Antigen processing and presentation: how can a foreign antigen be recognized in a sea of self proteins?

A mathematical model describing the time-dependent events of antigen processing and presentation is utilized to quantitatively analyze the importance of newly synthesized Ia molecules as well as Ia molecules internalized from the cell surface in the formation of Ia-antigen complexes, the T cell receptor ligand. It has recently been shown that antigen presenting cells are not selective for the proteins they process and present. Therefore, we also investigate the ability of macrophages and B cells to process and present antigen in the presence of competing proteins often present in the extracellular environment. A set of criteria is formulated based upon experimental data to determine the validity of two model variations. We draw two major conclusions from our simulations. First, we determine that macrophages and B cells can present between 1-3 Ia-antigen complexes micron-2 for antigen concentrations in the range of 4-7 microM while in the presence of approximately 0-10 microM competing proteins or peptides. Second, we find it likely that antigen presenting cells, both B cells and macrophages, need to internalize Ia molecules from the cell surface in order for a sufficient number of Ia-antigen complexes to be presented. Binding of antigen to newly synthesized Ia alone does not, given experimentally reported values for Ia synthesis, allow sufficient Ia-antigen complex formation.     

Acute infection of mice with lactic dehydrogenase virus (LDV) impairs the antigen-presenting capacity of their macrophages

The infection of mice with lactic dehydrogenase virus (LDV) is characterized by elevated levels of various plasma enzymes such as lactic dehydrogenase, malic dehydrogenase, and others. This elevation is probably the consequence of a defect in the clearance capacity of the virus-affected reticuloendothelial cells, which were found to serve as the targets for LDV infection. Since macrophages play a pivotal role in the induction and regulation of cellular immune responses, we tested the antigen-presenting capacity of macrophages from LDV-infected mice, using a system in which in vitro reactivation of memory T cells depends on specific antigen presentation by macrophages. Our experiments revealed that the antigen-presenting capacity of spleen, lymph node, and peritoneal antigen-presenting macrophages from LDV-infected mice was impaired. This impairment, however, was not due to a defective cellular concentration capacity of antigen, since no difference in the uptake of radiolabeled antigen by uninfected and acutely LDV-infected macrophages was observed. Similarly one cannot attribute the impaired presentation capacity to suppressor cells, since we found that LDV-infected macrophages are not differentially immunosuppressive in the specific in vitro assays used. The analysis of peritoneal macrophages for their expression of Ia antigens revealed that the proportion of Ia-positive macrophages among the LDV-infected peritoneal cells is reduced in comparison to their proportion in noninfected mice. Our results suggest, therefore, that infection of macrophages by LDV is followed by an impairment of their antigen-presenting capacity, probably due to a reduction in the relative proportion of Ia-positive macrophages. These results indicate that the virus either impairs the expression of membrane-associated antigen-presenting components (such as the Ia determinants), thus damaging antigen presentation, or is responsible for the elimination of Ia-positive cells from the peritoneum.     

Isolation of plasma membranes from murine peritoneal macrophages and production of a heterologous immune serum

Plasma membranes of murine peritoneal macrophages were obtained after light pounding of the cells by differential centrifugation. Subcellular fractions were monitored by specific enzymatic assays and by electron microscopy. Injection of plasma membranes into the rabbit produced an anti-serum containing specific antibodies of macrophage membrane antigen detected by indirect immunofluorescence method.     

Studies on the regulation of lymphocyte reactivity by normal and activated macrophages.

