Regulation of the in vitro anamnestic antibody response by cyclic AMP: I. Antigen-induced uptake of nucleotides and nucleosides by lymphocytes

Addition of N⁶, O²′-dibutyryl cAMP (DbcAMP) to keyhole limpet hemocyanin (KLH)-primed rabbit lymph node cells for 1 hr, followed by its removal and the addition of KLH, had no effect on the subsequent antibody response, whereas addition of KLH for 1 hr followed by DbcAMP resulted in a 100% enhancement of antibody synthesis. Addition of cholera enterotoxin (CT), which rapidly and irreversibly binds to lymphocytes and activates adenylate cyclase, either before or after the addition of antigen, elevated the antibody response by 100%. These results suggested that some antigen-induced event(s) may be required for DbcAMP to exert its enhancing effects on the antibody response. The effect of KLH on the uptake of DbcAMP by KLH-primed lymph node cells was investigated. One and one hundred micrograms of KLH, which induce optimal and supraoptimal antibody synthesis, respectively, promoted maximal uptake of DbcAMP. This induced uptake was first detectable about 12 hr after addition of KLH, and it peaked during 24–48 hr of culture. DbcAMP uptake induced by a brief exposure of KLH (0–1 hr) was equivalent to that observed with long-term KLH addition (0–24 hr). KLH-induced DbcAMP uptake required KLH-reactive lymphocytes and represented active transport. Antibody to rabbit T lymphocytes inhibited this antigen-induced uptake. The mitogens concanavalin A (Con A) (T cells) and goat anti-rabbit Fab' (anti-Fab') (B cells) also stimulated DbcAMP uptake, as did human serum albumin (HSA) and myoglobulin (Mb) when added to homologously primed cells, indicating the generality of the phenomenon. [³H]DbcAMP entered the cells as di- or monobutyryl cAMP with about 40% metabolized to 5′AMP. This uptake could be competitively inhibited by other adenine or guanine nucleotides and nucleosides.     

Cellular interactions in lymphocyte proliferation: effect of syngeneic and xenogeneic macrophages.

Secondary cell-mediated responses to ectromelia virus infection were studied using an in vitro system. Lymphoid “responder” cells from mice which had recovered from intravenous primary infection at various times prior to sacrifice, were cultured with syngeneic, virus-infected macrophages or spleen cells as “stimulator” cells at 39 °C, a temperature which prevented the virus from exerting cytopathic effects against responder cells. This restrictive temperature and medium with 2-mercaptoethanol at 10^?4M often gave viable cell yields of more than 100% of the original responder cells over 4 days of culture. Preliminary experiments showed that spleen cells from primed mice, cultured with syngeneic, infected spleen cells from normal mice gave the most powerful secondary cytotoxic cell responses as measured by ⁵¹Cr release from virusinfected H-2-compatible target cells. The cytotoxic cells were sensitive to anti-θ and complement treatment and lysed H-2-compatible, virus-infected target cells much more efficiently than infected, allogeneic target cells, thus indicating that they were T cells. Some activity against uninfected H-2-compatible target cells was also generated, but this was largely independent of the presence of virus-induced antigen, (i.e. infected stimulator cells were unnecessary) and therefore seemed to be a consequence of the cultural conditions. Cold target competition showed that this activity was the responsibility of a T cell subset separate from the virus-specific cytotoxic T cells. The peak of cytotoxic activity against virus-infected targets occurred at 4 days of culture and DNA synthesis was maximal on day 3. The concentration of cytotoxic T cells at the peak was eight-fold higher than at the peak of the splenic primary response in vivo, Memory T cells (precursors of secondary cytotoxic T cells) appeared in spleen within 12–14 days of primary infection in vivo, reached a plateau at 5–6 weeks and persisted for at least 16 months. Spleen cells appeared partly refractory to secondary stimulation in vitro at 8–10 days post-priming. This did not seem to be due to cellular migration from spleen to lymph nodes or peritoneal cavity, but its cause was not determined. Primary responses in vitro were not detectable under conditions optimal for secondary responses, thus suggesting a major quantitative, or qualitative difference between virgin and memory T cells.     

