Regulation of macrophage populations. I. Preferential induction of Ia-rich peritoneal exudates by immunologic stimuli

The amounts of Ia-positive and -negative macrophages were studied in peritoneal exudates of normal mice or of mice injected with various inflammatory materials, infected with Listeria monocytogenes, or injected with hemocyanin. Ia-negative macrophages predominated in exudates from normal mice or from mice given mineral oil, peptone, thioglycollate, culture media, or endotoxin. Infection with Listeria caused a very marked increase in Ia-positive macrophages. The induction of Ia-positive macrophages by Listeria inoculation resulted in great part from an immune process. The Ia-positive exudates were more readily generated in immune mice given a secondary challenge with heat-killed organisms. Furthermore, immune T cells transplanted together with heat-killed organisms into normal mice resulted in Ia-rich exudates. Injection of hemocyanin also induced Ia-rich exudates involving an immune process. We conclude that an immune reaction involving T cells regulates the Ia phenotype of the exudate macrophage population. The Ia-positive macrophages were Fc and C3 receptor positive and phagocytized latex particles.     

Macrophage-T cell interactions involving Listeria monocytogenes--role of the H-2 gene complex.

This study reports on the in vitro interactions between T cells from Listeria-immunized mice, macrophages from normal mice, and heat-killed Listeria organisms. This interaction was assayed either by determing the amount of thymocyte mitogen in culture fluids after 24 hr, or by estimating the degree of T cell proliferation after 96 hr. Each assay depended on critical concentrations of macrophages, T cells, and heat-killed Listeria, points that were evaluated in a number of experiments. Both assays required specific Listeria-immune T cells. For an effective interaction, the T cells and the macrophages had to share the I-A region of the H-2 gene complex. Macrophages bearing Ia, which represented a minor population of macrophages, were essential for the proliferative response to macrophage-associated Listeria. Also, Ia-bearing macrophages were an important component in the interactions leading to increased secretion of mitogen. The immunogenic moiety associated with Listeria was short-lived, disappearing 24 hr after uptake of Listeria by macrophages. The interactions were not blocked by anti-Listeria antibodies but were partially sensitive to trypsinization.     

Inhibition of macrophage-mediated antigen presentation by hemolysin-producing Listeria monocytogenes

T lymphocytes and macrophages from Listeria-infected mice were used to evaluate the processing and presentation of live Listeria monocytogenes in vitro. Antigen presentation to T cells was quantitated by interleukin-2 production. In contrast to inert antigens such as heat-killed Listeria, live bacteria were processed and presented poorly. To evaluate the role of hemolysin (Hly), we used isogenic pairs of Hly+ and Hly- Listeria as antigens. In contrast to live Hly- bacteria, which were presented as well as heat-killed Listeria, live Hly+ bacteria were presented poorly. Hly+ bacteria also inhibited the presentation of heat-killed Listeria. This effect was apparent with as few as 10 bacteria/macrophage and was not due to loss of macrophage viability or decreased Ia expression after exposure to the live bacteria. With respect to murine listeriosis, the LD50 values for the Hly- strains were at least 1000 times higher than those for the Hly+ strains. These results suggest that the ability of Hly+ bacteria to inhibit antigen processing and presentation may be an important determining factor in Listeria infection and immunity.     

Induction of macrophage Ia expression by lipopolysaccharide and Listeria monocytogenes in congenitally athymic nude mice

Experiments were performed to analyze the mechanism by which lipopolysaccharide (LPS) modulates the expression of Ia by murine peritoneal macrophages in vivo. We investigated the effect of LPS on Ia expression in T cell deficient mice by using the congenitally athymic nude mouse model. Injection (i.p) of LPS into athymic (nu/nu) mice resulted in a dramatic increase in the expression and biosynthesis of Ia by peritoneal macrophages 7 days after injection. The magnitude and kinetics of this induction were equivalent to increases observed after LPS injection of euthymic (nu/+) mice. Viable Listeria monocytogenes also increased Ia expression in athymic mice, but in contrast to the induction observed in euthymic mice at 3 and 7 days after injection, increased Ia expression was not seen until 7 days. Ia induction by either LPS or L. monocytogenes in athymic mice was not due to the presence or development of mature T cell function as defined by assays for T cell mitogenesis and interleukin 2 production. We conclude that increased macrophage Ia expression by LPS and L. monocytogenes in vivo can occur in the absence of mature functioning T cells.     

