Induction of autoreactive CD8+ cytotoxic T cells during Theiler's murine encephalomyelitis virus infection: implications for autoimmunity

Theiler's murine encephalomyelitis virus (TMEV) belongs to the family Picornaviridae and causes demyelinating disease in the spinal cords of infected mice. Although immune responses have been shown to play an important role in demyelination, the precise effector mechanism(s) is unknown. Potentially autoreactive cytotoxic cells could contribute to the destruction. We tested whether an autoreactive cell induced by TMEV infection mediated cytotoxicity by using a 5-h (51)Cr release assay in SJL/J mice. Spleen cells from TMEV-infected mice were stimulated with irradiated TMEV antigen-presenting cells and used as effector cells. The effector cells differed from conventional cytotoxic T cells since these cells could kill both TMEV-infected and uninfected syngeneic or semisyngenic cell lines (PSJLSV and BxSF11gSV) but could not kill an allogeneic cell line (C57SV). The TMEV-induced autoreactive cells were also different from conventional natural killer (NK) cells or lymphokine-activated killer (LAK) cells, because they could kill neither NK cell-sensitive YAC-1 nor NK cell-resistant P815 and EL4 cells. Induction of autoreactive cells was not detected in vaccinia virus infection. The autoreactive killing required direct cell-to-cell contact and was mediated by a Fas-FasL pathway but not by a perforin pathway. The phenotype of the killer cells was CD3(+) CD4(-) CD8(+). Intracerebral inoculation of the effector cells into naive mice caused meningitis and perivascular cuffing not only in the brain parenchyma but also in the spinal cord, with no evidence of viral antigen-positive cells. This is the first report demonstrating that TMEV can induce autoreactive cytotoxic cells that induce central nervous system pathology.     

Growth at limiting dilution of human T cell colonies from T cell-depleted peripheral blood leukocytes

Using a new culture system, we found that up to one-fourth of nylon-wool nonadherent human peripheral blood lymphocytes (NAd) could give rise to a colony containing T cells. Even after NAd cells were depleted of T cells (rosette-forming and/or OKT3+ cells and/or OKT11+ cells), up to one-ninth of cells could still give rise to a colony containing T cells. Colonies were grown in microwell liquid cultures in a vol of 0.02 ml/culture seeded with from 2 to 40 cells. Each cell concentration was set up with 60 or more replicates, and the results were analyzed using limiting dilution theory. Growth had an absolute requirement both for lymphokine(s) present in the supernatant of PHA-stimulated peripheral blood leukocytes and for PHA. A fit to limiting dilution theory could be obtained only when heavily irradiated (3000 rad) peripheral blood leukocytes or NAd cells were also included, 300 cells/well being optimum. The system supported the development of OKT3+ and OKT11+ cells from OKT3-, OKT11-, OKM1-, and OKla1- precursors. All colonies contained some OKT3+ and OKT11+ cells, usually more than half the colony cells carrying the markers. Some colonies also contained OKTM1+ cells and OKla1+ cells at a frequency such that some colony cells must carry more than one marker.     

Expansion of cyclophosphamide-resistant cytotoxic precursors in vitro and in vivo by purified human interleukin 2

Precursors of cytotoxic lymphoid cells obtained from mice treated with cyclophosphamide (CY) can be expanded in culture by alloantigens in the presence of purified human interleukin 2 (IL 2). Similarly, IL 2 delivered in vivo in a rate-controlled manner enhances cytotoxic activity in mice that are immunosuppressed by high doses of CY. The effector cells are Thy-1.2+ and are not elicited in the absence of antigen.     

The role of interleukin 1 and interleukin 2 in human T colony formation

We investigated the roles of interleukin 1 (IL1) and interleukin 2 (IL2) on T colony formation by PHA-stimulated peripheral blood lymphocytes (PBL). Purified T cells stimulated by PHA could not generate T colonies as did PBL. Media conditioned by PHA-stimulated PBL (PHA-LCM) contained IL2 and a T colony-promoting activity (TCPA) which induced T colony formation in PHA-stimulated purified T cells. IL2 and TCPA are coeluted in the same peak of 18,000 molecular weight after gel filtration chromatography. Moreover, TCPA present in the PHA-LCM could be absorbed on IL2-sensitive cells which possessed specific receptors for IL2. These results suggest that TCPA and IL2 are related entities. Monocytes or IL1 (a monokine released by activated monocytes) also induced T colony formation in purified T cells. Phorbol myristate acetate (PMA) could replace monocytes in the induction of T colony. Monocytes, IL1, or PMA are known to be crucial requirements for IL2 production by PHA-stimulated T cells. This combined with the fact that IL2 participates in T colony formation suggests that monocytes induce T colony formation through IL2 production.     