Primary in vitro antibody response of rabbit lymphoid cells and T-B cell collaboration in the absence of detectable mitogens

To investigate whether the antibody response and T-B-cell collaboration in vitro can be obtained in the absence of mitogens, a method of obtaining an in vitro primary anti-sheep red blood cell antibody response by rabbit spleen and lymph node cells was developed. We used Marbrook culture vessels and a specially prepared medium containing 10% autologous serum and maintained at pH 7.4–7.6. The system was shown to be devoid of any polyclonal mitogens as assessed by [³H]thymidine incorporation and by direct examination for blast cells in stained smears. The primary response increased continuously over the 5-day cultivation period and only IgM but not IgG plaque-forming cells (PFC) were detected. In over 20 experiments, the response ranged from 357 ± 17 to 4425 ± 110 PFC/10⁷ cultured cells with a median stimulation index of 52. The spleen cells required less antigen than the lymph node cells and 2-mercaptoethanol inhibited the response of the spleen cells but not that of the lymph node cells. Lymphocytes were separated into highly pure T- and B-cell populations by negative selection using antibody-coated human erythrocytes to rosette either T or B cells and Ficoll-Hypaque centrifugation to remove rosetted cells. Upon cultivation, B cells alone gave a low IgM response, whereas B cells reconstituted with T cells gave a response similar to that obtained with unseparated lymphoid cells. We concluded that: (a) optimal conditions for obtaining primary in vitro antibody responses using rabbit spleen and lymph node cells were established, (b) T-B-cell collaboration was demonstrated in the rabbit primary antibody response to sheep erythrocytes, and (c) the primary antibody response in vitro and T-B-cell collaboration may occur in the absence of detectable polyclonal mitogens.     

Selective protection of murine thymic helper T cells from glucocorticosteroid inhibition by macrophage-derived mediators

We investigated the in vitro effects of dexamethasone (DEX) on the functional capacities of virgin murine T cells cultured in the absence and presence of adjuvant-stimulated macrophages or factors derived from them. Immunologically mature thymocytes, isolated on the basis of their inability to bind peanut agglutinin (PNA^? thymocytes), were used as virgin T cells. Treatment of PNA^? thymocytes with DEX for 24 hr in vitro eliminated their subsequent capacity to function as helper cells for primary humoral responses, to proliferate when stimulated by plant mitogens or allogeneic cells, or to generate T-cell-mediated cytotoxic responses. However, when PNA^? thymocytes were pretreated with DEX in combination with either adjuvant-activated macrophages or their culture supernatants, which contained Interleukin 1, the capacity of the T cells to subsequently express helper activity was preserved. The macrophage products, however, did not prevent DEX from inhibiting the capacities of PNA^? thymocytes to proliferate in response to plant mitogens or alloantigens or to generate cytotoxic effector cells; thus, protection was selective. The data indicate that, prior to activation, helper T cells are distinguished by their capacity to become steroid resistant in response to macrophage products. Although T-cell proliferative and cytotoxic responses have been reported to be protected from DEX inhibition by Interleukin 2, our results suggest that macrophages prevent steroid effects on virgin helper T cells by Interleukin-1-dependent mechanisms that do not involve Interleukin 2. While we have not delineated the biochemical pathways of protection, we show that the acquisition of DEX resistance by helper T cells cannot be attributed to the polyclonal induction of helper activity by macrophage factors.     

Prostaglandin synthesis by lymphoid tissue of mice experiencing a graft-versus-host reaction: relationship to immunosuppression

Studies were carried out on the induction of PGE synthesis during the GVH reaction and its role in GVH-induced immunosuppression. The results demonstrated that spleen, lymph node cells and, to a much lesser degree, thymus cells obtained from adult C57BL/6 × AF₁ mice treated with 50–75 × 10⁶ C57BL/6 lymphoid cells were stimulated to produce PGE during the course of the GVH reaction. The spleen and lymph node PGE production peaked at Day 9 post-GVH induction (30- and 15-fold higher than normal, respectively). Thereafter, it declined to near normal levels by Days 25–30 post-GVH induction. Passage of GVH spleen cells through a rayon column removed macrophages but not mitogen-responsive T and B cells and also removed nearly all of the PGE-producing cells, except during the later course of the GVH reaction. Removal of PGE-producing cells from GVH-immunosuppressed spleen cells significantly reconstituted the mitogen response to PHA and LPS. Treatment of mice experiencing a GVH reaction with indomethacin delayed the onset of suppression of the plaque-forming cell response to sheep erythrocytes. These results suggest that early GVH-induced immunosuppression which may represent an amplified normal regulatory mechanism is mediated by increased macrophage production of PGE which suppresses both B- and T-cell functions, whereas at later stages other immunosuppressive mechanisms become operational.     

