Mechanisms of in vivo generation of cytotoxic activity against allograft: 1. Local differentiation of mature cytotoxic T lymphocytes in rejection of allogeneic lymphocytes

Although cytotoxic activity was not detected within the spleen and regional lymph nodes from mice immunized sc with allogeneic lymphocytes, such activity was detected consistently in glass-nonadherent and anti-θ-sensitive peritoneal exudate cells (PE cells) from Day 5 after immunization and reached a maximum by Day 7. Immunized spleen cells developed cytotoxic T lymphocytes (CTLs) earlier and more effectively than normal spleen cells when transferred ip into X-irradiated syngeneic normal mice together with immunizing antigen, while they did not become cytotoxic when transferred without antigen. These results suggest that spleen and lymph node cells which may have differentiated into some transitional state by in vivo immunization may differentiate into mature CTLs, following direct contact with antigen at the site of graft. CTLs generated there appear to be responsible for the rejection of allogeneic lymphocytes. Cytotoxicity of PE cells was also generated in X-irradiated mice and augmented cytotoxicity was generated by treatment with cyclophosphamide.     

Effect of L-ornithine on proliferative and cytotoxic T-cell responses in allogeneic and syngeneic mixed leukocyte cultures

The effect of L-ornithine on cytotoxic and proliferative responses in mixed leukocyte cultures has been analyzed. The activation of cytotoxic T lymphocytes (CTL) was strongly inhibited when 9 X 10(-3) M L-ornithine was added at the initiation of the cultures. The CTL precursor cells were not completely and irreversibly inactivated, however, since the cells generated normal cytotoxic activity if resuspended after 6 days in fresh culture medium together with a fresh set of stimulator cells. Experiments in microcultures with nylon-wool-nonadherent T-cell-enriched spleen cells as responder cells and "plastic adherent cells" as stimulator cells revealed that the cytotoxic responses were almost completely suppressed if ornithine was added within the first 20 hr but were only partially suppressed if ornithine was added after 48 hr. Also, ornithine had only a mild suppressive effect on proliferative responses in allogeneic and syngeneic mixed leukocyte cultures. The strong suppressive effect of the cytotoxic response was therefore not explained by a general toxic effect of L-ornithine on the responding cells in the culture. The addition of interleukin 2 (IL-2)-containing EL-4 supernatants did not prevent but rather enhanced the suppressive effect of L-ornithine. This indicated that the inhibitory effect was not (exclusively) expressed at the level of the IL-2-producing helper T cells. Since activated macrophages have been reported to secrete arginase, it appears that L-ornithine may be part of a regulatory circuit that selectively regulates the development of cytotoxic effector T cells.     

Trypanosoma cruzi: Responses by cells from infected mice to alloantigens

In unidirectional mixed lymphocyte cultures containing (as responders, stimulators, or regulators) spleen cells from mice infected with Trypanosoma cruzi, alloantigen responses were less than in cultures containing normal spleen cells only. Depletion of plastic adherent cells from infected spleen cells (stimulators or regulators) reversed their inhibitory effect on normal spleen cells (responders); removal of adherent responder cells and/or B lymphocytes did not alter the low alloantigen responses of normal spleen cells (stimulated by infected spleen cells) or infected spleen cells (stimulated by normal spleen cells). Infected spleen cells were effective in regulating mixed lymphocyte cultures only when added at the initiation of the culture. Serum from infected mice suppressed mixed lymphocyte cultures containing responder spleen cells syngeneic to the serum donor if added up to 24 hr after initiation of cultures, whereas the “suppressor serum” had to be present at the initiation of cultures when responder cells were allogeneic to the serum donor. Cultures of infected spleen cells (whole or macrophage enriched) produced a factor which was suppressive when added to mixed lymphocyte cultures containing syngeneic responder cells at initiation. It is proposed that the serum suppressor substance regulates cell-mediated immune responses directly by suppressing the response-potential of cells and indirectly by triggering the release of a factor from adherent splenic cells which induces a hyporesponsive state in T lymphocytes.     