Agar human T cell colony growth promoted by a B + null cell-derived lymphokine distinct from IL 2

Human T cell agar colonies can be grown under PHA stimulation from either mature T cells or their E rosette-negative (E-), OKT3- peripheral blood and bone marrow precursors. Colonies comprise a majority of mature E+, OKT3+ cells and a minor (5 to 10%) population of immature E-, T3-, T8-, T4-, DR+, T10+, RFB1+ cells, which upon replating in subculture, can generate secondary colonies of OKT3+, E+, OKT4+, OKT8+ cells. Secondary colony formation can serve as a test for growth requirement of colony precursors, because it depends on the presence of both PHA and a colony-promoting activity (CPA) recovered in PHA-stimulated B + null or T + adherent cell supernatants. CPA production by B + null cells was not affected by their treatment with OKT3 or D66 (T11-like) monoclonal antibodies (MAB) + complement but was abolished by an anti-HLA-DR MAB + complement. However, B cells sorted by panning with the same anti-HLA-DR MAB did not release CPA, demonstrating the requirement of both B cells and null cells for CPA production. Neither IL 2 nor IL 1 could account for B + null cell-derived CPA.     

Feline cytotoxic immune mechanisms against virus-associated leukemia and fibrosarcoma

Humoral and cellular cytotoxic immune mechanisms of cats were compared against feline leukemia virus (FeLV)- and feline sarcoma virus (FeSV)-transformed cells. The groups of animals studied were nonexposed control cats; FeLV-infected immune or viremic tumor-bearing cats; FeSV-inoculated tumor progressor or regressor cats, and cats immunized with FeSV-transformed autochthonous fibroblasts (ATF). Sera containing complement-dependent antibodies (CDA), which lysed FeLV-producer lymphoma lines, had no cytotoxic effects when tested against FeLV-producer FeSV-transformed fibroblasts. Sera with lytic CDA activity were also tested for antibody-dependent cellular cytotoxic (ADCC) effects with peripheral blood lymphocytes (PBL) from nonimmune cats. No ADCC activity was detected against either lymphoid or fibroblast target lines. To demonstrate that cat PBL contained ADCC effector cells, antibody-coated murine target cells were employed and positive results obtained. Natural killer (NK) assays were performed using PBL from normal and tumor-bearing cats. Cytotoxic effects were only detectable to FeLV-producer lymphomas, and comparable levels of NK activity were found in normal and lymphoid tumor-bearing animals. In cats immunized with ATF, a population of effector cells was found in peripheral blood which had functional characteristics of cytotoxic T lymphocytes (CTL). The killing of ATF by CTL-like cells was not inhibited by FeLV/FeSV immune sera or by sera from autochthonous immune cats. The comparative importance of humoral and cellular cytotoxic mechanisms against FeLV- and FeSV-induced tumors is discussed.     

Active suppression of host-vs-graft reaction in pregnant mice. VI. Soluble suppressor activity obtained from decidua of allopregnant mice blocks the response to IL 2

The mammalian fetus expresses a variety of antigens against which the maternal immune system can react and which in an allogeneic mating bears paternal transplantation antigens. Although these antigens may be expressed on the fetal trophoblast cells that contact maternal uterine decidua, the "fetal allograft" is not usually rejected. Previous studies have demonstrated the presence of nonspecific non-thymus-derived suppressor cells in the lymph nodes draining the uterus and in decidua of laboratory mice undergoing first allogeneic pregnancy. These suppressor cells appeared to be small lymphocyte cells that inhibit the generation of cytotoxic T lymphocytes (CTL) in vitro and in vivo and elaborate a nonspecific non-MHC-restricted soluble suppressor activity when cultured for 48 hours at 37 degrees C in vitro. We now report that soluble suppressor activity obtained from the decidua (DS) of allopregnant C3H/HeJ mice inhibits both the primary and secondary (memory) CTL response in vitro but does not inhibit lysis of target cells by preformed CTL. DS did not suppress the proliferation of YAC lymphoma cells, P-815 cells, or a C3H placental trophoblastoma line. Suppressor activity was obtained from anti-thy-1.2 + complement-resistant cells in the decidua, could also be obtained from the decidua of allopregnant CD1 nu/nu mice, and was associated with a single peak of activity of approximately 100,000 daltons on Sephacryl 200 chromatography. Suppression could not be overcome by adding either crude or HPLC-purified IL 2 to the mixed lymphocyte cultures in vitro, and both crude and column-purified suppressor factor inhibited the IL 2-dependent proliferation of H-Y cells (a cloned T cell line with NK activity). Furthermore, DS inhibited the IL 2-dependent generation of cytotoxic effector cells in vitro in the absence of allogeneic stimulator cells. Thus, a soluble suppressor factor obtained from non-T cells present in the decidua of successfully allopregnant mice could block the response to IL 2 and inhibit the generation of both specific and nonspecific cytotoxic effector cells. The significance of this inhibition with respect to survival of the "fetal allograft" is discussed.     

