Generation of cytotoxic T lymphocytes in vitro. VII. Suppressive effect of irradiated MLC cells on CTL response.

Irradiated cells obtained from MLC at the peak of the CTL response caused profound suppression of generation of CTL when added in small numbers at the initiation of primary MLC prepared with normal spleen cells. The inhibitory activity of the MLC cells was not affected by irradiation (1000 rads) but was abolished by treatment with anti-theta serum and complement. The suppression was immunologically specific. The response of A (H-2a) spleen cells toward C3H (H-2k) alloantigens was suppressed by irradiated MLC cells obtained from MLC prepared with A spleen cells and irradiated C3H-stimulating cells, whereas the response of A spleen cells toward DBA/2 (H-2d) alloantigens was affected relatively little. However, if irradiated C3H X DBA/2 F1 hybrid spleen cells were used to stimulate A spleen cells in MLC, addition of irradiated MLC cells having cytotoxic activity toward C3H antigens abolished the response to both C3H and DBA/2 antigens. The response to DBA/2 antigens was much less affected when a mixture of irradiated C3H and DBA/2 spleen cells was used as stimulating cells. Thus, the presence of MLC cells having cytotoxic activity toward one alloantigen abolished the response to another non-cross reacting antigen only when both antigens were present on the same F1 hybrid-stimulating cells. This suppression of generation of CTL by irradiated MLC cells apparently involves inactivation of alloantigen-bearing stimulating cells as a result of residual cytotoxic activity of the irradiated MLC cells. This mechanism may be active during the decline in CTL activity noted in the normal immune response in vivo and in vitro.     

Generation of cytotoxic T lymphocytes in vitro. VI. Effect of cell density on response in mixed leukocyte cultures.

Reexposure of day 14 murine mixed leukocyte culture (MLC) populations to the original irradiated allogeneic stimulating spleen cells has previously been found to result in the ratpid generation of cytolytic T lymphocytes (CTL) associated with a net increase in cultured cell number. Under the experimental conditions used, day 5 MLC cells appeared unable to respond to the allogeneic stimulus. In order to characterize further the development of the potential for anamnestic reactivity during the course of MLC, C57BL/6 spleen cells were incubated with irradiated (1000 rads) DBA/2 spleen cells (primary MLC) for up to 3 weeks. At various time intervals after the onset of the primary MLC, the surviving cells were collected and reexposed, at varying cell concentrations, to irradiated DBA/2 spleen cells (secondary MLC). At daily intervals thereafter, CTL activity was assessed using a quantitative 51Cr-release assay system. A paradoxic effect of responding cell concentration on generation of CTL activity was observed; relatively greater increase in CTL activity was observed as the concentration of responding cells was decreased over a 100-fold range. This effect was more pronounced with responding cells reexposed to antigen after primary MLC for 20 days, but was observed even with normal cells. The apparent unresponsiveness of day 5 MLC cells to alloantigen restimulation could be overcome by simple dilution of responding cells. Cytotoxic activity at the time of restimulation with antigen seems to be a major factor determining the magnitude of the secondary response. Since intact cells bearing alloantigens are required for the generation of CTL in MLC, residual cytotoxic cells reduce the effective antigenic stimulus by destroying stimulating cells. This effect of concentration of responding cells on generation of CTL in MLC complicates interpretation of experiments investigating the role of "inhibitor" and "helper" cell in cell-mediated immune responses occurring in vitro. Under optimal conditions, the highest CTL activity and the largest increase in total cell number was observed 4 days after restimulation of day 10 MLC cells. On a per cell basis, the lytic activity was up to 4 times greater than that observed at the peak of a primary response, and the number of viable cells recovered was nearly 20 times higher than that at the onset. Such secondary MLC are thus a convenient source of lymphoid cells selected primarily on the basis of proliferation induced by alloantigens.     

Selective responses of mouse T lymphocytes to different T mitogens and in mixed lymphocyte culture induced cytolysis reaction.