Antigen-specific protection against graft-vs-host induced immune deficiency

A severe, antigen-nonspecific, and long-lasting immune-deficient state can be induced in healthy, adult immune-competent F1 hybrid mice by a single i.v. injection of parental T lymphocytes. The present report demonstrates that this graft-vs-host-induced immune deficiency (GVHID) can be prevented in an antigen-specific way by immunization of the F1 mice with allogeneic cells before induction of GVHID. Thus, spleen cells from (A X B)F1 mice primed with allogeneic cells from strain C and then injected with parental spleen cells from A did not generate cytotoxic T lymphocyte responses to trinitophenyl-modified self cells or to allogeneic cells from third party strains D or E. However, spleen cells from the same mice generated normal levels of cytotoxic T lymphocyte activity to allogeneic cells from C, the strain used for immunization. Furthermore, mice exposed to murine cytomegalovirus before induction of GVHID were resistant to a subsequent challenge with murine cytomegalovirus, whereas GVHID mice that received only the murine cytomegalovirus challenge all died. These findings are discussed with respect to the possibilities that primed and unprimed T helper cells may be differentially susceptible to the suppressive effects of GVH.     

Allogeneic recognition and killing capacity of immune macrophages in mixed macrophage cultures (MMC).

Stimulation of DNA and RNA synthesis did not occur in mixed macrophage cultures (MMC) consisting of macrophages growing in different allogeneic combinations, compared with syngeneic cultures. Incubation of immune macrophages with either macrophages bearing those alloantigens used for immunization or unrelated alloantigens led to suppression of ³HTdR incorporation. Specific killing, studied by ⁸⁶Rb uptake, was effected by immune macrophages growing in contact with target macrophages bearing the sensitizing alloantigens. Repeated immunization was found to be important for optimal macrophage cytotoxic capacity. Cell crowding was important for maximum killing effect, and no killing occurred when immune macrophages were separated from the specific allogeneic target cells. Immune spleen cells were capable of arming nonimmune macrophages and rendering them cytotoxic. This suggests that macrophage cytotoxicity may be due to a product(s) derived from lymphocytes and attached to the macrophage surface.     

Abrogation of the capacity of delayed-type hypersensitivity responses to alloantigens by intravenous injection of neuraminidase-treated allogeneic cells

BALB/c or C3H/He mice were inoculated i.v. with allogeneic spleen cells untreated or treated with neuraminidase. Appreciable or potent anti-allo-delayed-type hypersensitivity (DTH) responses were observed when mice were inoculated i.v. with untreated allogeneic cells or inoculated i.v. with those cells followed by s.c. immunization with untreated allogeneic cells. In contrast, i.v. inoculation of neuraminidase-treated allogeneic cells (presensitization) not only failed to induce any significant anti-allo-DTH responses but also abolished the capability of the animals to develop DTH responses after s.c. immunization, indicating the tolerance induction. This tolerance was alloantigen-specific, and rapidly inducible and long lasting. The induction of suppressor cell activity was demonstrated in tolerant mice. However, this activity was associated only with the tolerant state around 4 to 7 days after the i.v. presensitization, but was no longer detected in mice more than 14 days after the presensitization, although these mice exhibited complete tolerant state. When spleen cells from such tolerant mice were transferred i.v. into 600 R x-irradiated syngeneic recipient mice alone or together with normal syngeneic spleen cells, these tolerant spleen cells themselves failed to induce DTH responses but did not exhibit suppressive effect on the generation of DTH responses induced by normal spleen cells co-transferred. These results indicate that i.v. administration of neuraminidase-treated allogeneic cells results in the induction of alloantigen-specific tolerance which is not always associated with the induction of suppressor cell activity but rather with the elimination or functional impairment of alloantigen-specific clones.     