Characterization of cytotoxic cells generated from bone marrow culture

Bone marrow (BM) harbors precursors (Pre-NK) to NK cells. Recently, we devised an in vitro culture system that induces differentiation of the presumptive BM Pre-NK cells into cytotoxic cells to YAC in the presence of rat concanavalin A (Con A) conditioned medium. We have now analyzed the antigenic phenotype of the effector cells, precursor cells, and the target specificity of these cytotoxic cells. The cytotoxic cells had antigenic profiles similar to endogenous NK cells with the exception of Lyt-2 antigen. They are strongly positive for Qa-5, Thy-1, and partially positive for NK-1, Ly-5, Ly-6, Ly-10, and AsGm-1 and Lyt-2 antigens. The Pre-NK or accessory cells are positive for Qa-5, Ly-10, and Ly-20 and partially positive for NK-1, Thy-1, and AsGm-1 antigens. These Qa-5+ NK cells do not exhibit cytotoxic activity to WEHI or P815. They could also be generated from BM of nude mice as well as beige mice. We concluded from these studies that rat Con A-conditioned medium contained factors that could differentiate Pre-NK cells to mature NK cells and that these cells are heterogeneous. This in vitro culture system is useful in delineating the ontogeny of NK cells.     

Anti-recipient cytotoxic T lymphocyte precursors are present in the spleens of mice with acute graft versus host disease due to minor histocompatibility antigens

A model for bone marrow transplantation across minor histocompatibility barriers was developed by using mouse strains that were H-2 identical and mutually non-reactive in MLC. Acute graft-vs-host disease was induced only when donor lymphoid cells were included in the marrow inoculum, in both C57BL/6 recipients of LP cells and BALB/c recipients of B10.D2/nSN cells. GVHD was prevented by treating the lymphoid cells with anti-Thy 1.2 and C before transplantation. Spleen cells from mice with acute GVHD were not directly cytotoxic to recipient strain target cells. However, when spleen cells from mice with GVHD were boosted in vitro to recipient strain stimulator cells they generated a specific anti-recipient cytotoxic response. Spleen cells from mice without GVHD did not generate a cytotoxic response in vitro. The cytotoxic effector cells and their precursors were shown to be T lymphocytes. This model and the in vitro method described may be useful in further studies of the immunobiology of GVHD due to minor histocompatibility antigens and of transplantation tolerance.     

Effect of concanavalin A treatment on the allogeneic response of mice to challenge with P 815 mastocytoma: interleukin 2 treatment reverses concanavalin A suppression in vivo

Mice injected repeatedly with concanavalin A (Con A) prior to and following challenge with P 815 mastocytoma are suppressed in their cell-mediated cytotoxicity responses. Earlier studies showed that pretreatment of the animals with silica to affect macrophage (M phi) functions reversed the Con A suppression. In the present paper we have shown that peritoneal exudate cells (PEC) induced/activated by ip injection of Con A were able to transfer suppression to normal mice. Separation of the PEC populations into adherent and nonadherent cells abrogated their capacity to transfer suppression. It was further shown that Con A is not functioning in this in vivo system to block effector activity of cytotoxic cells on target cells, and PEC induced with Con A were not directly cytotoxic to target P 815 cells. Finally, we were able to show that the cytotoxicity response of Con A-suppressed mice could be enhanced by treatment with concentrated culture supernatants of normal mouse spleen cells, rich in interleukin 2 (IL 2) activity. Attempts to detect a recently described mouse serum inhibitor of IL 2 in normal or Con A-treated mice were unsuccessful and spleen cells from Con A-treated mice lost their capacity to generate IL 2 in vitro when cultured under appropriate conditions. Taken together, these results suggest that suppression of cell-mediated immune responses in Con A-treated mice results from interruption of the normal generation of IL 2 helper effects necessary for the activation of cytotoxic effector T cells in vivo.     