Attempts to characterize the T-cell population and lymphokine involved in the activation of macrophage oxygen metabolism in murine listeriosis

Cultures of T cells from Listeria monocytogenes-immune mice, macrophages, and heat-killed Listeria organisms produced a factor(s) capable of activating macrophage oxygen metabolism. The activity depended on the presence of Lyt 1+2,3- T cells in the primary culture. Macrophage oxygen metabolism could also be induced by a L. monocytogenes-specific T-cell clone which was recently shown to mediate anti-listerial protection in vivo and to secrete interferon-gamma (IFN-gamma) in vitro. Furthermore, macrophage activation was achieved by recombinant IFN-gamma. It is concluded that acquired resistance to facultative intracellular pathogens--at least in part--depends on the activation of macrophage oxygen metabolism by IFN-gamma derived from specific Lyt 1+2,3- T cells.     

Defective production of anti-herpes simplex virus antibody by neonatal mice. Reconstitution with Ia+ macrophages and T helper lymphocytes from nonimmune adult syngeneic mice

Both neonatal humans and mice are exquisitely susceptible to severe HSV infection. We have now documented a profound defect in the ability of neonatal C57BL/6 mice to produce anti-HSV ADCC antibody. This ability is acquired over the first 2 to 4 wk of life. Reconstitution of neonatal mice by i.p. injection of peritoneal cells from adult nonimmune syngeneic mice both affords dose-dependent protection against lethal HSV infection and reconstitutes the antibody-production defect. By cell-separation techniques (adherence, nylon wool column purification, B cell panning) and cell ablation techniques (silica treatment, irradiation, anti-T cell, anti-Ia, anti-Lyt-1.2 and anti-Lyt-2.2 monoclonal antibodies plus complement treatment) the subpopulations involved in the antibody production reconstitution of neonatal mice by adult cells were identified. These include both an Ia+, radioresistant, adherent, silica-sensitive macrophage population and a nylon wool column-purified, radiosensitive, anti-T, anti-Lyt-1.2-sensitive helper T cell population. The latter cell may be substituted for by concanavalin A-stimulated lymphokine-containing spleen cell supernatants or human recombinant IL 2. In addition to reconstitution of ADCC antibody production, the same cell populations, or cells plus lymphokine-containing supernatants or IL 2, protected the newborn mice from lethal HSV infection. Further characterization of this system and of soluble replacement factors has implications for therapy or immunoprophylaxis of human neonates with, or at risk of, HSV infection.     

Effect of Bacillus Calmette-Guérin infection on delayed footpad reaction to Listeria monocytogenes

The role of peritoneal macrophages induced by Bacillus Calmette-Guérin (BCG) in the induction of immune responses to Listeria monocytogenes was studied in mice. The peritoneal macrophages from mice treated with BCG 14 days previously contained a high proportion of Ia-bearing macrophages (approximately 56%) and the cells showed not only a high level of listericidal activity but also a strong ability for presentation of listerial antigen to Listeria-immune T cells. An intraperitoneal inoculation with a low dose of Listeria, which can induce the maximal level of delayed footpad reaction (DFR) and positive migration inhibitory activity of macrophages in untreated mice, did not induce a detectable level of such responses in BCG-treated mice. The bacterial growth at an early stage of infection was suppressed by scavenger macrophages in these mice. On the other hand, BCG-treated mice showed the early development of DFR and macrophage migration inhibitory activity after an inoculation with a high dose of Listeria. It is revealed in transfer experiments that Listeria-pulsed peritoneal exudate cells induced by BCG elicited the highest level of DFR and positive migration inhibition of macrophages in normal mice at the earlier period of injection compared with Listeria-pulsed resident peritoneal cells. These results suggested that the increased activities of macrophages acting as scavenger cells and as antigen-presenting cells play important roles in the modification of immune responses to Listeria in BCG-treated mice.     

Allogeneic restriction of the delayed inflammatory reaction in the rat.

