402AX teratocarcinoma MHC class I antigen expression is regulated in vivo by Lyt 1, Lyt 2, and L3T4 expressing splenic T cells

The murine 402AX teratocarcinoma is a MHC class I antigen negative tumor of 129 strain origin. Host resistance to the 402AX tumor is genetically controlled. When passed intraperitoneally in genetically resistant mice, the tumor cells are induced to express MHC Class I antigens of the 129 genotype. When passed in genetically susceptible mice, the tumor cells remain MHC class I antigen negative. Earlier studies have demonstrated that resistance to the tumor and regulation of tumor cell MHC class I antigen expression are under the control of the host's immune system. The present studies indicate that splenic Lyt 1-, Lyt 2-, and L3T4-expressing cells regulate tumor cell MHC class I antigen expression, and that these cells require a genetically resistant host environment in which to differentiate. Splenic T cells primed to the 402AX tumor and transferred into genetically susceptible 129 mice give rise to GVHD, suggesting that immunity to the tumor involves reactivity to 129 minor histocompatibility antigens.     

Teratocarcinoma cell MHC antigen expression is regulated in vitro by a soluble noninterferon factor

The 402AX murine teratocarcinoma is a spontaneous testicular tumor of 129 (H-2b) origin which does not express MHC encoded antigens. Rejection of this tumor is immunologically mediated and the tumor cells are induced in vivo to synthesize H-2b antigens when passaged in genetically resistant host mice. The present studies demonstrate that serum from tumor primed genetically resistant host mice can induce tumor cell MHC antigen expression in vitro as measured by indirect immunofluorescence using monoclonal antibodies. The inducing factor is specific for 402AX tumor cells and is not interferon as shown by the lack of response of the 402AX tumor to gamma interferon, and the absence of significant interferon activity in inducer serum. These studies demonstrate another factor independent of interferon that can induce MHC class I antigen expression on tumor cells.     

Transfection and expression of syngeneic H-2 genes does not reduce malignancy of H-2 negative teratocarcinoma cells in the autologous host

Rejection of the MHC class I negative 402AX teratocarcinoma is accompanied by induction of tumor cell-encoded H-2K and H-2D antigens by the genetically resistant host. To determine whether MHC antigen expression is required for 402AX rejection, we have prepared H-2Db-transfected 402AX cells (402AX/Db). Transfectants express high levels of H-2Db, most of which is not associated with beta 2-microglobulin. MHC syngeneic and allogeneic mice susceptible to 402AX are resistant to 402AX/Db, suggesting that MHC class I antigen expression is required for tumor rejection. Autologous 129 hosts, however, are susceptible to 402AX/Db. 402AX cells transfected with the H-2Kb gene (402AX/Kb) are also lethal in the autologous 129/J host, but rejected by MHC syngeneic and allogeneic mice. Non-129 strain 402AX-susceptible mice pre-immunized with 402AX/Db or simultaneously challenged with 402AX/Db plus 402AX are immune to 402AX. Mice immunized with 402AX/Db produce MHC class I induction factor. 402AX/Db and 402AX cells are lysed equally by natural killer cells, indicating that in 402AX cells the expression of class I antigens is unrelated to NK susceptibility. These studies confirm the requirement for class I expression in 402AX immunity, but demonstrate that in the autologous host immunity requires additional factors beyond class I antigen expression.     

Resistance to 402AX teratocarcinoma involves immunity to minor histocompatibility antigens

The 402AX teratocarcinoma is a 12/J-derived mouse major histocompatibility complex (MHC) antigen negative tumor that is induced to express H-2^b class I antigens during rejection. Resistance to 402AX by MHC allogeneic and syngeneic mice is immunologically mediated and involves the recognition of tumor-associated antigens (TAA) in the context of induced MHC class I antigens. The current studies were undertaken to define the 402AX TAAs. Reconstitution of irradiated susceptible hosts (129/J) with 402AX-primed resistant spleen cells (C57BL/6) results in acute graft-versus-host disease, suggesting that tumor-primed C57BL/6 splenocytes are reactive to tumor genotype (129/J) minor histocompatibility (Hm) antigens. C57BL/6 anti-129/J effector cells, although not directly cytotoxic for 402AX cells, are specifically cold target inhibited by 402AX cells. Genetically susceptible hosts (C3H.SW) immunized to 129/J Hm antigens by skin grafting become resistant to an i.p. challenge of 402AX cells. These results suggest that 129/J Hm antigens may be the TAAs recognized during genetically controlled rejection of the 402AX teratocarcinoma.     