CBA spleen T lymphocytes were stimulated by the T mitogens concanavalin-A (Con-A), phytohemagglutinin (PHA), and leukoagglutinin (LA). On the 2nd to 3rd culture day the activated cells (blasts) were separated from the nonactivated cells (lymphocytes) by 1g velocity sedimentation. The lymphocytes which were not activated during the primary culture (lymphocyte fraction from the velocity sedimentation) were then stimulated by the same mitogens or in one-way MLC to DBA/2 m, and tested for relevant target lysis after MLC stimulation. Primary stimulation with Con-A abolished the responses to Con-A, to PHA, and to LA, whereas primary stimulation with PHA or with LA abolished the responses to these mitogens but left behind a considerable Con-A response. Stimulation with any one of the listed T mitogens did not significantly affect the MLC responses. While primary stimulation with Con-A abolished the relevant target cell lysis after MLC stimulation, primary stimulation with PHA or with LA reduced it only slightly. Assuming that the various mitogens stimulate separate subpopulations of T cells, the results seem to indicate that the Con-A-responsive population includes the PHA- and LA-responsive populations but not the MLC-responsive population. It also appears that the T cells generated to killer cells during MLC are mainly confined to the concanavalin-responsive population.     

Heterogeneity of mouse Thy 1.2 antigen expression revealed by monoclonal antibodies

A different sensitivity of T cells from C57B1/6 and DBA/2 mice to treatment with the monoclonal anti-Thy 1.2 F7D5 serum as compared with a conventional alloantiserum is reported. Depletion of T helper cells, Con A-, PHA-, MLC-, and GVH-reactive cells from a DBA/2 or C57B1/6 spleen cell population was readily achieved with the conventional alloserum. In contrast, the F7D5 antiserum abolished all T functions studied in C57B1/6 spleen cells whereas it was totally or partially ineffective on DBA/2 spleen cells when T helper, MLC, or GVH reactivity were assayed. It did however eliminate the capacity of DBA/2 spleen cells to respond to stimulation with Con A or PHA. Analysis in an Ortho-Cytofluorograf of thymocytes and sIg^? lymphocytes labeled with either GAMB-F or F7D5 + RAM Ig-F showed no difference at the level of the thymocytes: Thy 1.2 antigen as revealed by either GAMB or F7D5 is similarly expressed in the two mouse strains. The fluorescence profiles of splenic T lymphocytes indicated a reduced representation per unit cell basis of the Thy 1.2 antigenic determinant recognized by F7D5 in DBA/2 mice. Moreover, this same determinant is expressed in only 70% of all Thy 1.2-positive cells detected in DBA/2 sIg^? population. This implies that, in DBA/2 mice, maturation of T cells is accompanied by a complete or partial loss of the F7D5 Thy 1.2 determinant and that T helper functions and MLC and GVH reactivity are mediated by T cells which express little or none of this F7D5 Thy 1.2 determinant.     

Separation of spleen colony-forming units and prothymocytes by use of a monoclonal antibody detecting an H-2K determinant

The density of H-2K antigens was determined on both the mouse hemopoietic stem cell, using an assay for spleen colony-forming units (CFU-S), and the prothymocyte, using a thymus repopulation assay. This was done by light-activated cell sorting of bone marrow cells labeled first with a biotinylated antibody against H-2Kk and then with avidin-fluorescein isothiocyanate. Almost all CFU-S were found to be present among the 4% bone marrow cells with high forward light scatter (FLS), low perpendicular light scatter (PLS), and bright immunofluorescence. Thymus regeneration by this brightly fluorescent fraction was delayed 3 days compared to thymus regeneration by unsorted cells, although the same number of CFU-S was present in each cell suspension. This delay indicates that differentiation from CFU-S to prothymocytes takes 3 days. The fraction of cells in the FLS/PLS window with dull anti-H-2Kk fluorescence contained few CFU-S and gave rise to a transient thymus regeneration. These findings indicate that the prothymocyte carries fewer H-2K antigens than does the CFU-S. The H-2K antigen is a marker with which CFU-S and prothymocytes can be separated. Therefore, during early T-cell differentiation, the number of H-2K molecules on the cell surface decreases (CFU-S----prothymocyte----cortical thymocyte). During maturation of T cells, a reexpression of H-2K molecules occurs, since lymph node cells and spleen cells were shown to be brightly positive for H-2K antigen.     

