Immortalization of cloned mouse splenic macrophages with a retrovirus containing the v-raf/mil and v-myc oncogenes

The recombinant retrovirus J2, which contains the v-raf/mil and v-myc oncogenes, was used to immortalize mouse splenic macrophages that had been cloned in soft agar. When added to freshly harvested colonies, J2 failed to yield cell lines but it immortalized up to 30% of the clones if they had been maintained for at least 4 months in medium containing colony-stimulating factor 1 (CSF-1). All of the cell lines grew in agar in a CSF-1-independent manner, and they produced tumors in nude and syngeneic mice. The cell lines were judged to be macrophage based on morphological criteria and because they secreted lysozyme, were phagocytic for antibody-coated particles, and expressed both the Mac-1 antigen and the CSF-1 receptor. The cell lines could be divided into three groups based on their expression of Ia and their ability to present an antigen to a T-cell hybridoma. The majority of the lines did not constitutively express Ia or present antigen, but a lymphokine did induce Ia in all of the lines, with most of them also acquiring antigen-presenting activity. However, a small proportion of lymphokine-treated lines continued to lack antigen-presenting activity despite their ability to express Ia. The third and smallest group of cell lines constitutively expressed both Ia and antigen-presenting activity. These results show that the J2 recombinant retrovirus is a useful means of immortalizing functionally distinct populations of cloned splenic macrophages.     

Differential antigen presentation by cloned populations of mouse splenic macrophages

Soft agar colonies of mouse splenic macrophages differ in their ability to process and present complex Ag to T cell hybridomas. To determine if the basis for this differential activity was the synthesis of molecules that might interfere with the activity of either the hybridoma or the indicator cells used for the bioassay of IL-2, culture supernatants were compared from Ag-presenting and nonpresenting cultures for their content of suppressor activity, using mitogen-treated mouse SC. No correlation was found between a colony's Ag-presenting activity and its secretion of suppressor factors, nor did colonies unable to present Ag release factors that interfered with the detection of IL-2. In a second approach, paired subcultures from individual colonies were tested for their ability to present, to the same hybridoma, both native Ag and the "preprocessed" peptide of the Ag. The presentation of native Ag was restricted to the progeny of a minority of the cloned macrophage progenitors, but all of the progeny cultures presented the peptide. Together, these results suggest that the basis for differential Ag presentation may be in the manner in which the cloned macrophages degrade and process ingested Ag.     

Constitutive antigen presentation by mouse splenic macrophages is restricted to the progeny of a distinct progenitor population

Mouse splenic macrophage progenitors differ in their ability to give rise to cloned progeny that constitutively present complex protein antigens to T-cell hybridomas. To determine if the constitutive presentation of diverse antigens is restricted to cells derived from the same subpopulation of progenitors, we expanded macrophage clones into multiple subcultures and compared them for the ability to present different antigens to their respective antigen-specific T-cell hybridomas. Only subcultures derived from the same minority fraction of splenic macrophage progenitors were capable of constitutively presenting the antigens, and the activity of these subcultures was unaffected by the addition of recombinant murine IFN-gamma. This suggests that a specialized sub-population of constitutive antigen-presenting macrophages exists in the spleens of mice.     

Clonal analysis of antigen-specific interactions between T cells and genetically engineered B cells

In order to investigate T cell-B cell interactions we constructed monoclonal, antigen-specific T- and B-cell populations. The Ia+ B-cell lymphoma A20-2J was transfected with trinitrophenyl (TNP)-specific heavy (mu) and light (kappa) chain Ig genes. A hapten-carrier complex (TNP-keyhole limpet hemocyanin (KLH)) bound to the surface Ig expressed on the transfectant and was presented to carrier-specific T-cell hybridoma clones at markedly low doses of antigen (0.01 microgram/ml) and in an Ia-restricted fashion. Two responses were elicited in the responding T-cell clones: (i) high levels of IL-2 secretion (320 units/ml), and (ii) cytotoxicity directed against the antigen-presenting B cell. This cytotoxicity was inhibited by D-mannose and was directed against innocent bystander cells, unlike cytotoxicity mediated by NK cells or alloreactive cytotoxic T lymphocyte. Helper and cytotoxic functions were often present in different T-cell hybridomas but some clones exhibited both activities. One representative T-cell hybridoma exhibited strong helper function for TNP-primed splenic B cells as detected in a plaque-forming cell assay, but was cytotoxic toward antigen-presenting B cells. Such monoclonal assay systems for studying cognate interactions of heterogeneous T cells and specific antigen-presenting cells will provide us with valuable new approaches for the study of antigen-specific T-cell regulation of B-cell activation in immune responses.     