Delayed-type hypersensitivity (DTH) to Listeria monocytogenes was measured in rats that were recipients of syngeneic, semisyngeneic, and allogeneic immune thoracic duct lymphocytes (TDL). DTH could be transferred only to recipients that shared at least one haplotype with the TDL donors. The restriction was expressed in an inability of sensitized lymphoblasts to localize efficiently at antigen injection sites in the pinna of the ear and peritoneal cavity. Failure of allogeneic lymphoblasts to extravasate in more than trace numbers into Listeria-antigen-induced exudates was reflected in an absence of other lymphocyte-mediated expressions of DTH. Thus, lymphocyte-dependent MCA was not detected in Listeria-antigen-induced peritoneal exudates borne by recipients of allogeneic immune TDL and blood monocytes were not recruited in increased numbers into such exudates as they were in exudates borne by syngeneic rats. But allogeneic restriction of the delayed inflammatory response to Listeria antigen was overcome, at least in part, when antigen-presenting macrophages of the same MHC type as the immune TDL donors were implanted in the peritoneal cavity. The results encourage the belief that the observed failure of immune TDL to transfer DTH to allogeneic recipients is related to the inability of sensitized donor T cells to recognize antigen displayed by allogeneic macrophages.     

Response to Listeria monocytogenes in mice lacking MHC class Ia molecules

MHC class Ia-deficient mice (H2 Kb-/- Db-/-) inoculated with the intracellular pathogen Listeria monocytogenes (LM) displayed a three- to fourfold expansion of splenic CD8+ T cells 6 days following infection. Culture of these spleen cells in vitro gave rise to CTL that recognized LM-infected target cells and were restricted by the class Ib molecules, Qa1b and M3. Exposure of target cells to heat-killed LM (HKLM) rather than live bacteria did not result in CTL-mediated lysis. Target cells pulsed with three LM peptides known to bind M3, f-MIGWII, f-MIVTLF, and f-MIVIL, were recognized by effector cells from both B6 and Kb-/- Db-/- animals. In vivo analysis showed that B6 and Kb-/- Db-/- mice clear LM from the spleen and liver rapidly with similar kinetics, whereas TAP.1-/- mice, which are deficient in class Ia and Ib molecules, clear LM slowly upon infection. To establish the in vivo role of CD8+ T cells in Kb-/- Db-/- animals, we showed that depletion of such cells from the spleens of immune mice prevented the adoptive transfer of protective immunity to syngeneic recipients. Spleen cells from Kb-/- Db-/- mice were also capable of generating responses directed against syngeneic as well as allogeneic class Ia molecules in vitro. Thus, class Ia-deficient animals have a CD8+ T cell repertoire capable of recognizing both class Ia and class Ib molecules and can generate protective immunity to LM.     

细虫草胞外多糖对小鼠腹腔巨噬细胞免疫功能研究

本实验在体外条件下,以人工发酵培养的细虫草胞外多糖OgE、OgE-F1和OgE-F2作用于小鼠腹腔巨噬细胞RAW264.7,通过测定其对巨噬细胞的增殖率、代谢MTT活力、NO分泌和吞噬能力的影响,评价细虫草胞外多糖的免疫调节活性。结果表明,细虫草多糖对巨噬细胞无细胞毒性,且能促进巨噬细胞代谢MTT活力;在0.2mg/mL^1.0mg/mL浓度范围内,多糖呈剂量依赖性的促进巨噬细胞分泌NO水平和吞噬能力。本研究表明,细虫草多糖能有效地增强小鼠巨噬细胞的活性,潜在地可改善小鼠的先天性免疫调节。     

Enhancement of macrophage bactericidal capacity by antigenically stimulated immune lymphocytes

The ability of antigenically stimulated immune lymphocytes to influence the bactericidal capacity of normal macrophages was studied in vitro. Purified lymphocytes were obtained from the lymph nodes and peritoneal exudates of guinea pigs immunized with bovine gamma globulin (BGG) and from control animals. Immune and control lymphocytes were added to normal macrophages and incubated overnight in the presence or absence of BGG. After washing, the macrophage monolayers were infected with Listeria monocytogenes; 4 hr later, the cells were lysed and the surviving intracellular bacteria quantitated. The macrophages which had been incubated with BGG-immune lymphocytes in the presence of BGG displayed a markedly enhanced listericidal capacity. In parallel experiments, these same antigen-stimulated lymphocytes were shown to inhibit the migration of normal macrophages. Lymphocytes derived from peritoneal exudates were more active than lymph node lymphocytes in both assays.     