A fractionation procedure of mouse bone marrow cells yielding exclusively pluripotent stem cells and committed progenitors

The cell surface phenotype of pluripotent hemopoietic stem cells (CFU-S) and committed progenitors (CFU-C1, CFU-C2, BFU-E) of mouse bone marrow was analyzed with respect to their binding of wheat germ agglutinin (WGA) and two monoclonal antibodies, anti-GM-1.2 and anti-PGP-1. Stained cells were fractionated on the basis of differences in fluorescence and light scatter intensity using a light-activated cell sorter. The 6% of the cells that bound most WGA and that also had a relatively high forward light scatter (FLS) and low perpendicular light scatter (PLS) contained nearly all stem cells (CFU-S) and progenitors. Anti-GM-1.2 stained only mature myeloid cells, not CFU-S or the in vitro colony-forming cells. Anti-PGP-1 stained all bone marrow cells in varying intensities: lymphoid cells were dull, CFU-S were intermediate, CFU-C2 were brighter, and mature myeloid cells very bright. Enrichment of progenitor cells was performed by a two-step sorting procedure. First, the 6% most WGA-binding cells with high FLS and low PLS were sorted out. A 10-15-fold enrichment of progenitors and CFU-S was obtained. Next, these cells were restained with anti-GM-1.2 or anti-PGP-1 and again fractionated on the FACS. The GM-1.2-negative cells were then another four- to sevenfold more enriched for stem cells and progenitors. Of the cells in this fraction, 95% could be assigned to a colony-forming unit. With anti-PGP-1, CFU-C2 could be partly separated from more early cells such as CFU-S and BFU-E.     

Detection of Mls-antigens in various mouse strains using a new method

Mice of strains CBA and BALB/c, when injected with lymphocytes from theH-2-compatible Mls-antigen-incompatible strains C3H and DBA/2, respectively, develop a reduced lymphocyte reactivity against cells of the injected strains as measured in the mixed lymphocyte culture (MLC). The mechanism of the development of a depression of the MLC response against Mlsantigens is unknown. In this investigation we have tested the MLC response of lymphocytes from CBA mice preinjected with C3H lymphocytes against cells from 12 different strains. It was observed that the response decreased against cells from strains C3H, AKR, and A/Sn. Infusion of CBA mice with AKR lymphocytes decreased their MLC response against the same three strains. In contrast, infusion of CBA mice with A/Sn lymphocytes reduced their MLC responses against strains C3H, DBA/2, and the congenic strains A/Sn, A.SW, A.CA, and A.BY. BALB/c mice which were infused with DBA/2 lymphocytes developed reduced responses against DBA/2, C3H, and AKR. On the basis of these results we propose that mice of our strains C3H and AKR possess a common Mls-antigen which is strongly stimulatory, and that DBA/2 mice possess a second Mls-antigen which is also strongly stimulatory. The congenic strains A/Sn, A.SW, A.CA, and A.BY, which have differentH-2 complexes, possess a third Mls-antigen which is less stimulatory. The Mls-antigens of the strains listed above seem to exhibit extensive immunological crossreactivity.     

Tumour-reactive lymphocytes stimulated in mixed lymphocyte and tumour culture

Summary Lymphocytes from cancer patients were stimulated in mixed culture with autologous tumour (MLTC) or pooled allogeneic lymphocytes (MLC). Both protocols induced increased uptake of ³H-thymidine at 5 days and the appearance of lymphoblasts. Blasts were isolated on discontinuous Percoll gradients and either expanded as bulk cultures or cloned directly under limiting dilution conditions in the presence of conditioned medium containing IL-2. Results with MLTC-blast-CTC have been reported elsewhere. MLC-activated cultures lysed autologous tumour but not autologous lymphoblasts. Lysis of some allogeneic tumours, lymphoblasts from members of the inducing pool, and K562 was also apparent. MLC activated cultures did not undergo restimulation in response to autologous tumour or lymphocytes but were restimulated by leukocytes from pool members.MLTC clones showed autologous tumour-specific cytotoxic activity or cross-reactive proliferative responses with tumours of the same site and histology. The majority of MLC clones cytotoxic for autologous tumour were also specific and did not lyse allogeneic tumour, K562, or lymphoblasts from the inducing pool. Two clones lysed autologous tumour and pool members. None of the clones tested proliferated in response to autologous tumour following MLC activation but some were responsive to pool members and one clone was restimulated by autologous monocytes. No association was found between clone phenotype and function. The implication of these data is that the effector cells with activity against autologous tumour induced in MLC arose largely by transstimulation of in vivo-activated tumour reactive lymphocytes by IL-2 release rather than expansion of NK-like effectors or sharing of antigenic specificities between tumour and allogeneic lymphocytes. Since MLC activation of cancer patients lymphocytes does not induce proliferative responses to autologous tumour it is unlikely to be a useful procedure in preparing cells for immunotherapy protocols. Abbreviations used in this paper: PBL, peripheral blood lymphocytes; TIL, tumour infiltrating lymphocytes; MLTC, mixed lymphocyte tumour culture; IL-2, interleukin-2; MLC, mixed lymphocyte culture; LSM, lymphocyte separation medium; BSS, balanced salt solution; HuSe, human serum; PBS, phosphate-buffered saline; CTC, cultured T cells; PHA, phytohaemagglutinin; CM, cultured medium; NK, natural killer; FcR, receptor for the Fc portion of IgG     