To determine the potential role of macrophages as regulators of the immune response, the effect of mouse peritoneal macrophages on transforming mouse spleen lymphocytes was investigated. Mitogen and antigen stimulated lymphocyte transformation, as measured by DNA synthesis, was enhanced by all concentrations of normal macrophages tested, but only by low concentrations of activated macrophages. High concentrations of activated macrophages markedly inhibited lymphocyte transformation. This inhibition occurred whether lymphocyte DNA synthesis was measured by incorporation of [³H]TdR or of ³²P. Activated macrophages cultured with lymphocytes within 4 hr of being removed from the peritoneal cavity inhibited lymphocyte transformation. When activated macrophages were cultured alone for 24 or more hours before addition of lymphocytes, enhancement of transformation was noted. Once lymphocytes were exposed to activated macrophages, they could not be induced to undergo transformation in the presence of Con A. Whereas heat-killed activated macrophages, which appeared intact morphologically, lost their capacity to inhibit lymphocyte transformation, macrophages treated with mitomycin C to inhibit DNA synthesis retained this capacity. Syngeneic and allogeneic macrophages had similar inhibitory ability. Supernatants from cultures of many cell types (including normal or activated macrophages, lymphocytes, lymphocytes plus macrophages, and L cells) inhibited [³H]TdR incorporation by both mitogen stimulated lymphocytes and tumor cells. These studies demonstrate the capacity of macrophages to regulate lymphocyte transformation in vitro and suggest a role for these cells as regulators of cell-mediated immunity in vivo.     

Monoclonal antibodies recognizing cell surface antigens in Drosophila melanogaster

Monoclonal antibodies have been made against cell surface antigens from Drosophila melanogaster, as probes for “differentiation antigens.” The immunogens used were 0–16 hr embryonic cells and mass isolated imaginal discs. The tissue distributions of the antigens recognized by three antiembryonic antibodies and two antiimaginal disc antibodies have been defined by indirect immunofluorescent (IIF) assays on differentiated embryonic cell cultures and on dissected third instar larval organs. These antigens fall into two major categories being either ubiquitous or tissue-limited in distribution. In indirect radioimmunoassays against 12 Drosophila cell lines the antigens showing ubiquitous tissue distributions were detectable on all cell lines whereas the tissue-limited antigens were absent from some cell lines. Such a screen against cell lines therefore provides a straightforward means of identifying antibodies against nonubiquitous antigens. One antibody recognizing a tissue-limited antigen was detected as muscle-specific by IIF assays on differentiated embryonic cell cultures. The second tissue-limited antigen was found to label basement membranes, by IIF assays against third instar larval organs. The temporal distribution of the antigens during embryogenesis (3–21 hr) has been studied by indirect radioimmunoassay. In this respect the antigens fall into three classes: (1) abundant throughout embryogenesis (a ubiquitous antigen), (2) present throughout embryogenesis but increasing markedly in abundance between 12 and 15 hr (two ubiquitous antigens and the muscle-specific antigen), and (3) absent early in development but appearing at about 12 hr postfertilization (the tissue-limited, basement membrane antigen).     

Distinct populations of macrophages in the adult rat adrenal gland: a subpopulation with neurotrophin-4-like immunoreactivity

Macrophages are widely distributed in lymphohaemopoietic and many other mammalian tissues, where they are mainly involved in host defence mechanisms, phagocytosis, wound repair, and secretion of growth factors. Increasing evidence suggests that secretory products of macrophages can influence adrenal gland functions. In the present study, we have used specific antibodies to ED1 (cytoplasmic antigen), ED2 (membrane antigen), ED8 (membrane antigen), and OX-6 (MHC class II/membrane antigen) as markers for macrophages to examine their distribution within the adult rat adrenal gland. ED2 and OX-6 recognize distinct subpopulations of adrenal gland macrophages, whereas macrophages immunoreactive (-ir) for ED1 and ED8 could not be detected. OX-6-ir macrophages were most numerous in the cortical reticularis and glomerulosa zones, while only few cells were found in the zona fasciculata and in the adrenal medulla. Macrophages immunoreactive for ED2 were restricted to the adrenal medulla. The majority of these macrophages were associated with vascular sinuses or chromaffin cells. By double-immunolabelling we found that most of ED2-ir medullary macrophages contain neurotrophin-4 (NT-4)-like ir. Attempts to clarify whether macrophages take up NT-4 from NT-4-ir chromaffin cells indicated that medullary macrophages are immunonegative for chromogranin A and neuropeptide Y, two major secretory products of chromaffin cells. In situ hybridizations and immunofluorescence showed expression of the neurotrophin receptor TrkA, but not TrkB in the adrenal medulla. In vitro studies indicated that NT-4, similar to nerve growth factor, can induce c-fos-ir in chromaffin cells. We conclude that chromaffin cells are putative targets for adrenal medullary NT-4, whose functions remain to be clarified.     