Lipopolysaccharide responsiveness is an important factor in the generation of optimal antigen-specific T cell responses during infection with gram-negative bacteria

We previously have found that the endotoxin (LPS) of Gram-negative bacteria is a major determinant of macrophage Ia induction during infection with these organisms. Specifically, i.p. injection of Gram-negative bacteria elicits a striking macrophage Ia response in LPS-responder mice but virtually no response in LPS-low-responder mice. As an extension of these findings, in this report we have tested the hypothesis that the inability of LPS-low responder mice to mount an Ia response during Gram-negative infection may in turn impair their capacity for generation of appropriate antibacterial T cell responses. Our results demonstrate that for a variety Gram-negative organisms (Salmonella typhimurium, Salmonella minnesota, and Escherichia coli), both macrophage Ia induction and the generation of Ag-specific T cell responses are controlled by the lps gene. We also have asked whether the expression of additional toxins (other than LPS) by infecting Gram-negative organisms can "override" this lps gene control of macrophage and T cell responses. We have found that infection of LPS-low-responder mice with an E. coli strain that expresses a hemolytic exotoxin (Hly) leads to the induction of macrophage Ia expression as well as the generation of T cell responses to both the Hly molecule and to other E. coli-associated Ag, whereas no responses are generated during infection with a Hly- strain. This result suggests that LPS-low responder mice have no inherent defect in T cell responsiveness to Gram-negative bacterial Ag but rather that these mice fail to receive an LPS-mediated signal required for the induction of Ia expression and subsequent generation of peritoneal T cell immunity. These findings, when taken together with results presented in the accompanying paper, strengthen the argument that bacterial toxin production (and the ability of the host to respond to the toxin) can represent a critical determinant of the induction of macrophage Ia expression and in turn, of Ag-specific T cell responses during bacterial infection.     

Tumor necrosis factor is involved in the T cell-independent pathway of macrophage activation in scid mice

We analyzed the T cell-independent production of IFN-gamma in the severe combined immunodeficiency (scid) mutant mouse. Spleen cells from scid mice secreted high levels of IFN-gamma in response to heat-killed Listeria monocytogenes (HKLM), but not to the T cell stimulus ConA. This response was ablated by prior removal of adherent macrophages. IFN-gamma secretion in vitro was preceded by the rapid production of TNF and was inhibited by addition of neutralizing mAb to TNF. Moreover, injection of scid mice with anti-TNF mAb increased the severity of infection with live Listeria and inhibited macrophage activation for class II-MHC expression. Finally, IFN-gamma secretion and class II-MHC expression were also inhibited by an antibody to asialoGM1, a reagent known to impair host NK cell function. These results suggest that TNF is a critical cytokine in the T cell-independent pathway of macrophage activation in scid mice.     

The interaction of gamma delta T cells with activated macrophages is a property of the V gamma 1 subset

Immunoregulation is an emerging paradigm of gammadelta T cell function. The mechanisms by which gammadelta T cells mediate this function, however, are not clear. Studies have identified a direct role for gammadelta T cells in resolving the host immune response to infection, by eliminating populations of activated macrophages. The aim of this study was to identify macrophage-reactive gammadelta T cells and establish the requirements/outcomes of macrophage-gammadelta T cell interactions during the immune response to the intracellular bacterium, Listeria monocytogenes (Lm). Using a macrophage-T cell coculture system in which peritoneal macrophages from naive or Lm-infected TCRdelta(-/-) mice were incubated with splenocytes from naive and Lm-infected alphabeta/gammadelta T cell-deficient and wild-type mice, the ability to bind macrophages was shown to be restricted to gammadelta T cells and the GV5S1 (Vgamma1) subset of gammadelta T cells. Macrophage adherence resulted in a 4- to 10-fold enrichment of Vgamma1(+) T cells. Enrichment of Vgamma1 T cells was dependent upon the activation status of macrophages, but independent of the activation status of gammadelta T cells. Vgamma1 T cells were cytotoxic for activated macrophages with both the binding to and killing of macrophages being TCR dependent because anti-TCRgammadelta Abs inhibited both Vgamma1 binding and killing activities. These studies establish the identity of macrophage cytotoxic gammadelta T cells, the conditions under which this interaction occurs, and the outcome of this interaction. These findings are concordant with the involvement of Vgamma1 T cells in macrophage homeostasis during the resolution of pathogen-mediated immune responses.     