Application of flow cytometry to differentiating Exophiala dermatitidis E. moniliae and E. jeanselmei from each other

We applied a flow cytometry apparatus (FCM) to differenciating Exophiala dermatitidis, E. moniliae and E. jeanselmei from each other. The wavelength of the argon laser emitted from the FCM was 488 nm and the aperture of nozzle from which the stream of fluid containing single cells was blown out was 100 m. By irradiating the stream with laser by either the forward light scatter (FLS) or by the perpendicular light scattr (PLS), we were able to get two pieces of informations. Histograms displayed by the FLS indicate the cell size, while dot displays by the PLS reflect the cell structure. As a result, E. dermatitidis was clearly differenciated from either E. moniliae or E. jeanselmei by their histograms by FLS. In addition, dot displays by the PLS differenciated E. moniliae from E. jeanselmei.In conclusion, flow cytometry is available for differenciating E. dermatitidis, E. moniliae and E. jeanselmei from each other.     

Cell-mediated immune response in vitro. II. The mechanism(s) involved in the suppression of the development of cytotoxic lymphocytes.

Spleen cells harvested from mixed leukocyte cultures (MLC) on day 2 or 3 suppress the development of CL from a fresh MLC across a cell-impermeable membrane, but day 4 MLC cells which have the maximum level of CL showed only a limited effect. Inhibition was observed only when suppressor cells were restimulated with the same H-2 type cells used during induction. However, the suppressive effect was not strain specific; that is, CBA-induced C57BL/6 spleen cells effectively inhibited the development of CL from DBA/2-induced C57BL/6 cells. In addition, DBA/2-induced C57BL/6 spleen cells effectively inhibited the development of CL from CBA cells. B10 spleen cells stimulated by B10.D2 cells gave rise to a suppressor cell population, indicating that H-2 differences alone can induce the response. The suppressive effect seemed to be exerted on an early phase of the response since no detectable inhibition was observed when suppressor cells were added 48 hr after culture initiation. The suppressive effect is not exerted on the accessory cell function but seems to inhibit DNA synthesis of the reacting cells in the MLC.     

The mixed lymphocyte response of senescent mice: sensitivity to alloantigen and cell replication time.

The age-dependent alteration in the proliferative response of C57B1/6J lymph node cells to stimulation by H-2- and M-locus alloantigens was examined in one-way mixed lymphocyte cultures (MLC). Balb/c (H-2^d, Mls^b) and DBA (H-2^d, Mls^a) spleen cells served as stimulating cells differing from C57B1/6J (H-2^b, Mls^b) at the H-2 and H-2 plus Mls loci, respectively. The day of peak response and the ratio of responder to stimulator cells required for optimal stimulation were the same for all the age groups (3 to 29 months) tested, irrespective of the stimulator strain used. Results obtained in MLC under optimal conditions showed a maximal response to both Balb/c and DBA/2 stimulation at the age of 6 months, followed by a gradual decline in the response with age. In order to determine whether the decline with age in mixed lymphocyte reactivity can be attributed to a reduction in the proliferative capacity of the responding lymphocytes of aged mice, cell cycle analyses were performed. Auto-radiographic studies of MLC containing lymphocytes from CS7B1/6J mice aged 6 and 24 months showed no difference in generation time, S, G₂, G₁, and M phases of the cell cycle. In addition, lymphocytes of both age groups underwent two identical mitotic waves within the period of examination. Our results determine that the functional decline with age in proliferative activity in mixed lymphocyte cultures is attributable to a neither decrease in sensitivity to alloantigen nor to a decrease in generation time or the ability to undergo several mitotic divisions, and suggest that such a decline is caused by fewer cells capable of response in old mice.     