Multiple splenic lymphoid cell subpopulations regulate H-2 antigen expression on teratocarcinoma cells in vivo

Undifferentiated murine 402AX teratocarcinoma cells do not express MHC antigens when passaged in vitro or in vivo in genetically susceptible host mice. When passaged in vivo in genetically resistant mice, however, the tumor cells become H-2b antigen positive regardless of the H-2 haplotype of the resistant host mouse. The present studies use monoclonal anti-H-2b antibodies to corroborate these earlier findings, which were performed with conventional antisera. Previous studies have established that host bone marrow plus lymphoid cells from resistant primed donors regulate tumor cell H-2b antigen expression. Using bone marrow and mature lymphoid cell reconstitution techniques, the present studies indicate that splenic Ig- cells from genetically resistant host mice are the most efficient lymphoid cell subpopulation in tumor cell H-2b antigen induction. Ig+ spleen cells also reconstitute the capacity to induce teratocarcinoma cell H-2 antigens but are less effective than Ig- spleen cells. Tumor cell H-2 antigen induction in C57BL/6 beige mice is impaired compared to C57BL/6 hosts, which suggests that host NK cells may also be involved in tumor cell H-2 antigen induction. Reconstitution of lethally irradiated resistant hosts for teratocarcinoma cell H-2 antigen expression requires bone marrow plus resistant primed lymphoid cell subpopulations; bone marrow alone is insufficient. These results indicate that multiple splenic lymphoid cell subpopulations requiring a radiosensitive host environment and/or factor for differentiation regulate teratocarcinoma 402AX H-2b antigen expression in vivo in genetically resistant mice.     

L3T4+ T-cell-independent reactivity of Lyt2+ T cells in vivo

The aim of this study was to analyze in vivo the L3T4+ T-cell-subset-independent reactivity of Lyt2+ T cells toward transplantation alloantigens. To this end, we depleted normal mice of L3T4+ T cells by injection of monoclonal antibodies to the L3T4 antigen. This procedure not only led phenotypically to a disappearance of L3T4+ T cells, but also effectively abolished reactivity toward class II MHC antigens in vitro and in vivo. However, L3T4+ T-cell-depleted mice still reacted to class I MHC alloantigens in vivo: after immunization with class I MHC alloantigens Il-2 receptor-bearing T cells appeared in the draining lymph nodes, and developed antigen-specific cytolytic activity. Moreover, upon in vivo priming the frequencies of class I MHC-specific precursors of Il-2-producing and cytolytic Lyt2+ T lymphocytes increased up to 20-fold. L3T4+ T-cell-depleted mice rejected class I MHC-bearing skin grafts promptly. We conclude that not only in vitro but also in vivo Lyt2+ T cells remain reactive toward class I MHC antigens in the absence of L3T4+ T helper cells.     

Characterization of an endogenous Lyt2+ T-suppressor-cell population regulating autoreactive T cells in vitro and in vivo

Autoreactive T cells have been defined by their capacity to respond to self-Ia antigens expressed on non-T cells. Several recent studies have suggested that these cells may play important immunoregulatory functions. However, it is not clear what regulates the responsiveness of autoreactive T cells and why such cells are not demonstrably stimulated in vivo, where they are in the constant presence of self-Ia antigens. In the present study we examined the role of T suppressor (Ts) cells in regulating autoreactive T cells. We observed that enhanced autoreactivity occurred in vitro when Lyt2+ T cells were depleted from the responding and/or stimulating spleen cells in a syngeneic mixed-lymphocyte reaction. Similarly, addition of irradiated Lyt2+ T cells but not L3T4+ T cells inhibited the response of L3T4+ T cells to self-Ia antigens. The activity of the suppressor cells was specific to the autoreactive T cells since antigen-specific and alloreactive T-cell proliferation were not inhibited. Furthermore, depletion of Lyt2+ T cells by in vivo treatment of mice with anti-Lyt2 monoclonal antibodies caused enhanced endogenous proliferation of lymph node and splenic T cells and increased the T-cell response to self-Ia antigens in vitro. These studies, therefore, suggest that T-cell tolerance to self-Ia antigens in vivo may be maintained by naturally occurring Lyt2+ Ts. Mice having enhanced autoreactivity may provide a useful tool to address the role of autoreactive T cells in the immune response to foreign antigens and in the pathogenesis of autoimmune diseases.     