Independent analysis of T helper and T killer cell function in young and old NZB mice.

With age, NZB mice lose their ability to develop a cytotoxic response after alloimmunization in vitro. This decline is shown to coincide with a diminution of T-helper cell activity as assessed by proliferation in mixed lymphocyte culture or in response to PHA. When cytotoxic T cell precursors are activated with the polyclonal activator Con A, there is no reduction in the number of cytotoxic effector T cells that develop. No autoreactive cytotoxic cells are seen in Con A-activated cultures. These findings are related to previous work on cell-mediated immunity in NZB and B/W mice.     

Autoreactive memory CD4+ T lymphocytes that mediate chronic uveitis reside in the bone marrow through STAT3-dependent mechanisms

Organ-specific autoimmune diseases are usually characterized by repeated cycles of remission and recurrent inflammation. However, where the autoreactive memory T cells reside in between episodes of recurrent inflammation is largely unknown. In this study, we have established a mouse model of chronic uveitis characterized by progressive photoreceptor cell loss, retinal degeneration, focal retinitis, retinal vasculitis, multifocal choroiditis, and choroidal neovascularization, providing for the first time to our knowledge a useful model for studying long-term pathological consequences of chronic inflammation of the neuroretina. We show that several months after inception of acute uveitis, autoreactive memory T cells specific to retinal autoantigen, interphotoreceptor retinoid-binding protein (IRBP), relocated to bone marrow (BM). The IRBP-specific memory T cells (IL-7Rα(High)Ly6C(High)CD4(+)) resided in BM in resting state but upon restimulation converted to IL-17/IFN-γ-expressing effectors (IL-7Rα(Low)Ly6C(Low)CD4(+)) that mediated uveitis. We further show that T cells from STAT3-deficient (CD4-STAT3KO) mice are defective in α4β1 and osteopontin expression, defects that correlated with inability of IRBP-specific memory CD4-STAT3KO T cells to traffic into BM. We adoptively transferred uveitis to naive mice using BM cells from wild-type mice with chronic uveitis but not BM cells from CD4-STAT3KO, providing direct evidence that memory T cells that mediate uveitis reside in BM and that STAT3-dependent mechanism may be required for migration into and retention of memory T cells in BM. Identifying BM as a survival niche for T cells that cause uveitis suggests that BM stromal cells that provide survival signals to autoreactive memory T cells and STAT3-dependent mechanisms that mediate their relocation into BM are attractive therapeutic targets that can be exploited to selectively deplete memory T cells that drive chronic inflammation.     

Comparative analysis of splenic cell proliferation induced by interleukin 3 and by syngeneic accessory cells (syngeneic mixed leukocyte reaction): evidence that autoreactive T-cell functioning instructs hematopoietic phenomena

Murine syngeneic mixed leukocyte reaction (SMLR) was studied under totally autologous culture conditions using syngeneic normal mouse serum in the culture. SMLR was detected in splenic, but not in lymph node, nonadherent responding cell populations (NWNAC). In the absence of stimulator, accessory cells (AC), IL3-containing fluids also induced splenic, but not lymph node, NWNAC growth. SMLR-derived supernatants contained IL3, but not IL2, activity, and production of this IL3 activity could be prevented by adding anti-CD4 mAbs to SMLR cultures. Precursor frequencies of both SMLR and IL3 splenic responses were very low and similar, and there was a synergism between IL3 and AC in induction of NWNAC growth. Growth of responding NWNAC was further enhanced by T-cell depletion with anti-Thy1 mAb and complement. Lack of T-cell proliferation in the SMLR was confirmed by BUdR and light protection experiments. Autoradiographs indicated that the same cell type grew in both SMLR and IL3-induced NWNAC cultures. Besides blast cells, cells with the appearance of immature monocytes with 3H-labeled nuclei were found in both kinds of culture. No labeled lymphocytes could be found. Both SMLR and IL3-induced NWNAC cultures contained expanded numbers of M-CSF-responsive monocyte precursors. On the other hand, SMLR- but not IL3-induced cultures contained expanded numbers of IL3-responsive, immature precursors capable of giving rise to large colonies of monocytic-like cells. Although IL2 could not be detected in SMLR supernatants, both cell growth and IL3 production could be blocked with anti-IL2 receptor and anti-IL2 mAbs. Exogenous IL2, on the other hand, enhanced both cell growth and IL3 production in the SMLR. These results indicate that, under totally autologous conditions, CD4+ autoreactive T-cells do not proliferate in the SMLR, but rather instruct the growth of splenic hematopoietic precursors capable of differentiating along the monocytic lineage. Autoreactive T-cell activation in the SMLR seems to involve minimal IL2 production, which is critically necessary for triggering IL3 production in a markedly amplified manner. These results suggest a link between normal regulation of hematopoiesis and MHC-restricted, autoreactive T-cell activation.     