Inhibition of macrophage-induced antigen-specific T lymphocyte proliferation by poly I:C: strain and antigen independence

We have previously demonstrated that IFN-alpha/beta, poly I:C (an inducer of IFN-alpha/beta), and IFN-gamma can inhibit the ability of KLH-pulsed peritoneal macrophages to induce proliferation of syngeneic, KLH immune T lymphocytes in CBA/J mice. In this study, we show that this IFN-induced immunosuppression is not restricted to CBA/J (H-2k) mice but is also seen in BALB/cJ (H-2d) mice. A similar inhibition of proliferation is observed with the KLH-specific T cell hybridoma BDK, 100, which requires KLH-pulsed macrophages for optimum proliferation and IL-2 production. The immunosuppression produced by IFN was also independent of the antigen employed. Inhibition of T lymphocyte proliferation was observed when casein, instead of KLH, was used to immunize T cells and to pulse peritoneal macrophages in vivo. Utilizing KLH and casein, the antigen specificity of the inhibition was demonstrated. Therefore, the inhibition by the IFN-inducer poly I:C of macrophage-induced, antigen-specific T cell proliferation is not limited by H-2 type of the mice or to one antigen.     

Quantitative immunocytochemical characterization of mononuclear phagocytes. I. Monoblasts, promonocytes, monocytes, and peritoneal and alveolar macrophages

The purpose of the present study was to compare the phenotype of tissue macrophages with that of their precursors in the bone marrow and blood. The phenotype was determined on the basis of the quantitative binding of monoclonal antibodies to cell-surface antigens (antigen F4/80, complement receptor III, Fc receptor II, Ia antigen, common leukocyte antigen, and Mac-2 and Mac-3 antigens) on individual mononuclear phagocytes. Monoclonal antibody binding to cells, detected by the biotin-avidin immunoperoxidase procedure, was quantitated by cytophotometric determination of the amount of enzyme reaction product on cells. The results of this quantitation are expressed as the median of the specific absorbance per unit of cell-surface area (0.25 micron2) and per cell. Shortly after collection of the mononuclear phagocytes, binding of all monoclonal antibodies except those directed against the common leukocyte and Mac-2 antigens to peritoneal macrophages was enhanced compared with binding to blood monocytes; for alveolar macrophages we found reduced binding of monoclonal antibodies F4/80 and M1/70 (complement receptor III) and enhanced binding of monoclonal antibodies with specificity for the common leukocyte antigen and Mac-2 and Mac-3 antigens. The results obtained with cultured mononuclear phagocytes show that during the development from monoblast to tissue macrophages, monoclonal antibody binding to the various types of mononuclear phagocyte, expressed per unit of cell-surface area, was not significantly altered except that of M3/38 (Mac-2 antigen) to peritoneal macrophages and that of F4/80 and M1/70 (complement receptor III) to alveolar macrophages. Expressed on a per cell basis, the results show an increase in the binding of all monoclonal antibodies except those directed against the Fc receptor II and Mac-3 antigen during the development from promonocytes to peritoneal macrophages; binding of most monoclonal antibodies to alveolar macrophages was considerably lower than that to blood monocytes. It is concluded that the expression of the various cell-surface antigens alters during mononuclear phagocyte differentiation. The expression changed also during culture, although distinct patterns of alteration could not be distinguished.     