Distribution of Lyt antigens on the surface of thymocytes associated with thymic macrophages and dendritic cells

Summary Thymocyte subpopulations that are associated with macrophages and dendritic cells of the thymus in vivo were isolated from the thymuses of C57Bl/6 mice, and their Lyt phenotypes were analyzed. Electron-microscopic examination of immunogold-labeled cells revealed that the thymic complexes formed by macrophages mainly contained Lyt-2-positive thymocytes, while Lyt-1-positive thymocytes were more frequently associated with dendritic cells. The characteristic distributions of Lyt antigens on the surface of thymocytes in regions of reciprocal contact with macrophages (Lyt-2-positive cells) and dendritic cells (Lyt-1-positive cells) suggest that these antigens play a role in specific interactions between thymocytes and stroma cells.Dedicated to Professor Dr. T.H. Schiebler on the occasion of his 65th birthday     

The unique killing of embryo-derived teratocarcinoma cells by nonactivated murine macrophages is not due to a lack of H-2 antigen expression.

It is well documented that activated macrophages, but not nonactivated ones, kill tumor cells in vitro without damaging normal cells. We, however, have previously shown that embryo-derived teratocarcinoma cells (F9, P19, PCC4) are efficiently killed by nonactivated macrophages as well as by activated ones. Whereas other tumor cells are killed extracellularly by macrophages, we found that F9 teratocarcinoma cells are phagocytosed alive by macrophages and subsequently killed intracellularly by a process dependent on intact lysosomal function. Neither the H-2 antigens nor the mRNAs for the alpha-chain and beta 2-microglobulin are detectable in embryo-derived teratocarcinoma cells. An obvious explanation for this unique killing is that the nonactivated macrophages recognize and kill these cells due to their lack of class I MHC antigen expression, assuming that class I MHC gene products on the target cells switch off the cytolytic machinery of nonactivated macrophages. Our present findings demonstrate that there is no correlation between H-2 antigen expression on tumor cells and their susceptibility to killing by macrophages. Retinoic acid-differentiated F9 cells and P19 cells expressing H-2 antigen after exposure to MAF (IFN-gamma) were sensitive to the killing by nonactivated macrophages. Hybrids that arose from fusion of P19 teratocarcinoma cells with embryonal normal fibroblasts (C57BL/6), which displayed the morphology of embryonal carcinoma stem cells and expressed H-2 antigens, were also sensitive to the killing by nonactivated macrophages. On the other hand, the H-2-negative testicular 402AX teratocarcinoma cells and K1735P melanoma cells were both resistant to the killing by nonactivated macrophages. We concluded that the unique killing of embryo-derived teratocarcinoma cells by nonactivated murine macrophages is not related to a lack of H-2 antigen expression.     

Characteristics of thymus-homing bone marrow cells

Using a short-term in vivo assay, we studied bone marrow cells capable of homing to the thymus of lethally irradiated recipients. In the bone marrow, these cells lack the T cell markers Thy-1 and Lyt. Soon after their homing into the thymus, however, the immigrants begin to express Thy-1 and Lyt antigens, but not TL antigen. Unexpectedly, Lyt antigens appear to be expressed before Thy-1. These thymus-homing bone marrow cells seem to be already separated from the B cell lineage. Most of the homing cells are engaged in the cell cycle.     