Evidence for the existence of distinct heterogeneity among the peripheral CD4-CD8- T cells from MRL-lpr/lpr mice based on the expression of the J11d marker, activation requirements, and functional properties

Autoimmune-susceptible, MRL-lpr/lpr (lpr) mice develop a profound lymphadenopathy resulting from the accumulation of CD4-CD8- (double-negative, DN) cells in peripheral lymphoid organs. The source and the mechanism of this abnormal accumulation of cells is still unknown. Recently, we reported that a significant number (approximately 35%) of the CD4-CD8- cells expressed J11d, a marker expressed by immature thymocytes but not by mature functional peripheral T cells. In the present study, we investigated the phenotype, growth requirements, and functional properties of purified J11d+ and J11d- subpopulations. Using the mAb, F23.1, which recognizes a TCR determinant encoded by the V beta 8 gene family, it was observed that approximately 30% of the J11d+ and J11d- DN cells expressed this determinant. Further studies on the thymus revealed that J11d+ DN cells from lpr thymus also contained F23.1+ cells (approximately 25%), whereas, similar cells from normal MRL(-)+/+mice were all F23.1-, consistent with earlier reports in other normal strains. Further phenotypic studies revealed that the peripheral J11d+ and J11d- cells from lpr mice were similar in expressing CD3, Ly-5 (B220), and Ly-24 (Pgp-1) determinants. When stimulated with phorbol myristic acetate (PMA) and recombinant IL-2 (rIL-2), only J11d- cells but not J11d+ cells responded by proliferation. However, in the presence of calcium ionophore (A23187) and PMA, both J11d+ and J11d- subpopulations proliferated by producing and responding to endogenous IL-2 but not IL-4. The lymph node T cells from 1-month-old MRL-lpr/lpr mice responded strongly when stimulated with PMA + rIL-4 or PMA + rIL-6. In contrast both J11d+ and J11d- subpopulations failed to respond when similarly stimulated. The J11d+ but not J11d- cells demonstrated spontaneous cytotoxic activity against the NK-sensitive YAC-1 tumor targets. The J11d- cells did not exhibit cytotoxic potential in spite of culture with PMA + rIL-2. Even after repeated culture in vitro with PMA + A23187 or PMA + rIL-2, both J11d+ and J11d- subpopulations failed to express the mature phenotype bearing CD4 and/or CD8 antigens. The present study demonstrates the expansion of unique J11d+, alpha beta-TCR+, DN T cells with cytotoxic potential in lpr mice and further suggests the existence of phenotypic and functional heterogeneity among the abnormal lpr DN cells.     

Autoimmune myocarditis does not require B cells for antigen presentation.

T cells constitute the pathogenic effector cell population in autoimmune myocarditis in BALB/c mice. Using mice rendered deficient for B cells by a targeted disruption to the IgM transmembrane domain or by treatment with anti-IgM Ab from birth, we asked whether B cells are a critical APC in the induction of autoimmune myocarditis. B cell-deficient mice immunized with cardiac myosin develop myocarditis comparable in incidence and severity to that in wild-type mice, suggesting that autoreactive T cells that cause myocarditis in BALB/c mice are activated by macrophages or dendritic cells. Since it does not appear that presentation of cryptic epitopes is critical for the breakdown of self tolerance, potentially pathogenic T cells recognizing dominant myosin epitopes must have escaped tolerization. Either anatomic sequestration of cardiac myosin peptide-MHC complexes or subthreshold presentation of cardiac myosin peptides by conventional APC can explain the survival of these autoreactive T cells.     

