however, the Lyt-2+ nephritogenic cell is inhibited from further development and disappears, whereas in susceptible mice, its presence is preserved with a resulting effect of tissue destruction. This selection of effector T cell preference is regulated by I-J+ T lymphocytes which are co-functionally expressed with effector cell expansion. Unlike precursor effector lymphocytes, however, the maturation of the regulatory process requires a subset of I-J+ accessory cells and structurally intact tubular antigen. Our findings indicate, therefore, that both susceptible and nonsusceptible mice have the potential for the expression of interstitial nephritis, but nonsusceptible mice are formally protected from autoimmunity by the regulation of lymphocyte preference.     

Light scatter analysis and sorting of cells activated in mixed leukocyte culture

Cells activated in unidirectional mixed leukocyte cultures (MLC) have been analyzed on the basis of their light scatter characteristics. C57BL/6 spleen cells were cultured with irradiated (2000 rads) DBA/2 spleen cells for 5 days and the resulting suspension of activated cells was passed on a FACS II flow cytometer. Correlated parameter analysis of forward light scatter (FLS) and perpendicular light scatter (PLS) indicated that the MLC consisted of a heterogenous mixture of viable cells, dead cells, and subcellular debris. However, by appropriate gating of the FLS/PLS distribution, viable cells could be identified as a biphasic FLS histogram. Sorting and morphological analyses of these two FLS peaks demonstrated that they corresponded to almost pure populations of small lymphocytes (lower peak) and lymphoblasts (upper peak), respectively. Furthermore, when sorted cells were tested for their ability to lyse antigenically relevant (DBA/2) tumor target cells in a 51Cr release assay, lymphoblasts were found to exhibit 40-fold greater cytolytic activity (on a per-cell basis) than small lymphocytes.     

Activation of suppressor T cells in human autologous mixed lymphocyte culture.

Co-culture of autologous T and mitomycin-C treated B cells results in increased DNA synthesis in the responding T cells. T cells thus activated in AMLC exerted suppressive effects on both the proliferative and cytotoxic responses of fresh unstimulated T cells to allogeneic cells in MLC. The suppressor cells generated are sensitive to treatment with mitomycin-C. AMLC-activated cells treated with mitomycin-C failed to suppress both cytotoxicity and proliferation in fresh primary MLC. It appears that the AMLC reaction reflects an immunologic homeostatic mechanism. Since this reaction is defective in patients with CLL and SLE and the homologous mouse syngeneic MLC is defective in NZB mice, the failure of this T-B interaction may be related to the pathogenesis of certain lymphoproliferative and autoimmune disorders.     

Effector cell activity in antibody mediated cell dependent immune lysis. II. Evidence for different populations of effector cells for different targets.

Using the adhering property of certain types of cells to glass or plastic in human peripheral blood lymphocyte preparations, two populations of effector cells can be identified in the ABCIL system, each with a selective killing directed toward a different antibody coated target. The adherent cells which are radioresistant functionally, with the morphology of macrophages, exhibit strong cytotoxicity against the antibody-coated erythroid target while lacking any killing effect toward the antibodycoated target lymphocytes. The nonadherent cells which are radiosensitive and with the morphology of small lymphocytes, selectively kill the antibody-coated lymphocyte target without possessing any cytotoxicity against the antibody-coated target erythrocytes.     

Antitumor activity exhibited by Fas ligand (CD95L) overexpressed on lymphoid cells against Fas+ tumor cells

Lymph node (LN) cells of Fas-mutant mice lpr/lpr (lpr) and lpr ^cg /lpr ^cg (lpr ^cg ) express an increased level of Fas ligand (FasL) (CD95L). We examined the antitumor potential of cell-bound FasL on these LN cells against Fas⁺ tumor cells. Fas⁺ F6b and Fas⁻ N1d cells were produced from murine hepatoma MH134 (Fas⁻) by gene transfection. lpr and lpr ^cg LN cells inhibited growth of F6b but not N1d cells in vitro. Neither gld/gld lpr/lpr (gld/lpr) LN cells, which lack both FasL and Fas, nor wild-type LN cells showed growth-inhibitory activities against F6b and N1d cells. The effector cells and molecule were CD4⁻CD8⁻ T cells and FasL, respectively. The tumor neutralization test and adoptive transfer demonstrated that lpr and lpr ^cg , but not gld/lpr, LN cells retarded the growth of F6b cells. Although anti-Fas antibody and FasL cause severe liver failure, wild-type mice injected with lpr LN cells appeared clinically normal. Adoptive transfer of lpr LN cells to F6b-bearing mice exerted the same antitumor activity in wild-type and gld/lpr recipient mice, indicating the applicability of cell-bound FasL for Fas-mediated target therapy of cancer. These results suggest that antitumor activity was dependent on the Fas-FasL system and that lymphoid cells overexpressing FasL can be powerful antitumor effector cells against Fas⁺ tumor cells. Received: 16 March 1998 / Accepted: 28 July 1998     