Comparison of immune responsiveness in mice after single or multiple donor-specific transfusions

Immune responsiveness was compared in B6AF1 mice after one, two, three, or four donor-specific DBA/2 blood transfusions (DST). Ten days after the last transfusion, the spleen cells of transfused mice were assayed for direct lymphocyte-mediated cytotoxicity, for the ability to respond in mixed lymphocyte culture (MLC) and cell-mediated lymphocytotoxic (CML) assays to DBA/2 and C3H/He antigens, and for the ability to inhibit the MLC and CML response of normal B6AF1 to DBA/2 and C3H/He antigens. Immune responsiveness was also tested in B6AF1 2 to 80 days after a single DBA/2 DST. The MLC response of transfused mice was specifically suppressed to the blood donor after both single and multiple transfusions. The CML response to DBA/2 was suppressed after a single DST, but returned to normal after multiple transfusions. Spleen cells from transfused mice did not inhibit the MLC response of normal B6AF1 mice to DBA/2 or C3H/He antigens after one or two transfusions regardless of time tested, but were able to inhibit the response to both stimulators after three or more transfusions. The MLC response remained specifically suppressed to the blood donor for as long as 80 days after a single DST, while the CML response was suppressed up to 50 days after transfusion, but had returned to normal by 80 days.     

Limiting dilution analysis of alloantigen-reactive T lymphocytes. IV. High frequency of cytolytic T lymphocyte precursor cells in MLC blasts separated by velocity sedimentation

A sensitive limiting dilution microculture system was used to obtain minimal estimates of the frequency of cytolytic T lymphocyte precursor cells (CTL-P) directed against DBA/2 alloantigens, after priming of spleen cells in unidirectional mixed leukocyte cultures (MLC, C57BL/6 anti-DBA/2). The mean CTL-P frequency in day 4 to 5 MLC populations was found to be approximately 50- to 100-fold greater than the frequency in normal spleen, and up to 25% of the cells present in such MLC could be identified operationally as CTL-P. Even higher frequencies (up to 50%) of CTL-P were obtained in a population of large-sized cells separated from day 4 MLC by velocity sedimentation. Furthermore, since a strikingly quantitative correlation was observed between CTL activity and CTL-P frequency in such separated MLC populations, it is likely that mature CTL in MLC are not end cells, but can further proliferate and thus behave operationally as CTL-P.     

The role of cellular proliferation in the induction of experimental autoimmune thyroiditis (EAT) in mice

Experimental autoimmune thyroiditis (EAT) can be induced in susceptible strains of mice by injection of mouse thyroglobulin (MTg) and adjuvant. Lymphocytes from immunized mice develop a proliferative response to MTg which generally correlates with the development of EAT. We utilize a cell transfer system wherein spleen cells from CBA/J mice primed with MTg and lipopolysaccharide (LPS) in vivo are activated by culture with MTg in vitro to transfer EAT to naive recipients. In vivo priming of CBA/J mice is required to develop an antigen specific proliferative response to MTg. This response is optimal between 48 and 90 hr of culture at an MTg concentration of 125-250 micrograms/ml. The correlation between proliferation and transfer of EAT is not absolute as primed Balb/c X CBA/J F1 and AKR lymphocytes do not proliferate detectably in response to MTg but can be activated to transfer EAT; primed Balb/c lymphocytes neither proliferate nor transfer EAT. Proliferation per se is not sufficient to activate cells to transfer EAT as culture with nonspecific mitogens is not effective in activating primed CBA/J spleen cells to transfer EAT. However, lymphoblasts generated during in vitro culture of primed CBA/J spleen cells with MTg are responsible for transfer of EAT; small lymphocytes are ineffective. We conclude that antigen specific proliferation in response to MTg is essential in activating lymphocytes in vitro to transfer EAT.     

Lymphocyte responses to syngeneic antigens. I. Enhancement of the murine autologous mixed lymphocyte response by polyethylene glycol