Granulocyte-macrophage colony-stimulating factor augments the primary antibody response by enhancing the function of antigen-presenting cells

Purified, recombinant-derived murine granulocyte-monocyte colony-stimulating factor was found to enhance the primary in vitro immune response to SRBC by murine spleen cells. In determining the mechanism of this augmentation, it was found that only splenic adherent cells and neither resting nor activated T cells nor B cells expressed specific receptors for GM-CSF. When splenic adherent cells were pulsed briefly with GM-CSF before addition to macrophage-depleted cultures, they reconstituted the PFC response to a significantly greater degree than did control macrophages. Splenic adherent cells incubated overnight with SRBC plus GM-CSF were also more efficient antigen-presenting cells than splenic adherent cells incubated with antigen alone. The mechanism of this enhanced antigen presentation was found to be due to a GM-CSF-dependent increase in the level of IL 1 secretion and Ia antigen expression. Consistent with these data was the finding that GM-CSF augmented IL 2 production by splenic T cells in response to suboptimal concentrations of Con A. Finally, the day 5 in vivo antibody response (as measured by serum titers) of mice immunized with a low dose of SRBC was enhanced by two daily inoculations of GM-CSF. Thus, the role that GM-CSF plays in augmenting immune responses may not be solely accounted for by its ability to cause the proliferation or differentiation of macrophages, but more than likely includes its ability to enhance the function of antigen-presenting macrophages.     

The role of lipocortin I in macrophage-mediated immunosuppression in tumor-bearing mice

The soluble mediators and/or mechanisms involved in immunosuppression in tumor-bearing hosts are not well characterized, although macrophages have long been recognized as major participants. We have investigated the role of lipocortin I, a phospholipid-binding protein, in macrophage-mediated immunosuppression in tumor-bearing mice. Proliferation of splenic lymphocytes in response to the mitogens (PHA, Con A, LPS, and PWM) was severely suppressed in tumor (Sqc-NH-1 carcinoma)-bearing mice. This immunosuppression was associated with a decrease in T and B lymphocytes and an increase in macrophages in these spleens. Mac-2+ macrophages were found only in spleens from tumor-bearing mice. Splenic macrophages from tumor-bearing, but not normal, mice were responsible for this immunosuppression, as revealed by negative and positive selection experiments. The levels of lipocortin I mRNA expression were markedly increased in peripheral blood cells from tumor-bearing mice as compared with those from normal mice. Lipocortin I mRNA was strongly induced in splenic mononuclear cells from tumor-bearing mice. Furthermore, these cells displayed increased expression of lipocortin I protein, as judged by Western blot analysis with polyclonal anti-lipocortin I serum. Some nonimmune organs such as the heart, submaxillary gland, muscle, and bladder also displayed increased levels of lipocortin I mRNA expression in tumor-bearing mice. Mac-2+ macrophages among the splenic mononuclear cells in tumor-bearing mice expressed lipocortin I mRNA, as judged by negative and positive selection experiments. Most of these Mac-2+ macrophages also had Mac-1 and Mac-3 Ag. Lipocortin I protein was increased in the serum of tumor-bearing mice as compared with normal mice. The culture supernatants of splenic cells from tumor-bearing mice suppressed the mitogenic responses of splenic cells from normal mice, and addition of anti-lipocortin I antiserum inhibited this suppression. Furthermore, recombinant mouse lipocortin I suppressed mitogenic responses of splenic cells from normal mice. In summary, Mac-2+ macrophage-derived lipocortin I was largely involved in immunosuppression in tumor-bearing mice.     