Regulation of the in vitro anamnestic antibody response by cyclic AMP. IV. Evidence for participation of prostaglandins of the E series in the early events.

The addition of KLH to KLH-primed rabbit lymph node cell cultures induced an anamnestic antibody response. The further addition of prostaglandins of the E series, but not PGF1^α, enhanced this antibody response manifold. The addition to these cultures of prostaglandin synthetase inhibitors together with KLH inhibited antibody production. At the concentration (10^?4) required to inhibit antibody synthesis, by a variety of criteria one of these inhibitors, indomethacin, was shown not to exert its effects through cytotoxicity. By contrast, two other inhibitors of prostaglandin synthesis, Ro-20-5720 and Ro-3-1314, inhibited antibody synthesis because of their cytotoxicity. The inhibition of the antibody response by indomethacin did not occur when PGE1 or PGE2 was added concurrently to these cultures, clearly showing that inhibition was due to a deficiency of prostaglandins. These findings strongly suggest that induction and/or regulation of the in vitro anamnestic antibody response of KLH-primed lymph node cells to 1 and 100 μg KLH requires continued prostaglandin synthesis. Potential mechanisms for the regulation of the antibody response by prostaglandins are discussed.     

Bromodeoxyuridine and light treatment enhances responsiveness of pokeweed mitogen-stimulated human lymphocytes to autologous and allogeneic determinants

We have investigated a novel system whereby lymphocytes from normal human subjects can be induced to develop exaggerated reactivity to histocompatibility antigens in vitro. Peripheral blood mononuclear cells (PBMC) stimulated with pokeweed mitogen (PWM) showed increased and accelerated subsequent proliferation to both autologous and allogeneic stimulators. Addition of bromodeoxyuridine (BUdR) during the period of maximal PWM-induced DNA synthesis followed by light exposure caused unexpected, but marked enhancement of this secondary proliferation. While untreated cultures contained a preponderance of T8⁺ cells after PWM activation, BUdR plus light-treated cultures were largely T4⁺ cells. Because removal of suppressor cells in nonsuicided cultures with anti-T8 and complement just before restimulation failed to unmask enhanced autoreactivity, events critical in the induction of the enhanced response must have occurred during priming. Cultures of PBMC with medium alone or concanavalin A, as well as purified T cells cultured with PWM, gave no enhanced autoproliferation after BUdR and light; thus T and non-T cells must be acted on by a T- and B-cell mitogenic stimulus to prime T cells for enhanced responsiveness. The interactions between T cells and activated B cells in this in vitro system may be relevant to regulatory mechanisms important in the induction of pathological autoimmune responses.     

Guinea pig T-cell in vitro proliferative responses to tyrosine-azobenzenearsonate-pulsed and azobenzenearsonate-coupled macrophages have different specificities

The cell interactions involved in azobenzenearsonate-N-acetyl-tyrosine (ABA-tyr)-induced delayed hypersensitivity in the guinea pig were studied by in vitro blastogenesis. The ABA-sensitive lymphocyte was demonstrated to be a T lymphocyte and its presence in peritoneal exudate cells was shown to be much higher than spleen or lymph node populations. The secondary response of ABA-sensitized lymphocytes to ABA-tyr in culture is dependent on the presence of an accessory cell, with both splenic and peritoneal macrophages being equally effective. ABA coupled directly to macrophages as an immunogen induced strong responses to itself and not to ABA-tyr-pulsed macrophages or ABA-tyr in solution. The reverse was true in animals, immunized with ABA-tyr. ABA conjugated to thymocytes, L₂C leukemia cells, and guinea pig erythrocytes however, did not elicit significant responses. The results obtained in animals immunized with ABA- or ABA-tyr-modified cells was similar whether or not CFA was used. The difference in specificity shown between ABA-coupled and ABA-tyr-pulsed macrophages favors a single receptor hypothesis for T-cell recognition.     