Soluble factors in tolerance and contact sensitivity to DNFB in mice. VIII. Regulation of T suppressor cell function by autoreactive T helper cells

When cultured with DNP-labeled I-A+ cells, Lyt 2+ T suppressor cells (Ts) from 2,4,-dinitrobenzene sulfonate (DNBS)-tolerized mice are activated to synthesize and release a suppressor factor (SSF) which suppresses the transfer of contact sensitivity to DNFB. The signals required to activate the DNBS-primed Ts to produce SSF were studied in greater detail. As previously observed with fixed DNP-labeled spleen cell stimulators, the supernatants from cultures of DNBS-primed spleen cells and glutaraldehyde-fixed DNP-labeled P388D1 cell monolayers did not contain SSF. When the tolerant cells were harvested from these monolayers and were treated with IL-1, the Ts released the synthesized SSF. Synthesis and release of SSF required Ts recognition of DNP/class I MHC on the hapten-presenting cells followed by interaction with the costimulator IL-1. When the tolerant cells were cultured with fixed DNP-labeled I-A+ or I-A- stimulators to induce SSF synthesis, release was induced by adding either unlabeled or TNP-labeled unprimed spleen cells to the cultures. The release of SSF was blocked when the second stimulators were pretreated with anti-I-A antibody but not with anti-DNP or anti-class I MHC antibodies. These results indicate that the release of SSF by DNBS-primed Lyt 2+ Ts is regulated by the activity of a self-I-A-reactive (i.e., autoreactive) T cell in the tolerant spleen cell population.     

Role of dextran-specific suppressor T cells in the regulation of the immune response by a reactive form of dextran

Reactive forms of antigens or haptens have been shown to induce a state of hyporesponsiveness mediated in part by suppressor T cells. Injection of Balb/c x C57B16 F1 (CB6F1) mice with a reactive form of dextran B1355S (periodate oxidized dextran, dex-P) specifically reduced responses to dextran immunization within 1 day after dex-P treatment. This unresponsiveness lasted at least 23 days and required a reactive form of dextran for its induction since native dextran and oxidized/reduced dextran failed to induce tolerance. Furthermore, hyporesponsiveness could be induced by iv injection of dextran-coupled cells, especially peripheral blood lymphocytes, a result which suggests that in vivo coupling to cellular antigens is involved in dex-P-induced hyporesponsiveness. Suppression of the anti-dextran response could be transferred to normal mice with T-cell-enriched spleen cell populations from dex-P-injected mice. Interestingly, the presence of B cells in the transferred cell preparations interfered with detection of suppression. Both Lyt 1+2- and Lyt 1-2+ cells were involved in the dex-P-induced suppression; indeed, mixtures of these types of T cells led to the most profound degree of suppression. The suppressive activity of spleen cells from dex-P-injected mice could be removed by passage over dextran-coated plates. Moreover, cells eluted from the plates specifically suppressed anti-dextran responses of normal mice, indicating that dex-P injection induces a population of antigen-binding suppressor cells. This system will allow the study of the suppressor-T-cell receptors in a well-defined idiotypic system.     

Immune recognition by cytotoxic T lymphocytes of minor histocompatibility antigens expressed on a murine colon carcinoma line

We have characterized in vivo and in vitro responses of mice to the BALB/c-derived carcinoma, C26. BALB/c mice were highly susceptible, in a dose-dependent fashion, to local tumor development following subcutaneous injection of C26. Other strains of mice, including allogeneic strains and major histocompatibility complex compatible strains of different minor histocompatibility (H) backgrounds, were resistant to C26-induced tumors. The basis for resistance of mice to C26 was studied using an in vitro-derived C26 line as target cells in microcytotoxicity assays, and as a source of antigen for in vivo priming. An H-2d-specific alloreactive cytotoxic T lymphocyte (CTL) line was isolated from C57BL/6 mice primed with C26, demonstrating the expression, and immune recognition, of MHC class I antigens on C26. C26 also expressed minor H antigens of BALB background as demonstrated by the ability of CTL specific for BALB minor H antigens to selectively lyse C26. Conversely, minor H antigens on C26 were immunogenic across a minor H barrier as demonstrated by the ability to raise anti-minor H CTL to C26 from minor H disparate strains. Collectively, those experiments indicate that C26 may be useful for immunologic and biochemical studies of murine minor H antigens, and for in vivo and in vitro studies of local immunity.     