Induction of suppressor cells in autologous mixed lymphocyte culture (AMLC) in humans

T cells stimulated for 6-7 days in autologous mixed lymphocyte culture (AMLC) showed suppressive effects when added to fresh mixed cultures where autologous lymphocytes (A) were stimulated by Mitomycin C-treated allogeneic lymphocytes (Xm), in a ratio of A:Xm:AMLC-activated cells of 1:1:0.5. Both cytotoxic and proliferative activities in second cultures, as assayed after 6 days of incubation, were significantly inhibited (percentage suppression of cytotoxic activity observed in 17 experiments was 75.3 +/- 22.4; percentage suppression of proliferation was 60.6 +/- 18.2). Suppressor cells (SC) generated in AMLC were Mitomycin C sensitive and nonspecific in their action; not only A/Xm but also X/Am and X/Ym cultures were suppressed to the same extent. AMLC-Activated cells showed a considerable degree of proliferation in response to alloantigens but failed to express any cytotoxic activity against autologous or allogeneic phytohemagglutinin blasts. Thus, the inhibitory effect observed in this system is not due to cytotoxic elimination of responding or stimulating cells in the second culture but rather reflects a true regulatory (suppressive) mechanism.     

Cell types required for H-2-restricted cytotoxic responses generated by trinitrobenzene sulfonate-modified syngeneic cells or trinitrophenyl-conjugated proteins.

Murine spleen cells were fractionated over nylon wool or Sephadex G-10 columns, and the cell types involved in the generation of trinitrophenyl (TNP)-specific, H-2 restricted (TNP-self) cytotoxic effector cells were studied from cultures stimulated with trinitrobenzene sulfonate (TNBS)-modified syngeneic cells, TNP-conjugated soluble proteins such as bovine gamma-globulin (TNP-BGG), or bovine serum albumin (TNP-BSA). Unfractionated or nylon nonadherent responding cells generated such effectors, irrespective of whether the cultures were stimulated with TNBS-modified cells or TNP-conjugated proteins. TNP-modified T lymphocytes, B lymphocytes, and phagocyte-enriched spleen cells were all capable of stimulating TNP-self effectors. TNP-self effectors. TNP-self as well as allogeneic cytotoxic responses were dependent on the presence of a radioresistant non-T cell that was removed by Sephadex G-10 fractionation and was replaced by irradiated, Thy 1.2-negative, glass adherent spleen cells, enriched in phagocytic cells. Results obtained by using glass adherent cells that were allogeneic or semi-syngeneic to the responding cells indicated that H-2 homology was not required for efficient glass adherent cell function, and that the H-2 restriction of TNP-self effectors is not determined by these glass adherent cells.     

Induction of CTL responses to alloantigens by a Db-specific T helper clone

A T cell helper clone was derived 2 yr ago from a mixed lymphocyte culture. This clone, referred to as clone 9, was propagated in interleukin 2 (IL 2)-containing medium in the presence of irradiated stimulator and irradiated syngeneic spleen cells. Clone 9 was of H-2d origin and was found to be Thy-1+ and Lyt-1-2-. Clone 9, as well as supernatant factor(s) derived from it, were able to enhance the primary cytotoxic responses of Db responder cells to alloantigens. Furthermore, clone 9 cells or its factor(s) were only active when added during the first 24 hr of a 5-day culture period. When a low stimulator cell dose (10(4) cells per 0.2 ml culture) was used, it was possible to demonstrate that clone 9 also required a source of irradiated allogeneic splenic accessory cells to exert its helper action. Under these conditions, clone 9 or its factor(s) could also synergize with IL 2-containing medium in mounting cytotoxic responses to alloantigens. Synergy between IL 2-containing medium and clone 9 or its factor(s) was observed only when Db responder cells were used. The helper activity in clone 9 supernatant was also specifically absorbed out by Con A-stimulated Db spleen cell blasts. Preincubation with clone 9 supernatant for 1 hr at room temperature also led to enhanced cytotoxic responses of Db responder cells to alloantigens. Clone 9 supernatant was also found to be devoid of detectable IL 2 activity. Thus, clone 9 or its helper factor(s) appear to exert its helper activity by an early interaction with Db cytotoxic T lymphocyte precursors (CTL-P).     