Effect of T- and B-lymphocyte mitogens on interactions between lymphocytes and macrophages.

The mitogenic response of murine T cells ² to Con A, S-Con A and PHA was found to be macrophage-dependent. Optimal mitogenic responses were obtained when macrophage-depleted T-cell populations were reconstituted with 5% normal peritoneal macro-phages. Studies were carried out to investigate the effect of T- and B-cell mitogens on in vitro physical interactions between murine lymphocytes and macrophages. This was done by determining the number of T- or B cells binding to macrophages in the absence and in the presence of T- and B cell mitogens, and comparing the results of these experiments with the induction of lymphocyte proliferation. Con A increased the binding of T cells to macrophages when used in mitogenic doses (1–5 μg/ml). Dose response experiments showed that the same dose of Con A which produced maximal mitogenic stimulation also induced the greatest number of T cells to bind to macrophages. Nonmitogenic doses of Con A (20–50 μg/ml) did not enhance the binding of T cells, while identical doses of S-Con A both induced T cell mitogenesis and increased the number of T cells bound to macrophages. Similar results were obtained with PHA. None of the B-cell mitogens tested (LPS, EPO 127 and LAgl) increased the binding of either T or B cells to macrophages. PWM, which is mitogenic for both T and B cells, increased the binding of T cells to macrophages, but not that of B cells. In brief, the four T-cell mitogens tested (Con A, S-Con A, PHA, and PWM) induced specific physical interactions between T cells and macrophages, while none of the B-cell mitogens had any effect on the physical interactions between either B or T cells and macrophages when used in mitogenic doses.     

In vitro T-lymphocyte proliferative response to mouse thyroglobulin in experimental autoimmune thyroiditis

The in vitro lymphocyte proliferative response to mouse thyroglobulin (MTg) was studied in good and poor responder mice in relationship to in vivo antibody formation and thyroid infiltration. CBA(H-2^k) and BALB/c(H-2^d) mice were immunized in the hind footpads with MTg incorporated into complete Freund's adjuvant (CFA). At weekly intervals up to 28 days, groups of mice were sacrificed. Their popliteal lymph nodes were cultured in vitro for proliferative response to MTg and their antibody levels and thyroid involvement determined. In good responder CBA mice, the proliferative responses to MTg were strongest on Days 8 to 14, where they were 9- to 14-fold over control levels, depending on the day of harvest. The response declined to 2- to 4-fold over background on Days 21 to 28, although high antibody levels were present throughout this period. The proliferative response was abrogated by anti-Thy-1 treatment, indicating its dependence on T cells. In poor responder BALB/c mice, no significant proliferative responses to MTg were observed at any time, although the animals displayed moderate levels of MTg antibody. The responses to PPD, in contrast, were similar in both strains, usually being 4- to 7-fold above background. Thyroid infiltration, like the proliferative response to MTg, was observed only in CBA mice. Thus lymphocyte proliferation at 8 to 14 days represents a reliable, early in vitro correlate of autoimmune thyroiditis induced with CFA as adjuvant.     

Impact of Diverse Immune Evasion Mechanisms of Cancer Cells on T Cells Engaged by EpCAM/CD3-Bispecific Antibody Construct AMG 110

Background

Bispecific T cell engager (BiTE^®) are single-chain bispecific antibody constructs with dual specificity for CD3 on T cells and a surface antigen on target cells. They can elicit a polyclonal cytotoxic T cell response that is not restricted by T cell receptor (TCR) specificity, and surface expression of MHC class I/peptide antigen complexes. Using human EpCAM/CD3-bispecific BiTE^® antibody construct AMG 110, we here assessed to what extent surface expression of PD-L1, cytoplasmic expression of indoleamine-2,3-deoxygenase type 1, Bcl-2 and serpin PI-9, and the presence of transforming growth factor beta (TGF-β), interleukin-10 (IL-10) and adenosine in culture medium can impact redirected lysis by AMG 110-engaged T cells.

Methods

The seven factors, which are all involved in inhibiting T cell functions by cancer cells, were tested with human EpCAM-expressing Chinese hamster ovary (CHO) target cells at levels that in most cases exceeded those observed in a number of human cancer cell lines. Co-culture experiments were used to determine the impact of the evasion mechanisms on EC₅₀ values and amplitude of redirected lysis by AMG 110, and on BiTE^®-induced proliferation of previously resting human peripheral T cells.