The normally weak murine T-cell proliferative response against autologous non-T stimulator cells (the autologous mixed lymphocyte culture (MLC) was enhanced markedly by inclusion of the hydrophilic polymer, polyethylene glycol (PEG), into the culture medium. Potentiation of the autologous MLC was indicated on the basis of increased [³H]TdR incorporation by responding cells, as well as by the numbers of viable cells recovered from mixed cell cultures. PEG is not a polyclonal activator of T and/or B lymphocytes, since nylon wool nonadherent lymphoid cells (T cell-enriched fraction), nylon wool adherent cells (B cell-enriched fraction) and T cell-deficient “nude” spleen cells were not stimulated into DNA synthesis when cultured separately with PEG. Inclusion of 4% PEG into the culture medium was found to optimally enhance autologous MLC, although concentrations between 2 and 5% also significantly elevated responsiveness. At a responder/stimulator ratio of 1:2, autologous MLC yielded peak [³H]TdR incorporation after 5 days of culture. At lower ratios (1:1 and 2:1), however, Δ cpm of autologous MLC continued to increase over a culture period of 7 days. Enhanced responsiveness in the presence of PEG was observed in strains of mice representing a variety of H-2 haplotypes, indicating that at least the potential for autoreactivity of this type is a naturally occurring and widespread characteristic of murine species. An absolute requirement for purified T responder cells was necessary in the autologous MLC, since unseparated lymphoid cell responder LN or spleen cells demonstrated marked proliferation when cultured alone in medium containing PEG. The proliferation of T cells to autologous non-T cells within the same unseparated lymphoid cell preparation appears to be responsible for this phenomenon. Ia antigens expressed by the stimulator cells are involved in the induction of T-cell response, since anti-Ia sera added directly to the cultures inhibited the autologous MLC, but did not affect other T-cell responses to alloantigens or mitogens. Despite the marked proliferation observed in the autologous MLC performed in the presence of PEG, there was no generation of cytotoxic effector cells. Thus, PEG does not appear to add, or alter determinants on stimulator cells to an extent that they are recognized as foreign by precursor cytotoxic T cells. Although the mechanism of enhancement of autologous MLC by PEG is not totally defined, it appears, at least functionally, to promote cellular interactions that occur normally between T cells, B cells, and macrophages. In this respect, PEG will be a powerful and useful probe to dissect the cellular interactions that take place in autologous responses.     

Antigen-presenting B cells: efficient uptake and presentation by activated B cells for induction of cytotoxic T lymphocytes against vesicular stomatitis virus

We have evaluated the efficacy of mitogen (LPS/DxSO4)-activated B cells (B lymphoblasts) to function as antigen-presenting cells (APC) for vesicular stomatitis virus (VSV). Our studies revealed that B lymphoblasts induced potent cytotoxic thymus (T)-derived lymphocyte (CTL) activity in VSV-immune splenic T cells depleted of adherent accessory cells. Dose-response curves indicated that B lymphoblasts were approximately 15-20 times more efficient APC than spleen cells for CTL induction against VSV. There was little evidence of reprocessing of viral antigens by the responder population because only CTL activity restricted to the parental haplotype of the B lymphoblast was generated following stimulation of VSV-immune F1 T cells. B lymphoblasts activated VSV-specific memory CTL which expressed the Lyt-1-23+, AsGM1+ phenotype without activating natural killer and/or lymphokine-activated killer cells. The ability of B lymphoblasts to function as efficient APC was not related to enhanced viral replication in these cells because potent VSV-specific proliferative and class I-restricted CTL responses were induced by B lymphoblasts infected with VSV rendered noninfectious by exposure to ultraviolet (uv) light. This indicates that activated B cells can efficiently process and present input virion protein. Purified splenic B cells that were not activated by mitogen stimulation did not function as APC for VSV even at high multiplicities of infection. The failure of B cells to function as APC for VSV was related to inefficient uptake of VSV and their inability to provide accessory cell signals required for T-cell proliferation; both these functions developed following mitogen stimulation. These data suggest that activated B cells may function as a potent APC population for virus independent of the specificity of their immunoglobulin antigen receptor.     

Mechanism of mastocytoma-mediated suppression of lymphocyte reactivity.

Previously we have shown that mitomycin-treated P-815 (H-2d) cells (P-815m) inhibit the in vitro response of C57BL/6 spleen cells to mitogens and DBA/2 alloantigens. The present data indicate that P-815m cells also inhibit the response of C57BL/6 spleen cells to AKR (H-2k)-stimulating cells and that the inhibition does not appear to be the result of crowding. Subpopulations of spleen cells obtained by density gradient centrifucation or after renoval of glass-adherent cells are all sensitive to the inhibitory effects of P-815m. We also show that P-815m cells appears to operate both in vitro and in vivo. The experiments characterize the suppression of MLC reactivity by cell-free preparations of sonicated P-815 mastocytoma cells. The results suggest that the inhibition is not removed by ultracentrifugation, ultra-violet irradiation, or dialysis of the sonicate. P-815 sonicates subjected to chloroform extraction, heating at 56 degrees C, 0.1 mu filtration, or treatment with anit-minute virus of mice serum are still inhibitory. This inhibition is resistant to RNAase treatment but destroyed by pronase. P-815 sonicate suppresses the response of C57BL/6 spleen cells to both DBA/2 and AKR-stimulating spleen. Inhibition of MLC reactivity is only seen if P-815 sonicate is added within the first 48 hr after the initiation of culture. These results indicate that the inhibition of MLC by sonicates of P-815 cells is due to a nondialyzable protein whose effects are not H-2 restricted and are acting on the early phase of sensitization.     