Nitric oxide production in murine spleen cells: role of interferons and prostaglandin E(2) in the generation of cytotoxic activity

The production of nitric oxide (NO) was measured in cultures of spleen cells stimulated by lipopolysaccharide (LPS), IL-2 or LPS + IL-2. We observed that NO synthesis is increased by IFN-gamma but inhibited by IFN-alpha/beta. This is not the case when IL-2 is present in the cultures, since interferons play a minor role in the regulation of the NO production. When IL-2 and LPS were associated in the cultures, the IFN-alpha/beta role seems more important than that of IFN-gamma. PGE(2) inhibits NO production in LPS supplemented cultures but has a slight effect in the presence of IL-2 and no effect with IL-2 + LPS. 3-isoButyl-1-methylxanthine (IBMX), an inhibitor of phosphodiesterases, induces a decrease of IFN production. In the presence of H-7, an inhibitor of protein kinase C (PKC), NO production is reduced when the cultures are supplemented by LPS or IL-2 but not when IL-2 and LPS are both added. H-7 also reduced IFN production. In the presence of N(G)-monomethyl-L-arginine (N-MMA), an inhibitor of NO synthesis, IFN production was increased, with no change in the cytotoxic activity. Hence, interferons regulate NO production by mouse spleen cells and, in return, NO modulates the generation of IFN.     

Activation of nonspecific killer cells by interleukin 2-containing supernatants

In the absence of specific antigen stimulation, nonspecific killer cells were induced by culturing C57BL/6 lymph node or spleen cells with interleukin 2-containing supernatants. These supernatants were obtained from stimulation of either rat spleen cells with concanavalin A or a variant of the T cell lymphoma, EL4 (H-2b) with phorbol myristic acetate. The ability of the EL4 supernatant to induce nonspecific killer cells was abrogated by absorption with an interleukin 2-dependent T cell line or by concanavalin A-stimulated spleen cell blasts, but not by lipopolysaccharide-stimulated spleen cell blasts or by a non-interleukin 2-producing EL4 line. Partially purified interleukin 2 from EL4 supernatants could also support nonspecific killer cell induction. The induction of cytolytic cells by interleukin 2 is sensitive to gamma-irradiation and has a D omicron of 120 rad. The nonspecific killer cells induced are likely cytotoxic T lymphocytes; the majority of the precursor and effector cells bear the Thy-1 alloantigen marker. These nonspecific killer cells killed a broad spectrum of target cells, including concanavalin A- and lipopolysaccharide-induced splenic blasts of syngeneic or allogeneic mice, a syngeneic tumor, and a cloned allogeneic cytotoxic T cell line. The frequency of precursors for nonspecific killer cells in C57BL/6 lymph node and spleen cells are 1/7000 and 1/12,000, respectively. Clonal analyses revealed that these nonspecific killers exhibit heterogeneity with respect to their target cell specificities. The induction of nonspecific killers by interleukin 2-containing supernatants is partially dependent on nylon wool-adherent cells; in antigen-stimulated cultures the most specific killer cells were obtained from cultures in which nylon wool-nonadherent lymph node responder cells were stimulated with nylon wool-nonadherent allogeneic splenic stimulator cells that were treated with anti-Thy-1 antibody and complement. The relevance of these findings with respect to the frequencies and fine specificities of cytotoxic T lymphocytes generated in interleukin 2-supplemented cultures is discussed.     

Asialo-GM1+ natural killer cells directly suppress antibody-producing B cells

Natural killer (NK) cells were tested for their ability to suppress antigen-induced antibody responses in vitro. Asialo-GM1+ (ASGM1+) cells were prepared from nylon-wool-nonadherent spleen cells obtained from normal mice. After depletion of Ig+, L3T4+ and Lyt-2+ cells, the ASGM1+-enriched cell population had high NK activity which was abrogated by treatment with anti-ASGM1 and C'. This NK-enriched ASGM1+ cell fraction significantly suppressed the generation of antibody-producing cells when added to in vitro immunization cultures of primed spleen cells. Treatment of the NK-enriched cell population with anti-ASGM1 and C' abrogated the ability of these cells to suppress antibody responses. In vitro antibody production by purified B cells was also suppressed in the presence of the NK-enriched cell population, although the kinetics of the suppression differed from that observed with unfractionated spleen cells. In addition, the NK-enriched cell population suppressed the proliferation of the B cell line WEHI-279.1. Suppression of WEHI-279.1 cells was abrogated when the NK-enriched cell population was treated with anti-ASGM1 and C'. These results suggest that normal NK cells suppress the generation of antibody-producing B cells and that this occurs, at least in part, through a direct regulation of the B cell.     