Adherent Ia+ murine cell lines with characteristics of dendritic cells. II. Characteristics of I region-restricted antigen presentation

The ability of an adherent Ia+, interleukin 1+ (IL-1) tumor cell line (P388AD) to present turkey gamma-globulin (TGG) to primed T lymphocytes was demonstrated and compared with normal antigen-presenting cells (APC) found in mouse spleen. P388AD tumor cells presented TGG to long-term cultures of TGG-reactive T cells (LTTC) and to lymph node-derived T cells which were enriched on nylon wool columns and subsequently depleted of endogenous antigen-presenting cells with anti-Ia antisera and complement. MHC-restricted antigen presentation by P388AD was observed when long-term cultures of TGG-reactive T cells were used as the responding T-cell population. Furthermore, antisera directed against I-region determinants expressed on the P388AD tumor cells inhibited TGG-specific T-cell proliferation in a dose-related fashion, suggesting a functional role for the tumor cell-associated Ia molecules. The kinetics of antigen presentation to LTTC by P388AD were similar to the kinetics observed for splenic APC, although the magnitude of the proliferative response to LTTC to TGG was generally lower when antigen (Ag) was presented by the tumor cells compared to splenic antigen-presenting cells (APC). However, the magnitude of T-cell proliferation of immune lymph node (LN) T cells was comparable when Ag was presented on tumor cells or splenic APC. Several experiments suggested that Ag uptake and/or processing may be less effective in P388AD tumor cells as compared to normal splenic APC. A nonadherent Ia+, IL-1- tumor cell line (P388NA), which was isolated from the same parental tumor as P388AD, was also tested for the ability to present Ag to primed T lymphocytes and Ag-reactive LTTC. In contrast, to P388AD, the nonadherent tumor cell failed to present TGG under identical culture conditions even though Ia molecules were expressed on the tumor cells and Ag uptake had occurred. However, the defect in Ag presentation by P388NA could be corrected if an exogenous source of purified interleukin 1 was supplied to the cultures. A unique opportunity thus exists with both the P388AD and P388NA tumor cell lines to decipher some of the molecular interactions leading to T-cell proliferation during antigen presentation.     

T-cell hybridoma secreting hemopoietic regulatory molecules: granulocyte-macrophage and eosinophil colony-stimulating factors.

Murine spleen cells stimulated in vitro with pokeweed mitogen were fused with a HAT-sensitive AKR thymoma (BW5147) to produce T-cell hybridomas secreting hemopoietic colony-stimulating factors (CSFs). A stable cloned T-cell hybridoma has been isolated which expressed the H-2 antigens of both fusion parents, has a median chromosome number of 56 and secretes a factor(s) which stimulates the growth of granulocyte-macrophage and eosinophil colonies. The CSF-secreting hybridoma exhibited only the Thy 1.1 associated with the parent tumor, but no markers normally associated with normal T-cells or macrophages were detected. No CSF was secreted by the parent tumor line, but the hybridoma-conditioned medium, when used at 10% (v/v), contained sufficient CSF to stimulate 10–30 colonies per 10⁵ bone marrow cells. Lipopolysaccharide (1 μg/ml) stimulated the production of CSF by the hybridoma cells 3 fold. CSF production also increased when the cells were held at high density in serum-free medium. The colony-stimulating factor(s) secreted by the hybridoma exhibited similar molecular properties to those produced by pokeweed mitogen-stimulated spleen cells, and both the GM- and EO-CSFs had an apparent molecular weight by gel filtration of approximately 35,000.     

Effects of in vivo monoclonal anti-I-A antibody treatment in neonatal mice on intrathymic and peripheral class II antigen expression

Intrathymic, Ia-bearing antigen-presenting cells (APC) are believed to play an important role in the development of a mature, functional T-cell repertoire. We used chronic in vivo treatment of neonatal mice with anti-I-A monoclonal Ab (MAb) to examine the expression of I-A and I-E antigens on intrathymic and peripheral APC. Three weeks after continuous treatment with anti-I-A MAb, FACS analysis of unfractionated spleen cells revealed a 75-90% reduction in the number of I-A bearing cells. Splenic antigen-presenting capacity measured by the ability of unseparated or density gradient-enriched APC to stimulate I-A- or I-E-reactive T-cell hybridomas was also greatly reduced. In contrast to the expression of I-A and I-E molecules in the splenic APC, anti-I-A MAb treatment resulted in decreased thymic APC I-A expression without significant changes in I-E as measured by FACS analysis. This was confirmed in functional studies in which allo-I-A- or auto-I-A-reactive T-cell hybridomas could not be stimulated by treated thymic APC. Unlike splenic APC, anti-I-A-treated thymic APC did not differ significantly from normals in their ability to stimulate allo-I-E-reactive T hybridomas. This lack of linkage or comodulation of I-A and I-E expression on thymic but not splenic APC may allow us to study the role of I-A molecules and I-E molecules on the development and expansion of functional, mature T-cell repertoires.     