CpG oligodeoxynucleotides enhance neonatal resistance to Listeria infection

Infection by Listeria monocytogenes causes serious morbidity and mortality during the neonatal period. Previous studies established that immunostimulatory CpG oligodeoxynucleotides (ODN) can increased the resistance of adult mice to many infectious pathogens, including Listeria. This work examines the capacity of CpG ODN to stimulate a protective immune response in newborns. Results indicate that dendritic cells, macrophages, and B cells from 3-day-old mice respond to CpG stimulation by secreting IFN-gamma, IL-12, and/or TNF-alpha. Spleen cells from CpG-treated neonates produce large amounts of cytokine and NO when exposed to bacteria in vitro. Newborns treated with CpG ODN are protected from lethal Listeria challenge and generate Ag-specific CD4 and CD8 T cells that afford long-term protection against subsequent infection. These results demonstrate that cellular elements of the neonatal immune system respond to stimulation by CpG ODN, thereby reducing host susceptibility to infectious pathogens.     

Alloreactive cloned T cell lines. VI. Multiple lymphokine activities secreted by helper and cytolytic cloned T lymphocytes

Culture supernatants generated by alloantigenic or lectin stimulation of a cloned helper T lymphocyte, designated L2, contain interleukin 2 (IL 2), granulocyte/macrophage colony-stimulating factor (CSF), B cell stimulating factor (BCSF), macrophage (Ia+)-recruiting factor (MIRF), (Ia+)-inducing activity, gamma-interferon, Fc receptor-enhancing activity, macrophage migration inhibitory factor (MIF), macrophage activation factor (MAF), interleukin 3 (IL 3), and a factor responsible for prolonging the synthesis and secretion of the fourth and second components of complement by guinea pig peritoneal macrophages. Erythropoietin was not detected. A spontaneously arising variant of L2, designated L2V, produces much lower quantities of macrophage-stimulating activities, IL 2, and interferon. However, when compared to L2, L2V produces much higher levels of BCSF, equivalent amounts of IL 3, and slightly smaller amounts of CSF. Unlike L2V, a cytolytic clone, designated L3, secretes lymphokines that primarily affect macrophage function. The time course of lymphokine production by L2 cells indicates that for the six lymphokine activities studied there are three different times at which maximal or near maximal levels are reached, as follows: 1) IL 2, 12 to 24 hr; 2) IL 3 and CSF, 24 to 48 hr; and 3) (Ia+)-inducing activity, MAF, and interferon, 48 hr or later. Only IL 2 activity disappears during the 8-day culture cycle. The time course data and the differential production of activities by the three types of lymphocyte clones suggest that at least four terminal effector lymphokine molecules account for the ten biologic activities tested.     

Murine CD93 (C1qRp) contributes to the removal of apoptotic cells in vivo but is not required for C1q-mediated enhancement of phagocytosis

Human CD93 (known as C1qRp) has been shown to be a phagocytic receptor involved in the in vitro C1q-dependent enhancement of phagocytosis. However, binding of CD93 to C1q and its function remain controversial. In this study, we have generated CD93-deficient mice (CD93(-/-)) to investigate its biological role(s). The CD93(-/-) mice were viable and showed no gross abnormalities in their development. Thioglycolate-elicited peritoneal macrophages deficient in CD93 showed a similar enhancement in complement- and FcgammaR-dependent uptake of RBC to the wild-type macrophages when plated on C1q-coated surfaces suggesting that the lack of this receptor had no effect on these C1q-mediated events. There was no impairment in either complement- or FcgammaR-dependent phagocytic assays in vivo. By contrast, the CD93(-/-) mice had a significant phagocytic defect in the clearance of apoptotic cells in vivo (human Jurkat T cells and murine thymocytes: p=0.0006 and p=0.0079, respectively) compared with strain-matched controls. However, in vitro, the CD93(-/-) macrophages showed similar engulfment of apoptotic cells to wild-type macrophages. Furthermore, no supporting evidence for a role of CD93 as an adhesion molecule was found using intravital microscopy or analyzing peritoneal cell recruitment in response to three different inflammatory stimuli (thioglycolate, zymosan A, and IL-1beta). Thus, our findings indicate that murine CD93 is expressed on the peritoneal macrophage, especially on thioglycolate-elicited cells, but does not appear to play a key role in C1q-mediated enhancement of phagocytosis or in the intercellular adhesion events tested. However, our results suggest that it may contribute to the in vivo clearance of dying cells.     