The aged nonhematopoietic environment impairs natural killer cell maturation and function

Natural killer (NK) cells are critical in eliminating tumors and viral infections, both of which occur at a high incidence in the elderly. Previous studies showed that aged NK cells are less cytotoxic and exhibit impaired maturation compared to young NK cells. We evaluated whether extrinsic or intrinsic factors were responsible for the impaired maturation and function of NK cells in aging and whether impaired maturation correlated with functional hyporesponsiveness. We confirmed that aged mice have a significant decrease in the frequency of mature NK cells in all lymphoid organs. Impaired NK cell maturation in aged mice correlated with a reduced capacity to eliminate allogeneic and B16 tumor targets in vivo. This could be explained by impaired degranulation, particularly by mature NK cells of aged mice. Consistent with impaired aged NK cell maturation, expression of T‐bet and Eomes, which regulate NK cell functional maturation, was significantly decreased in aged bone marrow (BM) NK cells. Mixed BM chimeras revealed that the nonhematopoietic environment was a key determinant of NK cell maturation and T‐bet and Eomes expression. In mixed BM chimeras, NK cells derived from both young or aged BM cells adopted an ‘aged’ phenotype in an aged host, that is, were hyporesponsive to stimuli in vitro, while adopting a ‘young’ phenotype following transfer in young hosts. Overall, our data suggest that the aged nonhematopoietic environment is responsible for the impaired maturation and function of NK cells. Defining these nonhematopoietic factors could have important implications for improving NK cell function in the elderly.     

Adoptive immunotherapy of a newly induced sarcoma: immunologic characteristics of effector cells

A newly induced syngeneic transplantable sarcoma, MCA 105, was used for studies of the biologic characteristics of fresh noncultured and secondarily in vitro sensitized (IVS) cells with antitumor reactivity. Fresh spleen cells harvested from mice immunized to the MCA 105 tumor by a mixture of viable tumor cells and Corynebacterium parvum exhibited no detectable cytotoxic activity to MCA 105 tumor targets in a 4-hr chromium-release assay, and adoptive transfer of these cells mediated the specific regression of established MCA 105 tumors. Phenotypic analysis of fresh, noncultured immune cells revealed that the therapeutically effective cells expressed both the Lyt-1 and the Lyt-2 T cell differentiation antigens. The therapeutic efficacy of fresh noncultured immune cells was not augmented by the concomitant administration of exogeneous interleukin 2 (IL 2). Secondary IVS of fresh immune cells with irradiated MCA 105 tumor stimulator cells resulted in the generation of tumor-specific cytotoxic effector cells. The generation of cytotoxic effector cells required Lyt-1+, 2+ cytotoxic precursor cells. Effective adoptive immunotherapy with these IVS immune cells, unlike fresh noncultured immune cells, depended on the concomitant administration of IL 2. Furthermore, the generation of therapeutically effective cells did not require the specific stimulation by MCA 105 tumor cells, because cultures of MCA 105 immune spleen cells with FBL-3 lymphoma cells in vitro also contained in vivo functional immune effector cells. These cells, however, possessed no detectable MCA 105 cytotoxic activity in vitro. Although this observation suggests that a noncytotoxic cell population is sufficient to initiate tumor regression in vivo, it does not exclude the possibility that cytolytic cells are generated in vivo after adoptive transfer of these cells. As a whole, our results indicate that secondary IVS functional immune effector cells are characteristically distinct from freshly harvested immune cells.     

Defective T helper activity in the spleen of BALB/c mice immune to a syngeneic fibrosarcoma

Summary BALB/c mice were immunized with the syngeneic 3-methylcholanthrene-induced fibrosarcoma CA-2 by the growth and excision method. When lymphoid cells from different organs of these tumor-free mice were tested in a direct ⁵¹Cr-release assay, peritoneal exudate cells but not spleen cells displayed specific cytotoxicity against the syngeneic tumor target. A cytotoxic response could be obtained by tumor-immune spleen cells when cultured in a mixed lymphocyte tumor cell culture (MLTC) at high but not low density although at the same effector/stimulator ratio. Lack of cytotoxic activity in low density MLTC was not due to an impairment of cytotoxic precursors since cytotoxicity was rescued by adding exogenous interleukin-2 in experimental conditions in which no lymphokine-activated killer cells could develop relevant anti-CA-2 lysis. When low density MLTC were supplemented with either 800 R-irradiated cells or nonirradiated, negatively selected Lyt 1⁺ cells from the same immune mice, induction of a cytotoxic response against CA-2 occurred and interleukin-2 production became detectable. Additional studies indicated that spleen cells of CA-2-immune mice were also impaired in their ability to provide help to syngeneic thymocytes for the generation of cytotoxic T lymphocytes against C57BL/6J alloantigens. Dilution effect of helper cells due to immunization procedures was excluded since spleen cells of mice immunized against another BALB/c tumor, the YC8 lymphoma, or against DBA/2 minor histocompatibility antigens provided good help to thymocytes against the same alloantigens. These results indicate that tumor-immune animals may also have selective T helper defects in an important lymphoid organ like spleen.     