Humoral mechanisms of in vitro inhibition of mouse lymphocyte immunoreactivity by mastocytoma P815 cells

The inhibitory capacity of mastocytoma cell line P815 and its cultural supernatant (CS) was studied in the reaction of blast transformation (RBT) and mixed lymphocyte culture (MLC). An addition of both P815 cells and CS resulted in dose-dependent inhibition of lymphocyte proliferation in RBT and MLC. The treatment of DBA/2 spleen cells with CS for 2 h at 37 degrees C resulted in a significant decrease in proliferative activity and induction of supressor cells.     

Development of CD8+ effector T cells is differentially regulated by IL-18 and IL-12

We investigated the effects of IL-18 on the development of CD8+ effector T cells in DBA/2 anti-BDF1 whole spleen cell MLC and compared the results with those of IL-12. Addition of IL-18 to the MLC resulted in a twofold increase in CD8/CD4 ratios compared with the control cultures when cells were expanded in IL-2-containing medium following MLC. Purified CD8+ T cells recovered from the IL-18-stimulated MLC produced 20- to 30-fold more IFN-gamma after secondary stimulation with C57BL/6 spleen cells or anti-CD3 mAb, and exhibited strong allospecific CTL activity. Neither IL-18 nor IL-18-supplemented culture supernatants from DBA/2 anti-BDF1 MLC induced type I CD8+ effector T cells when purified CD8+ T cells were used as responder cells in primary MLC. Furthermore, CD4+ T cell depletion from the responder cells abrogated the IL-18-induced increase in secondary IFN-gamma production by CD8+ T cells, suggesting that IL-18-induced type I effector CD8+ T cell development was CD4+ T cell dependent. In marked contrast, adding IL-12 to primary MLC decreased CD8/CD4 ratios by 50% and suppressed secondary IFN-gamma production and CTL activity by CD8+ T cells regardless of concentration, whereas Th1 development was promoted by IL-12. Moreover, both IL-12 and IL-18 efficiently induced type I CD8+ effector T cells in C57BL/6 anti-BDF1 MLC. These findings show that IL-18 plays an important role in the generation of type I CD8+ effector T cells, and further suggest that functional maturation of CD8+ T cells is differentially regulated by IL-18 and IL-12.     

Limiting dilution analysis of alloantigen-reactive T lymphocytes. III. Effect of priming on precursor frequencies.

The effect of specific priming with alloantigens on the frequency of cytolytic T lymphocyte precursors (CTL-P) has been investigated. Alloimmune lymphoid cells were obtained from the spleen of C57BL/6 (H-2b) mice primed with DBA/2 (H-2d) tumor cells or from 14-day unidirectional mixed leukocyte cultures (C57BL/6 anti-DBA/2). CTL-P frequencies directed against H-2d alloantigens were estimated by limiting dilution analysis in a sensitive micro MLC system. Under these conditions, an apparent increase of 3 to 4-fold in CTL-P frequency was observed in alloimmune (as compared with normal) C57BL/6 spleen cells. Evidence was obtained suggesting that this increase was specific for the priming alloantigens. A much greater increase in CTL-P frequency (25 to 100-fold) was observed after alloimmunization of C57BL/6 spleen cells in unidirectional MLC. Under the latter conditions, 5 to 20% of the surviving splenic MLC cells could be identified operationally as CTL-P. A similar enrichment in CTL-P frequency was obtained when lymph node, peripheral blood, or thymus cells were cultured for 14 days in MLC. These studies provide direct evidence that the pool of specific CTL-P can be expanded after alloimmunization. Furthermore, the very high frequencies observed after in vitro priming indicate that this system should be particularly useful for future studies of the progeny of individual CTL-P.