Regulation of T-cell functions by L-lactate

Lactate is a product of glycolytically active macrophages. After stimulation with concanavalin A accessory cell-depleted splenic T-cell populations were found to produce only minute amounts of T-cell growth factor (TCGF); but substantial amounts of TCGF were produced if the cultures were supplemented either with splenic adherent cells or with lactate but not with interleukin-1 (IL-1). IL-1 was capable, however, of supporting TCGF production by the thymoma subline EL4-6.1. TCGF production in cultures of accessory cell-depleted splenic T-cell populations was demonstrable with 10(-3) M L-lactate, and optimal responses (plateau level) were obtained with 4-6 X 10(-2) M L-lactate. Cultures of macrophages were found to accumulate up to 5 X 10(-2) M lactate. Our experiments indicate, therefore, that lactate serves as a regulatory signal by which macrophage-like accessory cells enhance helper-T-cell functions. Lactate is apparently not the only mediator of accessory cell function since plateau levels of TCGF production were markedly lower with lactate than with splenic accessory cells; but L-lactate was found also to determine the magnitude of T-cell-mediated immune responses in vivo and in cultures of unfractionated lymphocyte populations. The production of interferon in accessory cell-depleted and concanavalin A-treated T-cell cultures, however, was not significantly affected by lactate. Concanavalin A-stimulated splenic T-cell populations were found to consume glucose rapidly and to release lactate into the supernatant. This indicates that the cells contain more lactate and pyruvate than they can utilize by their respiratory metabolism. The administration of external lactate or pyruvate was found to inhibit the utilization of glucose by the mitogenically stimulated T cells.     

Antigen presentation to human T lymphocytes. II. Requirements for Mac-120+ macrophages and responsiveness to interleukin 2

To investigate mechanisms by which antigen, macrophages, and interleukin 2 (IL2) participate in the induction of secondary T-cell proliferative responses, trinitrophenyl (TNP) was presented in three distinct modes: (i) TNP-modified peripheral blood mononuclear cells (TNP-PBMC), (ii) TNP-PBMC cell sonicates, and (iii) TNP-ovalbumin (TNP-OVA). Stimulators were depleted of Mac-120+ macrophages using Mac-120 monoclonal antibody plus complement. TNP-Mac-120 macrophages stimulated primed T cells nearly as well as TNP-unfractionated macrophages (which were about 40% Mac-120+). In contrast, although greater than 70% DR+, Mac-120- macrophages plus either TNP-OVA or TNP-PBMC sonicate elicited minimal responses compared to unfractionated macrophages plus antigen. After 21-28 days of in vitro priming, macrophage-depleted T cells were not stimulated to proliferate by either IL2 alone or sonicates alone. IL2 plus TNP-PBMC sonicates, however, stimulated significant proliferation. Furthermore, this response was considerably greater than that to IL2 plus either TNP-T cell sonicates or TNP-mouse spleen sonicates. Thus, the Mac-120+ macrophage population may have an important antigen-presenting and/or accessory function in the stimulation of primed T cells by soluble or particulate antigen, although it is unnecessary for responses to intact TNP-Ia+ PBMC. In addition, the data suggest that Ia+ sonicates alone may suffice for induction of IL2 responsiveness, but not for endogenous IL2 production and subsequent proliferation by primed T cells.     