In Vitro Reconstitution of Anti-Sheep Erythrocyte Antibody Response of T Cell-Depleted Spleen Cells by Allogeneic T Cells or by Factors Derived from Them

Restoration of the impaired antibody response to sheep erythrocytes (SRBC) in cultures of mouse spleen cells, which were deprived of thymus-derived lymphocytes (T cells) by treatment with anti-mouse brain-associated θ (BAθ) antiserum and complement, was studied by adding a small portion of syngeneic or allogeneic normal spleen cells in vitro. Allogeneic spleen cells had a far greater effect than syngeneic spleen cells on the restoration, as far as the normal spleen cells added were able to recognize the alloantigens on the anti-BAθ serum-treated spleen cells (bone marrow-derived lymphocytes). Treatment of the allogeneic spleen cells with mitomycin C did not affect their activity in the restoration of the impaired antibody response. The possibility that the role of T cells in the antibody response to SRBC may be replaced by a nonspecific mediator derived from T cells reacting with allogeneic cells was proven by the finding that supernatant of the mixed allogeneic spleen cell cultures restored the impaired anti-SRBC antibody response of the T cell-depleted spleen cells. The effect of such culture supernatant on the restoration of the antibody response was greatest when it was added to the T cell-depleted spleen cell cultures one day after cultivation with SRBC, suggesting that the effectiveness may result from triggering of the proliferation and differentiation of antibody-forming cell precursors, which have already reacted with the antigen, to antibody-forming cells.     

Analysis of the negative allogeneic effect using B cells and helper T cell lines as an indicator system: B cells identified as target cells for suppression

The target cells for H-2b T lymphocytes mediating a negative allogeneic effect in vitro were analyzed by using carrier-specific helper T cell lines of H-2b, H-2d, or F1 origin and hapten-primed T-depleted spleen cells also expressing one or both of these haplotypes. The helper T cell lines were shown to be carrier specific and H-2b or H-2d restricted. Most importantly, the lines derived from H-2b homozygous mice were devoid of alloreactivity against H-2d and vice versa. Titration of naive H-2b T lymphocytes to the indicator cultures resulted in suppression of the secondary anti-DNP response of the indicator cells whenever the B cells expressed H-2d antigens. The lack of suppression observed in mixtures in which only the helper T cell lines expressed H-2d antigens was not reversed by the increased addition of naive H-2bxd cells, indicating that an insufficient amount of H-2d antigens present on the low number of helper T cells used did not account for this finding. Moreover, the polyclonal plaque-forming cell responses of F1 spleen cells to LPS were also suppressed by naive parental T cells. From these findings it is concluded that the suppressor T cells directly recognize and inhibit allogeneic B cells without the involvement of helper T cells. In addition, it was shown that the suppression of secondary anti-hapten responses by naive allogeneic T cells is blocked by monoclonal anti-Lyt-2 antibody added at the onset of culture. Addition late in culture had no effect, pointing to a functional role of the Lyt-2-bearing structure at an early stage of the suppressive events resulting in the negative allogeneic effect.     