Findings

An inhibitory effect on redirected lysis by AMG 110-engaged T cells was seen upon overexpression of serpin PI-9, Bcl-2, TGF-βand PD-L1. An inhibitory effect on induction of T cell proliferation was only seen with CHO cells overexpressing IDO. In no case, a single evasion mechanism rendered target cells completely resistant to BiTE^®-induced lysis, and even various combinations could not.

Conclusions

Our data suggest that diverse mechanisms employed by cancer cells to fend off T cells cannot inactivate AMG 110-engaged T cells, and that inhibitory effects observed in vitro may be overcome by increased concentrations of the BiTE^® antibody construct.     

Kinetics and localization of parasite-specific IgE in Paragonimus ohirai-infected rats

Ikeda T., Oikawa Y. and Fujita K. 1982. Kinetics and localization of parasite-specific IgE in Paragonimus ohirai-infected rats. International Journal for Parasitology12: 395–398. In Wistar rats infected with Paragonimus ohirai (P.O.), P.O.-specific IgE responses of the mesenteric and mediastinal lymph nodes and spleen were determined by homologous adoptive cutaneous anaphylaxis (ACA) assay since P.o. -specific IgGa was not detected by either 2 h or 4 h PCA. Intraperitoneal (i.p.) infection with metacereariae elicited similar patterns of ACA response in the three lymphoid tissues examined, with the mediastinal lymph node giving the highest response. ACA positive cells were detected 2 weeks after infection, peaked at 3 weeks and then declined. These kinetics of ACA responses nearly paralleled the kinetics of serum P.o.-specific IgE titre. In intrapleural infection with metacereariae, on the other hand, the mediastinal lymph node gave a high ACA response comparable to the lymph node in i.p. infection, but the mesenteric lymph node and spleen gave negligible ACA responses. In infection established by i.p. transplantation of 4–5-week-old worms, only the mediastinal lymph node of the three lymphoid tissues responded and its response was at a low ACA level. The level of serum P.O.-specific IgE was much lower in the above two infections than in i.p. infection with metacercariae.     

Release of soluble factors from lymph nodes containing mycobacterial granulomas and their effect on fibroblast function in vitro

A study has been made of the action of culture supernatants from guinea pig lymph nodes containing mycobacterial granulomas on protein and DNA synthesis of homologous fibroblast cultures. Supernatants from both the Bacillus Calmette-Guerin (BCG) and Mycobacterium leprae granulomas release soluble nondialysable factors in vitro which stimulate [¹⁴C]proline and [¹⁴C]leucine incorporation by fibroblasts and depress their [³H]thymidine uptake. These supernatants did not show any detectable migratory inhibitory activity in vitro. On the other hand, supernatants from sensitized lymphocytes incubated with purified protein derivative (positive migratory inhibitory activity) had no effect on fibroblast function. Thus, the effect of granuloma supernatants is unlikely to be due to lymphokines. However, supernatants from dinitrofluorobenzene-sensitized lymph nodes also showed a stimulation of [¹⁴C]proline incorporation into total protein synthesised by fibroblasts and depressed the [³H]thymidine uptake. Furthermore, supernatants from live BCG organisms in culture on addition to fibroblasts enhanced their [³H]thymidine uptake in vitro. It would appear therefore that fibroblast activation in lymph nodes containing mycobacterial granulomas could result from the release of soluble factors of lymphocyte origin rather than from cells of the mononuclear phagocyte system. These factors appear to be independent of classical lymphokines that act on macrophages in vitro. An additional factor may be derived from the mycobacteria themselves.     