Construction of antigen-specific suppressor T cell hybridomas from spleen cells of mice primed for the persistent IgE antibody formation

Attempts were made to generate Ag-specific suppressor T cells from Ag-primed spleen cells by using glycosylation inhibiting factor (GIF). BDF1 mice were primed with alum-absorbed OVA and their spleen cells were stimulated with OVA. Ag-activated T cells were then propagated in IL-2-containing conditioned medium. Incubation of the T cells with OVA-pulsed syngeneic macrophages resulted in the formation of IgE-potentiating factor and glycosylation-enhancing factor that has affinity for OVA, i.e., OVA-specific glycosylation-enhancing factor. However, if the same Ag-activated splenic T cells were propagated in the IL-2-containing medium in the presence of GIF T cells obtained in the cultures formed IgE-suppressive factors and OVA-specific GIF on antigenic stimulation. Thus we constructed T cell hybridomas from the Ag-activated T cells propagated by IL-2 in the presence of GIF. A representative hybridoma, 71B4, formed OVA-specific GIF on incubation with OVA-pulsed macrophages of BDF1 mice or C57B1/6 mice. However, if the same hybridoma cells were incubated with OVA alone or with OVA-pulsed macrophages of H-2k or H-2d strains, they produced GIF that had no affinity for OVA. The OVA-specific GIF bound to OVA-Sepharose but did not bind to BSA-Sepharose or KLH Sepharose. Intravenous injections of the OVA-specific GIF from the hybridoma suppressed the IgE and IgG1 anti-DNP antibody response of BDF1 mice to DNP-OVA, but failed to suppress the anti-hapten antibody responses of the strain to DNP-keyhole limpet hemocyanin, indicating that the factors suppressed the antibody response in a carrier-specific manner. However, the same OVA-specific GIF failed to suppress the anti-hapten antibody response of DBA/1 mice to DNP-OVA, suggesting that the immunosuppressive effects of the factors is MHC restricted.     

Functional analysis of cloned macrophage hybridomas. V. Induction of suppressor T cell responses

It has been suggested that macrophage-like accessory cells are involved in suppressor T cell (Ts) induction. To further analyze this issue, we obtained several cloned macrophage hybridoma cell lines by somatic cell fusion of the macrophage tumor P388D1 of DBA/2 (H-2d) origin with splenic adherent cells of CKB mice (H-2k). Several cloned lines displayed the serological and functional characteristics of macrophages. We evaluated the ability of these hybridomas to induce third order or effector Ts (Ts3) to suppress the contact sensitivity response against the hapten 4-hydroxy-3-nitrophenyl acetyl (NP). In contrast to the parental P388D1 and two other macrophage hybridomas, one macrophage hybridoma clone, termed 63, when conjugated with NP, induced Ts3, which suppressed contact sensitivity responses against NP but not DNFB, showing that the Ts3 were antigen specific. Macrophage hybridoma 63 could specifically induce Ts3 activity in either H-2k, H-2d, or H-2k/H-2d heterozygous hosts. Thus, macrophage hybridoma 63 functionally expressed major histocompatibility complex-related restricting determinants, and the fusion with cells from a H-2k macrophage donor caused a functional complementation of H-2d-related, Ts-inducing elements. The genetic restriction governing induction of Ts3 was controlled by genes that mapped to I-J region. Furthermore, NP-conjugated macrophage hybridoma 63 could serve as a target for elicitation of suppressor responses after administration of I-Jk, but not I-Jb, restricted suppressor factor. The data suggest that macrophage hybridomas represent a means to dissect heterogeneity within the macrophage population. The data also imply that the I-J determinants expressed on macrophages represent a ligand for the antigen receptor of Ts.     