Enhancement of suboptimal CD8 cytotoxic T cell effector function in vivo using antigen-specific CD80 defective T cells

T cell upregulation of B7 molecules CD80 and CD86 limits T cell expansion in immunodeficient hosts; however, the relative roles of CD80 separate from CD86 on CD4 versus CD8 T cells in a normal immune system are not clear. To address this question, we used the parent-into-F1 (P→F1) murine model of graft-versus-host disease and transferred optimal and suboptimal doses of CD80 and/or CD86 knockout (KO) T cells into normal F1 hosts. Enhanced elimination of host B cells by KO T cells was observed only at suboptimal donor cell doses and was greatest for CD80 KO→F1 mice. Wild-type donor cells exhibited peak CD80 upregulation at day 10; CD80 KO donor cells exhibited greater peak (day 10) donor T cell proliferation and CD8 T cell effector CTL numbers versus wild-type→F1 mice. Fas or programmed cell death-1 upregulation was normal as was homeostatic contraction of CD80 KO donor cells from days 12-14. Mixing studies demonstrated that maximal host cell elimination was seen when both CD4 and CD8 T cells were CD80 deficient. These results indicate an important role for CD80 upregulation on Ag-activated CD4 and CD8 T cells in limiting expansion of CD8 CTL effectors as part of a normal immune response. Our results support further studies of therapeutic targeting of CD80 in conditions characterized by suboptimal CD8 effector responses.     

Functional activity of rat testicular cells in culture

Testicular cells from adult hypophysectomized rats were cultured for 10 or 12 days, and the effect of treatment with hCG (10 ng/ml) on testosterone and progesterone production and the activity of the Leydig cell enzyme, 3 beta-hydroxysteroid dehydrogenase, were studied. Regardless of hormone treatment, on 4th day in culture a decline in the steroidogenic activity of cultured cells could be observed. Treatment with hCG resulted in stimulation of steroidogenesis on days 6 to 10 in culture, as measured by testosterone and progesterone production. Hormone treatment stimulated or inhibited the enzyme activity depending on the presence or absence in the culture medium of 10(-6) M spironolactone, an inhibitor of 17 alpha-hydroxylase, or an anti-androgen, cyproterone acetate.     

Cognate interactions between helper T cells and B cells. IV. Requirements for the expression of effector phase activity by helper T cells.

After activation with anti-CD3, activated Th (THCD3), but not resting Th, fixed with paraformaldehyde induce B cell RNA synthesis when co-cultured with resting B cells. This activity is expressed by Th of both Th1 and Th2 subtypes, as well as a third Th clone that is not classified into either subtype. It is proposed that anti-CD3 activation of Th results in the expression of Th membrane proteins that trigger B cell cycle entry. Kinetic studies reveal that 4 to 8 h of activation with anti-CD3 is sufficient for ThCD3 to express B cell-activating function. However, activation of Th with anti-CD3 for extended periods of time results in reduced Th effector activity. Inhibition of Th RNA synthesis during the anti-CD3 activation period ablates the ability of ThCD3 to induce B cell cycle entry. This indicates that de novo synthesis of proteins is required for ThCD3 to express effector function. The ability of fixed ThCD3 to induce entry of B cell into cycle is not due to an increase in expression of CD3, CD4, LFA-1, ICAM-1, class I MHC or Thy-1. Other forms of Th activation (PMA and A23187, Con A) also induced Th effector function. Furthermore, purified plasma membranes from anti-CD3 activated, but not resting Th, induced resting B cells to enter cycle. The addition of IL-4, but not IL-2, IL-5, or IFN-gamma amplified the DNA synthetic response of B cells stimulated with PM from activated Th. Taken together these data indicate that de novo expression of Th surface proteins on activated Th is required for Th to induce B cell cycle entry into G1 and the addition of IL-4 is required for the heightened progression into S phase.     

Stage-related, cell-mediated cytotoxicity with effector cell analysis and computation of cytotoxic activity of T cells and non-T cells.

Cell-mediated cytotoxicity (CMC) by lymphocytes from patients with oral squamous cell carcinoma, as well as from nonmalignant control donors, was tested by a microcytotoxicity assay against a cultured cell line derived from an oral squamous cell carcinoma. In terms of the degree of CMC, stage-related cytotoxicity was observed. A further study of the effector cell analysis revealed that the cytotoxic effects of lymphocytes from both patients and control donors were largely attributable to non-T cells. However, the effectors were also stage related, and in early stage patients, T-cell-mediated cytotoxicity was super-imposed on non-T-cell-mediated cytotoxicity. This conclusion was further supported by the evidence of elevated cytotoxic activity of T cells in early stage patients, which was computed from simultaneous equations proposed in the present paper for computing the cytotoxic activity of T cells (CTA_T) and non-T cells (CTA_non-T).