A T cell-independent mechanism of macrophage activation by interferon-gamma

A primary interest in immunity to intracellular pathogenic microorganisms and tumors is to understand the mechanisms by which macrophages are activated for various functions. Two parameters of macrophage activation are the expression of the class II histocompatibility proteins or Ia molecules (1), and cytotoxic activity. The ability of T cells to induce these responses has been extensively documented and occurs via their secretion of interferon-gamma (IFN-gamma) after interaction with antigen (2-6). However, in a recent study using mice with the severe combined immunodeficiency (scid) mutation (7) which have no detectable T or B cell functions (7-9), we were surprised to find the induction of Ia expression on macrophages and the partial inhibition of bacterial growth after infection with Listeria monocytogenes (10). We have now utilized neutralizing monoclonal antibodies specific for murine IFN-gamma to investigate the mechanism of macrophage activation in scid mice. We show here that IFN-gamma can be produced by scid mice in the absence of lymphocyte-mediated immunity, and this IFN-gamma is important for macrophage activation during infection with Listeria. These results indicate the presence of an important T lymphocyte-independent mechanism of macrophage activation and IFN-gamma production in response to infection.     

Delayed inflammatory response to Pneumocystis carinii infection in neonatal mice is due to an inadequate lung environment

Challenge of neonatal mice with an intranasal inoculation of Pneumocystis carinii results in a subclinical infection that takes 6 wk to resolve, whereas adult mice resolve a comparable challenge within 3 wk. This delayed clearance is due to a delayed inflammatory response in neonatal mice; however, the reason for this delay has been unknown. To determine whether the neonatal lung environment is sufficient to attract immunocompetent lymphocytes into the lungs, an adoptive transfer strategy was employed in which splenocytes from adult BALB/c mice were transferred into P. carinii-infected neonatal or adult SCID mice. All adults, but no pups, resolved their infections by day 37 postreconstitution. Despite reconstitution with adult splenocytes, pups had a negligible lung inflammatory response until day 24, whereas adult mice had activated CD4(+) and CD8(+) cells in the lung by day 13. The delay in neonates corresponded to delayed kinetics of expression of lung cytokines TNF-alpha and IFN-gamma mRNA and chemokines lymphotactin, RANTES, and macrophage inflammatory protein-1ss mRNA. Phagocytic cells from neonatal mice were significantly less efficient than adult cells at migrating to the draining lymph nodes after phagocytosing fluorescent beads. There were fewer dendritic cells and Ia(+) myeloid cells in the lungs of P. carinii-infected neonatal mice compared with adults. These data indicate that the lung environment of neonatal mice is insufficient for migration of T cells, due at least in part to inefficient phagocytosis and migration of APCs to the lymph nodes as well as delayed chemokine and TNF-alpha mRNA expression.     

Target cells for the activity of a synthetic adjuvant: muramyl dipeptide.

Muramyl dipeptide (MDP), a synthetic adjuvant, increased the primary response of CBA mice to sheep red blood cells (SRBC). In reconstituted irradiated recipients, cooperation between T and B lymphocytes was required for the expression of adjuvant activity and MDP increased the efficiency of SRBC-educated T cells. The role of T-derived lymphocytes in mediating the MDP adjuvant activity was also demonstrated in irradiated mice and in mice reconstituted with various splenic cellular types of donors which had received SRBC and MDP 24 hr earlier. In our experiments, the macrophage did not seem to be involved, since MDP did not increase the phagocytic capacity of peritoneal exudate cells and MDP- and SRBC-pretreated macrophages had no increased ability to induce an anti-SRBC immune response. These results demonstrate the importance of T lymphocytes as mediators of the adjuvant activity of MDP.