Properties of histamine-induced suppressor factor in the regulation of lymphocyte response to PHA in mice

Splenic T lymphocytes release a suppressor factor into the culture supernatant when incubated for 24 hr with histamine (10^?4M). Histamine-induced suppressor factor (HISF) inhibits lymphocyte response to PHA; it is released by T lymphocytes (either nylon-nonadherent or nylon-adherent lymphocytes) and not by B-cells or macrophages; its production is not observed after depletion of histamine receptor-bearing lymphocytes and is blocked by the H2 receptor antagonist (cimetidine) but not by the H1 receptor antagonist (diphenhydramine). Gel filtration by Sephadex G100 chromatography indicates that HISF had an approximate MW of 45,000 to 68,000. Its inhibitory activity was removed by passage over a histamine RSA-Sepharose column, but not by passage over rabbit anti-mouse Ig-Sepharose column; it was blocked by prostaglandin synthetase inhibitor (PGS) (Ro 205720) indicating that this activity is mediated by a prostaglandin (PG) synthesis.     

Inhibition of complement alternative pathway suppresses experimental autoimmune anterior uveitis by modulating T cell responses

The objective of the current study was to delineate the pathway of complement activation that is crucial for the induction of experimental autoimmune anterior uveitis (EAAU). We studied the development of EAAU in melanin-associated antigen (MAA)-sensitized Lewis rats treated with antibody against C4 or factor B. Control animals received isotype IgG control. Antibody against C4 had no effect on EAAU, and all of the animals developed EAAU similar to those injected with control IgG. In contrast, EAAU was completely inhibited in all MAA-sensitized Lewis rats injected with factor B antibody. Treatment with anti-factor B antibody resulted in suppression of ocular complement activation. Adoptive transfer of T lymphocytes harvested from draining lymph nodes of donor animals treated with anti-factor B did not transfer EAAU to naïve syngenic rats. Anti-factor B antibody inhibited the ability of MAA-specific CD4⁺ T cells to proliferate (in vitro) in response to MAA in a dose-dependent manner. Level of TNF-α and IFN-γ decreased in the presence of anti-factor B. Collectively, our results provide the novel finding that complement activation via the alternative pathway contributes to intraocular inflammation in EAAU, and anti-factor B-mediated inhibition of EAAU is due to diminished antigen-specific CD4⁺ T cell responses to MAA. Our findings explain the interactions between the complement system and T cells that are critical for the induction of EAAU and may lead to the development of therapy for idiopathic anterior uveitis based on selective blockade of the alternative pathway.     

Immune response regulation by lymphocyte products. Potentiator and suppressor factors detected during responses to concanavalin A, E. coli lipopolysaccharide and dinitrophenylated bovine serum albumin.

The efferent lymph from immunostimulated popliteal lymph nodes of sheep was analysed for modulatory effects on the in vitro response of peripheral blood lymphocytes to phytohemagglutinin. Both efferent lymph and the supernates prepared from lymph cells exhibited potentiating activity when collected during the first 6 hours of responses to Concanavalin A and dinitrophenylated bovine serum albumin.² Cells collected on the third day of responses to these antigens and to E. coli lipopolysaccharide produced supernates that almost totally suppressed the in vitro response. The possible contribution made by these cells and cell products to the regulation of the immune response in vivo is discussed.     

Phospholipid synthesis in the fat body endoplasmic reticulum during primary and secondary juvenile hormone stimulation of vitellogenesis inLeucophaea maderae

Summary Juvenile hormone (JH) treatment coordinately stimulated the dose-dependent synthesis of vitellogenin and endoplasmic reticulum (ER) membrane phospholipids in fat body cells from allatectomized adult females ofLeucophaea maderae. Animals were pulse-labeled in vivo with [³²P] to simultaneously measure the rates of synthesis of the phosphorylated subunits of vitellogenin and the structural phospholipids of the ER membranes. Phospholipid synthesis in ER membranes from nontarget tissues for JH such as thoracic muscle, midgut, and larval fat body was unresponsive to hormone treatment. The proliferation of ER in response to JH treatment was thus restricted to tissue that was competent to synthesize vitellogenin.Primary and secondary vitellogenin induction was measured in allatectomized adult females treated 12 days apart with JH-III. The time-course of the primary response for vitellogenin and ER phospholipid synthesis was characterized by a 24 h latent period, a rapid increase to a maximum at 72 h, and then a gradual decline. During secondary induction, vitellogenin accumulated in the hemolymph nearly twice as fast as before and peaked at a concentration of 38 g/l. This vitellogenin titer was approximately two-fold higher than that found at the height of the primary response. During both primary and secondary stimulation with JH, ER phospholipid synthesis, as measured by [¹⁴C]choline incorporation into microsomal phosphatidylcholine, was stimulated five-fold over the untreated control animals. The amplified production of vitellogenin during the secondary response was associated with a 24 h-earlier peak of ER phospholipid synthesis in the fat body.     