In vitro generation of natural killer cells from SJL/J bone marrow precursors

The development of natural killer (NK) cells from undifferentiated bone marrow (BM) precursors of low-NK-reactive SJL/J mice was studied. Results indicate that BM cells of untreated mice are not able to generate NK effector cells in cultures supplemented with recombinant interleukin-2 (IL-2). On the other hand in the presence of IL-2, NK cells are generated in cultures of BM from mice pretreated with 5-fluorouracil (5-FU, 150 mg/kg iv 4 days before harvesting), a treatment which has been shown to eliminate more differentiated but spare less differentiated BM precursors. The 5-FU resistant BM progenitor is asialoGM1-, Thy.1+, Lyt.1- and Lyt.2-. The cells generated by culturing with IL-2 are asialoGM1+, Thy.1+, Lyt.5+, Lyt.1-, Lyt.2- and lyse only NK-susceptible targets. Generation of NK cells is blocked by addition of anti-IL-2 receptor (IL-2/r) antibodies. These studies demonstrate that it is possible to generate NK effectors from SJL/J BM cells by in vitro culturing with IL-2.     

Immunosuppression in murine renal cell carcinoma

In our companion paper we have reported that cell-mediated immunity of mice bearing renal cell carcinoma is profoundly suppressed. The non-responsiveness of such animals was found to be attributable to Renca cells themselves and to splenic lymphoid cells that down-regulate other fully capable lymphoid cells. In this communication the lymphoid cell source of suppression within Renca-bearing mice has been explored with the aim of identifying phenotypes of the responsible cells, the manner by which suppression is mediated, and initial ways by which suppression may be eliminated. A plastic-adherent cell bearing the Thy1.2 surface marker as well as the Lyt1 and Lyt2 antigens has been found to operate, perhaps in conjunction with macrophages, to down-regulate lymphokine-activated killer (LAK) cell development for natural killer (NK) and non-NK targets that include Renca cells themselves. The splenic suppressor cells lost the capacity to suppress the NK response of normal recipient mice upon shallow irradiation (250 rad) prior to adoptive transfer. Spleen cells, presumably macrophages, from Renca-bearing mice were found to suppress the generation of LAK and NK cells in vitro by synthesizing prostaglandins. Indomethacin, a prostaglandin synthetase inhibitor, blocked the induction of suppression both in vitro and in vivo, suggesting the presence of endogenous prostaglandins in Renca-bearing mice. The suppression seen in Renca-bearing mice that derives from multiple sources and has been prevented by two separate methods has been discussed from the viewpoint of the inter-relatedness of the sources.     

Analysis of effector T cells against the murine syngeneic tumor MethA in mice orally administered antitumor polysaccharide SPR-901

The growth of MethA tumor was significantly inhibited by oral administration of the -glucan SPR-901 in BALB/c (+/+) mice but not in nude mice. Mice treated orally with SPR-901 exhibited an augmentation of antigen-specific resistance against rechallenge with the tumor cells. The tumor-neutralizing activity of regional lymph node cells from MethA-bearing mice against the tumor was augmented by oral administration of SPR-901. The tumor-neutralizing activity of lymph node cells from SPR-901-treated mice mainly appeared in Lyt2+cells. Furthermore, lymphokine-activated killer activity of these cells was enhanced by administration of SPR-901. The antitumor effect of SPR-901 was abrogated in mice depleted of either L3T4+ or Lyt2+ cells, and in cyclosporin-A-treated mice. These results suggest that Lyt2+ cells are important effector cells in MethA-bearing mice orally adminstered SPR-901 and that functional exertion of both Lyt2+ and L3T4+T cells is necessary for the antitumor effect of orally administered SPR-901 in vivo.     

Stimulation of splenic T cells on syngeneic monolayers of epidermal basal cells (EBC) in mice. Regulation by Lyt 1+ and Lyt 2+ cell subsets

Syngeneic proliferative response of splenic T cells against monolayers of epidermal basal cells (EBC) was obtained with C57BL/6 and DBA/2 mice. Optimal response, as assessed by [³H]thymidine uptake, occurred on the 6th day of coculture. The level of [^3H]thymidine uptake by unseparated spleen cells was lower than by fractionated T cells from C57BL/6 mice, and null for DBA/2 mice. It was not significantly different when lymphocytes were cocultured with syngeneic or allogeneic epidermal cells. Ia antigens did not appear to be involved in the syngeneic response, since it was not prevented by pretreating stimulator monolayers with monoclonal anti-Ia^k antibody or by adding this antibody directly to the cultures. When the proliferative responses of separated Lyt 1⁺ and Lyt 2⁺ cell subsets were compared, the prominent role of Lyt 1⁺ cells was demonstrated. Enhancement of the T-cell reactivity by eliminating Lyt 2⁺ cells and suppression of the response of a constant number of Lyt 1⁺ cells by adding Lyt 2⁺ cells suggested that Lyt 2⁺ cells could suppress and modulate the Lyt 1⁺ cell proliferation.     