Protection of mice from herpes simplex virus-induced retinitis by in vitro-activated immune cells.

A form of acute retinal necrosis occurred in the contralateral eyes of susceptible mice 1 week after each received a uniocular injection of live herpes simplex virus type 1 (HSV-1) in the anterior chamber. Although these mice did not develop systemic delayed hypersensitivity to virus antigens, their sera contained virus-specific antibodies at the time contralateral retinitis occurred. These findings suggest that systemic immunity might not be able to protect against contralateral retinitis. To explore this possibility further, we examined lymph nodes and spleens of intraocularly infected mice to determine whether their lymphoid tissues contained primed HSV-1-specific cytotoxic T cells. Virus-specific cytotoxic T cells were readily identified in these mice. We wondered why successful immune priming did not confer protection against HSV-1 retinitis. We examined this issue by evaluating the capacity of in vitro-generated, HSV-1-specific effector T cells to prevent retinitis by infusing these cells by various routes and at various times into mice that received an intracameral injection of HSV-1. The results revealed that virus-specific effector cells could prevent contralateral retinitis if injected intravenously or into the anterior chamber of the contralateral eye at the same time that virus was injected into one eye. However, the effector cells failed to prevent retinitis if they were injected into the same eye that received HSV-1 or if their intravenous administration was delayed until 24 h after the HSV-1 injection into the eye. We concluded that immune T cells can protect against contralateral retinal necrosis caused by uniocular injection of HSV-1 into the anterior chamber but only if they are administered during the first 24 h after virus infection. We propose that a retinitis-inducing process is set in motion during this early time interval postinfection. Once the process has been initiated and established, it is no longer susceptible to immune intervention. It would appear that mice that are susceptible to contralateral retinitis fail to mobilize a protective response quickly enough to ward off the establishment of the retinitis-inducing process and its disastrous eventuality.     

Asialo-GM1-positive T killer cells are generated in F1 mice injected with parental spleen cells

(C57BL/6 x DBA/2)F1 mice transplanted with parental C57BL/6 spleen cells become splenic chimeras, show donor antihost cytotoxic T cell activity, and lose their T cell-mediated, humoral, and natural immunity. Injection of anti-asialo-GM1 (ASGM1) into transplanted mice strongly suppresses splenic cytotoxic activity and causes a significant reduction of spleen cells expressing ASGM1, Thy-1, and Lyt-2. In vitro treatment of spleen cells from transplanted mice with antibody and complement shows that the cytotoxic effector cells are ASGM1+, Thy-1+, Lyt-2+, L3T4-, NK1.1-, and H-2d-, hence of donor origin. The cytotoxic effector cells are specific for H-2d targets and lack NK activity. In an attempt to explore whether in vivo elimination of the cytotoxic effector cells has any influence on splenic chimerism or humoral immunity, F1 mice injected with parental splenocytes were treated with anti-ASGM 1. Results show that this treatment eliminates a substantial proportion of cytotoxic effector cells but has no effect on splenic chimerism or restoration of humoral immunity. It therefore appears that cytotoxic effector cells are not primarily responsible for induction of chimerism or suppression of humoral immunity. In support of this injection of parental spleen cells with the nu/nu mutation induces killer cells in F1 mice but fails to induce splenic chimerism or immunosuppression. In contrast, injection of parental spleen cells with the bg/bg mutation generates both splenic chimerism and suppression of humoral immunity although their ability to generate cytotoxic effector cells in F1 hosts is seriously impaired and comparable to the cytotoxic potential of C57BL/6 nu/nu cells. It is concluded that the ASGM1 + cytotoxic T cells are not primarily responsible for splenic chimerism and suppression of humoral immunity and that the two effects are likely caused by parental cells with a different phenotype and function.