Mechanisms of strain-dependent development of mast cells from mouse splenocytes

Mast cell development from spleen cells was not triggered by prostaglandin E1 (PGE1) or dibutyryl cAMP (db-cAMP) during a 12 day culture when the spleen cells were obtained from C57BL/6N and DBA/1 mice, but mast cells did develop when the spleen cells were obtained from C3H/HeN, BALB/c and ICR mice. A lack of endogenous IFN-gamma in the initial 2 days of the culture period was responsible for the failure. This was confirmed by adding neutralizing anti-IFN-gamma antibody and rIFN-gamma to the cultures and by determining IFN-gamma levels in the spleen cell cultures. Th1 cells in the spleens of C57Bl and DBA/1 mice were much more sensitive to PGE1 and db-cAMP than Th1 cells from other inbred mice strains, and consequently, IFN-gamma production was inhibited in spleen cell cultures of C57BL and DBA/1 mice on addition of PGE1 or db-cAMP. Furthermore, the different sensitivities of Th1 cells to PGE and db-cAMP were dependent on the different levels of IL-12 p40 monomers or homodimers in the spleen cell cultures. As the endogenous specific inhibitors of IL-12 p70 (heterodimers of p40 and p35), large amounts of IL-12 p40 monomers or homodimers in the spleen cell cultures of C57BL and DBA/1 mice enhanced the ability of PGE1 and db-cAMP to inhibit IFN-gamma production by antagonizing the activity of IL-12 heterodimers. These results indicate that the strain-dependent development of mast cells from mouse splenocytes is related to endogenous IFN-gamma levels, which are regulated by PGE, db-cAMP, IL-12 p70 and IL-12 p40.     

Effects of lymphokines and immune complexes on murine placental cell growth in vitro

Isolated murine placental cells obtained at Day 16 of allogeneic gestation (C3H x DBA/2J) were cultured for 3 days alone or in coculture with irradiated mouse splenocytes at the end of which 3H-thymidine was added for an additional 18-h culture to assess cell proliferation. Placental cell proliferation was significantly enhanced at spleen cell:placental cell ratios of 10:1 and 25:1 above that observed in the absence of added spleen cells. The stimulatory effect of irradiated allogeneic (C3H plus Balb/cJ) spleen cell cultures was significantly greater (approximately 2-fold) than that of isogeneic spleen cells (C3H alone). Conditioned medium from murine spleen cells cultured with concanavalin A (ConA) to induce lymphokine production had dose-dependent inhibitory effects on proliferation when added to placental cell cultures over a range of concentrations from 10 to 40% (vol:vol). Addition of pseudo "immune complexes" in the form of heat-aggregated human gamma globulin (AHGG) to culture medium failed to alter placental cell proliferation over a range of concentrations from 2 to 200 micrograms/ml either in the absence or presence of ConA-conditioned medium. In contrast to late-gestational stage placental cells, cell suspensions obtained from Days 8-9 murine ectoplacental cone (EPC) outgrowths, or from earlier stage placentas (Days 12-14) responded to low concentrations of conditioned medium from ConA-stimulated splenocytes with increased proliferation. The effect was less impressive on placental cells at gestational ages later than 12 days than on earlier stage preparations. On all placental cell suspensions tested, as well as EPC cells, a clear-cut inhibition of growth was observed at high doses of conditioned medium.(ABSTRACT TRUNCATED AT 250 WORDS)     

Heterologous antibody responses in mice with chronic T. cruzi infection: depressed T helper function restored with supernatants containing interleukin 2

Antibody production to sheep erythrocytes (SRBC) or hapten-conjugated SRBC (TNP-SRBC) was studied in mice with chronic Trypanosoma cruzi infections. Studies in vivo demonstrated that both IgM and IgG anti-SRBC responses were suppressed during chronic infection. Secondary IgG responses were suppressed regardless of whether the primary immunization was given before or after infection. The ability of cells from infected mice to provide help for antibody production was examined in vitro. Anti-SRBC responses were restored to cultures of whole spleen cells from infected mice by the addition of interleukin 2 (IL 2)-rich supernatants, indicating that these cells were capable of antibody production when sufficient help was provided. T cells from SRBC-primed infected mice were unable to provide significant help to normal B cell/M phi cultures for in vitro anti-TNP or anti-SRBC responses. The percentages of Thy-1+, Lyt-1+, and Lyt-2+ spleen cells were not significantly different between normal and infected mice. Anti-TNP and anti-SRBC responses were restored to cultures that contained T cells from infected mice and normal B cell/M phi by the addition of IL 2-rich spleen cell supernatants. The suppression of in vitro antibody responses in mice with chronic T. cruzi infections was associated with a lack of T cell help, which was provided by exogenous spleen cell supernatant.     