Immunoregulatory activity of culture-induced suppressor macrophages

Rat splenic cells precultured in vitro for 5 days exhibited marked suppressive activity on the secondary cytotoxic T lymphocyte (CTL) response to a Gross virus-induced lymphoma. Suppressive activity was produced by macrophages (MØ) rather than lymphocytes and as low as 1% MØ content was sufficient to achieve completely inhibited CTL responses. Aspirin, indomethacin, and d,l-6-chloro-2-methylcarbazole-2-acetic acid prevented cultured splenic MØ from exerting their inhibitory effect, thereby suggesting a role for prostaglandins in suppression. Events which occurred within the first 24 to 48 hr of the CTL response were susceptible to the suppressive action of MØ since normal CTL responses were obtained if suppressive MØ were added later than Day 2 or if indomethacin was added within the first 24 to 48 hr of culture. Two processes of lymphocyte activation, namely blast transformation and DNA synthesis, were inhibited in the presence of suppressive MØ. However, suppression of these processes did not result in the loss of CTL progenitor cells since CTL responses that were inhibited in the presence of suppressive MØ proceeded normally following their removal.     

Chlamydia pneumoniae Infection in Mice Induces Chronic Lung Inflammation,iBALT Formation,and Fibrosis

Chlamydia pneumoniae (CP) lung infection can induce chronic lung inflammation and is associated with not only acute asthma but also COPD exacerbations. However, in mouse models of CP infection, most studies have investigated specifically the acute phase of the infection and not the longer-term chronic changes in the lungs. We infected C57BL/6 mice with 5×10⁵ CP intratracheally and monitored inflammation, cellular infiltrates and cytokine levels over time to investigate the chronic inflammatory lung changes. While bacteria numbers declined by day 28, macrophage numbers remained high through day 35. Immune cell clusters were detected as early as day 14 and persisted through day 35, and stained positive for B, T, and follicular dendritic cells, indicating these clusters were inducible bronchus associated lymphoid tissues (iBALTs). Classically activated inflammatory M1 macrophages were the predominant subtype early on while alternatively activated M2 macrophages increased later during infection. Adoptive transfer of M1 but not M2 macrophages intratracheally 1 week after infection resulted in greater lung inflammation, severe fibrosis, and increased numbers of iBALTS 35 days after infection. In summary, we show that CP lung infection in mice induces chronic inflammatory changes including iBALT formations as well as fibrosis. These observations suggest that the M1 macrophages, which are part of the normal response to clear acute C. pneumoniae lung infection, result in an enhanced acute response when present in excess numbers, with greater inflammation, tissue injury, and severe fibrosis.     

Enhancing and suppressive effects of macrophages on T-lymphocyte stimulation in vitro.

The immunoregulatory effect of peritoneal and splenic macrophages on Con A-stimulated mouse splenic T lymphocytes was investigated in vitro using [¹²⁵I]UdR incorporation as a measure of lymphocyte proliferation. [¹²⁵I]UdR incorporation was enhanced by the addition of increasing numbers of splenic or low doses of peritoneal adherent cells to macrophagedepleted splenic lymphocytes. The addition of increasing numbers of peritoneal macrophages beyond 5–10%, however, proportionally suppressed T-cell proliferation. Activated splenic macrophages obtained from mice 6 days after infection with Listeria monocytogenes were suppressive, whereas macrophages obtained from immune donors 9–10 days after infection were not, so that a chronological association appeared to exist between macrophage activation and immunosuppression. The addition of 2-mercaptoethanol to the cell cultures increased [¹²⁵I]UdR incorporation without affecting the stimulatory and suppressive effects of splenic and peritoneal macrophages, respectively. Heat-killed and freeze-thawed macrophages lost their capacity to enhance or inhibit lymphocyte transformation. Macrophages treated with mitomycin C to inhibit DNA synthesis retained their regulatory functions. These studies suggest differential regulatory roles for spleen versus peritoneal macrophages on T-lymphocyte responses to Con A stimulation in vitro.