Novel regulation of MHC class II function in B cells

The presence of post-translational regulation of MHC class II (MHC II) under physiological conditions has been demonstrated recently in dendritic cells (DCs) that potently function as antigen-presenting cells (APCs). Here, we report that MARCH-I, an E3 ubiquitin ligase, plays a pivotal role in the post-translational regulation of MHC II in B cells. MARCH-I expression was particularly high in B cells, and the forced expression of MARCH-I induced the ubiquitination of MHC II. In B cells from MARCH-I-deficient mice (MARCH-I KO), the half-life of surface MHC II was prolonged and the ubiquitinated form of MHC II completely disappeared. In addition, MARCH-I-deficient B cells highly expressed exogenous antigen-loaded MHC II on their surface and showed high ability to present exogenous antigens. These results suggest that the function of MHC II in B cells is regulated through ubiquitination by MARCH-I.     

Relationship among function, phenotype, and specificity in primary allospecific T cell populations: identification of phenotypically identical but functionally distinct primary T cell subsets that differ in their recognition of MHC class I and class II allodeterminants

The goal of the present study was to evaluate the relationship among function, Lyt phenotype, and MHC recognition specificity in primary allospecific T cell populations. By using Lyt-2+ and L3T4+ T cells obtained from the same responder populations, we assessed the ability of T cells of each phenotype to generate cytotoxic effector cells (CTL) and IL 2-secreting helper T cells in response to either class I or class II MHC allodeterminants. It was found that a discordance between Lyt phenotype and MHC recognition specificity does exist in primary allospecific T cells, but only in one T cell subpopulation with limited functional potential: namely, Lyt-2+ T cells with cytotoxic, but not helper, function that recognize class II MHC alloantigens. Target cell lysis by these Lyt-2+ class II-allospecific CTL was inhibited by anti-Ia monoclonal antibodies (mAb), but not anti-Lyt-2 mAb, indicating that they recognized class II MHC determinants as their "restriction" specificity and not as their "nominal" specificity even though they were Lyt-2+. A second allospecific T cell subset with limited functional potential was also identified but whose Lyt phenotype and MHC restriction specificity were not discordant: namely, an L3T4+ T cell subset with helper, but not cytotoxic, function specific for class I MHC allodeterminants presented in the context of self-Ia. Thus, the present study demonstrates that primary allospecific T cell populations contain phenotypically identical subpopulations of helper and effector cells that express fundamentally different MHC recognition specificities. Because the recognition specificities expressed by mature T cells reflect the selection pressures they encountered during their differentiation into functional competence, these findings suggest that functionally distinct but phenotypically identical T cell subsets may be selected independently of one another during ontogeny. Thus, the existence of Lyt-2+ CTL specific for class II allodeterminants can be explained by the hypothesis that the association of Lyt phenotype with MHC recognition specificity results from the process of thymic selection that these Lyt-2+ effector cells avoid.     

Dynamic change of histone H2AX phosphorylation independent of ATM and DNA-PK in mouse skin in situ

Histone H2AX undergoes phosphorylation on Ser 139 (γ-H2AX) rapidly in response to DNA double-strand breaks induced by exogenous stimuli, such as ionizing radiation. However, the endogenous phosphorylation pattern and modifier of H2AX remain unclear. Here we show that H2AX is regulated physically at the level of phosphorylation at Ser139 during a hair cycle in the mouse skin. In anagen hair follicles, γ-H2AX-positive cells were observed in the outer root sheath (ORS) and hair bulb in a cycling inferior region but not in a permanent superficial region. In telogen hair follicles, γ-H2AX-positive cells were only detected around the germ cell cap. In contrast, following X-irradiation, γ-H2AX was observed in various cell types including the ORS cells in the permanent superficial region. Furthermore, γ-H2AX-positive cells were detected in the skin of mice lacking either ATM or DNA-PK, suggesting that these kinases are not essential for phosphorylation in vivo.