Continuously proliferating T killer cells specific for H-2b targets: selection and characterization.

BALB/c (H-2d) thymus-derived lymphocytes sensitized to C57BL/6 (H-2b) alloantigens have been propagated in vitro for over 9 months. These T lymphocytes are specifically cytotoxic to H-2b target cells but are stimulated to proliferate by both H-2b and H-2k spleen cells. This indicates that for these selected cells the antigen requirements for cell proliferation are different from those for cell-mediated cytotoxicity. If not continuously stimulated with allogeneic spleen cells, the cytotoxic cultures fail to divide and rapidly lose their cytotoxic activity. Allogeneic erythrocytes do not stimulate cell proliferation in "quiescent" cell cultures and allogeneic tumor cells do so only in the presence of spleen cells. However, "quiescent" cell cultures display cytotoxicity in the presence of phytohemagglutinin A as do cell cultures which have lost their cytotoxic activity although they proliferate upon allogeneic stimulation. The significance of these findings is discussed.     

Regulation of B cell tolerance by macrophage-derived mediators: antagonistic effects of prostaglandin E2 and interleukin 1

A role for prostaglandins in the mechanism of B cell tolerance induction in normal adult mouse spleen cells was examined. Two inhibitors of the cyclooxygenase pathway of arachidonic acid metabolism, indomethacin and acetylsalicylic acid, abrogated hapten-specific B cell tolerance induction by trinitrophenyl-human gamma-globulin. Tolerance was fully restored by the addition of prostaglandin E2 (PGE2) at a concentration of greater than or equal to 6 nM. T cell-depleted spleen cells produced comparable amounts of PGE2 in culture, indicating that the tolerance promoting activity of PGE2 occurred with physiologically relevant concentrations. Depletion and reconstitution experiments indicated that macrophages in the spleen cell preparations completely accounted for both PGE2 production and the effects of indomethacin and acetylsalicylic acid on B cell tolerance induction. The macrophage product interleukin 1 (IL 1) was also found to alter B cell susceptibility to tolerance induction. Thus, human IL 1 containing monocyte supernatants and purified IL 1 were found to interfere with B cell tolerance induction when added to macrophage- and T cell-depleted splenic B cells. Tolerance was restored in such cultures by the addition of 10 nM PGE2. These experiments demonstrate that within mixed lymphoid populations macrophages through the release of mediators modulate B cell susceptibility to tolerance induction.     

Inhibition of human B cell responsiveness by prostaglandin E2

The capacity of prostaglandin E2 (PCE2) to modulate human peripheral blood B cell proliferation and the generation of immunoglobulin-secreting cells (ISC) stimulated by Cowan 1 strain Staphylococcus aureus and mitogen-stimulated T cell supernatant was examined. PGE2 significantly inhibited both responses, whereas PGF2 alpha had no inhibitory effect. Responses of highly purified B cells obtained from spleen, lymph node, and tonsil were also inhibited. In addition PGE2 suppressed B cell responses supported by recombinant interleukin 2 rather than T cell supernatant. PGE2-mediated inhibition was mimicked by forskolin, a direct activator of adenylate cyclase. Kinetic studies indicated that PGE2 inhibited B cell responses by a progressively greater increment as cultures were prolonged. Evaluation by flow cytometry after staining with acridine orange or mithramycin indicated that PGE2 had no effect on initial B cell entry into the G1 phase of the cell cycle, passage through G1, and entry into S, G2, and M. Rather, PGE2 inhibited responses of postdivisional daughter cells. PGE2 inhibited responses in cultures stimulated by the calcium ionophore ionomycin and T cell supernatant but had minimal effects in cultures stimulated by the combination of ionomycin and phorbol myristate acetate. Moreover, phorbol myristate acetate reversed PGE2-mediated inhibition of proliferation stimulated by S. aureus or S. aureus + T cell supernatant. These results indicate that PGE2 suppresses the continued growth and differentiation of human B cells, although it has no effect on initial B cell activation and suggest that PGE2 may play a role in regulating human B cell responses in vivo.