Hapten-specific murine colony-forming B cells: in vitro response of colonies to fluoresceinated thymus independent antigens

The ability to clone hapten-specific B cells in agar and to subsequently trigger their clonal progeny to antibody synthesis was investigated. Fluorescein (FL) specific B cells were purified on FL-gelatin dishes and cultured in semisolid agar for 6 to 7 days; individual colonies were then picked for restimulation in microculture. FL-specific B cells could be cloned as efficiently as unpurified splenic B cells. The number of colonies formed depended on the presence of sheep erythrocytes (SRBC) or E. coli lipopolysaccharide (LPS) in the cultures. An additive number of colonies were observed with SRBC + LPS compared to that of SRBC or LPS alone. The colonies obtained from SRBC-containing cultures were stimulatable at high frequency by various FL-conjugated antigens to yield anti-FL PFC. However, colonies grown with LPS as the only additive were not stimulatable by any of the antigens tested. On the other hand, addition of M phi or SRBC as additional "mitogens" along with LPS in the agar resulted in progeny colonies that could respond in vitro. Although M phi did not increase the number of colonies, their presence enhanced the size and in some cases the frequency of stimulatable colonies. These data complement earlier observations in suggesting that different B cell subpopulations may grow under different cloning conditions. Moreover, the ability to stimulate the clonal progeny of single B cells to antibody synthesis should permit further definition of triggering and tolerance events at the single-cell level.     

Accessory cell function of cells of the mononuclear phagocyte system isolated from mycobacterial granulomas

Epithelioid cells from BCG-induced granulomas and macrophages from Mycobacterium leprae-induced granulomas were examined for their ability to act as accessory cells for T-cell proliferation to mitogen (Con A) and antigen (PPD). The granuloma cells were separated on a FACS using monoclonal antibody specific to guinea pig macrophages. Epithelioid cells (which are Ia negative) were able to support proliferation to Con A but not to antigen. Cultures containing Ia positive granuloma macrophages from M. leprae sensitized animals did not show responsiveness to Con A or to PPD. Oil-induced peritoneal exudate macrophages from BCG or M. leprae immunized animals were able to act as accessory cells for both mitogen and antigen proliferation. The nonresponsiveness of cultures containing epithelioid cells stimulated with PPD or M. leprae granuloma macrophages stimulated with Con A was not due to suboptimal or supraoptimal accessory cell:lymphocyte ratios.     

The comparison of cell-mediated immunity induced by immunization with porin, viable cells and killed cells of Salmonella typhimurium.

A marked level of cell-mediated immunity (CMI) to Salmonella typhimurium-infection in mice, as determined by acquired resistance, delayed-type hypersensitivity, interleukin-2 production and interferon-gamma production, was induced by immunization with porin or viable cells but not with killed cells of S. typhimurium LT2. When the up-regulation of immune system to each immunogen was studied by comparing increases of Ia-bearing macrophages, the immunization with porin or viable cells, but not killed cells, could stimulate the immune system for more than 14 days. Interleukin-1 (IL-1) production of macrophages to each immunogen was also examined; the result showed that immunization with porin or viable cells could induce a notable level of IL-1 production, while killed cells could not. However, when the abilities to induce these immune responses were compared between UV-killed and heat-killed cells, UV-killed cells were superior to heat-killed cells. These results suggested that the ineffectiveness of immunogen that lacked CMI-inducing ability might be ascribed to the denaturation of antigen and the insufficient inductions of Ia-bearing macrophages and IL-1 production.     

Spontaneous production of colony-stimulating activity by splenic Mac-1 antigen-positive cells from autoimmune motheaten mice

Cultured splenocytes from 3-wk-old autoimmune motheaten mice (me/me) spontaneously produced colony-stimulating activity (CSA), which stimulated the formation of bone marrow myeloid colonies. The production of CSA was not dependent on the presence of serum; this activity was not produced by spleen cells from their phenotypically normal littermates (+/-) or from other normal mouse strains. The peak level of CSA occurred early during the culture period, and within 48 hr the activity was markedly diminished. Cell fractionation studies demonstrated that cells expressing Mac-1 antigen produce CSA and are most likely to be mononuclear phagocytes. The unusual proliferative capacity in vitro of splenic mononuclear phagocytes from motheaten mice probably results from the spontaneous production of CSA by Mac-1 antigen-positive cells. Defective regulation of the production of monokines may contribute to the severity of the immunologic disease of these mutant mice.     

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.