Isolation and characterization of monoclonal antibodies reactive with endothelial cells

Monoclonal antibodies were generated to antigens on cultured human umbilical vein endothelial cells. Spleen cells from BALB/c mice, immunized with low passage cultures of human umbilical vein endothelial cells, were fused with the non-secretory myeloma line, P3 x 63Ag 8.653. Hybridoma supernatants were screened for the desired immunological reactivity using ELISA binding assays. Hybridomas secreting antibodies reacting with the immunizing endothelial cells, but not with peripheral blood mononuclear cells, were cloned by limiting dilution and three stable clones were chosen for study. Further testing by ELISA revealed that each antibody displayed a unique pattern of reactivity. One antibody, 14E5, reacted with the macrophage-like cell line DHL-2, cultured macrophages derived from peripheral blood monocytes, and macrophages derived from malignant effusions. The antibody failed to react with fibroblasts or bovine endothelial cells. The second antibody, 12C6, reacted with human and primate fibroblasts and endothelial cells derived from bovine arteries, but not with mature macrophages. The third clone, 10B9, reacted only with the immunizing endothelial cells and the immature-macrophage line U-937. All three antibodies failed to react with long-term human B or T lymphoblastoid cell lines, leukemic cell lines, or murine macrophage lines. None of the antibodies reacted with a battery of human epithelial derived cell lines or primary cultures of human epithelial cells. Indirect immunofluorescence assays revealed that the antigens were expressed on the cell surface. These antibodies should prove useful as differentiation markers of human endothelial cells and in studies of endothelial cell function.     

Detection of guinea pig macrophages by a new CD68 monoclonal antibody, PM-1K

A new monoclonal antibody, PM-1K, was raised against 24-h cultured human peritoneal macrophages. In immunohistochemical assays, PM-1K recognized freshly isolated blood monocytes and most tissue macrophages as well as myeloid dendritic cells such as Langerhans cells and interdigitating cells. The molecular size of the antigen recognized by PM-1K was determined to be 110 kD by means of immunoaffinity purification. Because this affinity-purified antigen recognized by PM-1K was also recognized by anti-CD68 antibodies, it is believed to be one of the heterogeneous molecules of the CD68 antigen. Analysis showed interspecies reactivity of PM-1K with macrophages from guinea pigs, pigs, bovine species, and monkeys. Among these macrophages, those of the guinea pig reacted strongly with PM-1K. Patterns of PM-1K immunostaining in guinea pig tissues were similar to those found in human tissues. Studies with the immunoelectron microscope revealed reaction products of PM-1K in the cytoplasm, especially around endosomes. Since only a few antibodies are available to label guinea pig macrophages, PM-1K is considered to be one of the most suitable antibodies to examine macrophages in experimental guinea pig models.     

The tumor promoter, 12-O-tetradecanoylphorbol-13-acetate accelerates keratinocyte differentiation and stimulates growth of an unidentified cell type in cultured human epidermis

Studies were conducted to determine the effects of the mouse skin tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA) on cultured human epidermal cells for comparison with known effects on mouse keratinocytes. In contrast to its effect on mouse cells, TPA did not stimulate human epidermal cell DNA synthesis. TPA stimulated differentiation in human keratinocytes resulting in sloughing of many cells by the 3rd day after exposure. Quantitative assays revealed that 50% of the TPA-exposed population was composed of cornified cells as opposed to 8% in untreated controls. A morphologically distinct cell type (TT cell) emerged after TPA treatment which was triangular in shape, did not stratify, appeared to proliferate rapidly and at most TPA concentrations became the predominant cell type within 1–2 weeks. Cultures composed predominantly of TT cells formed few cornified envelopes, grew well in the absence of TPA and formed colonies at low cell input. In contrast to its effect on keratinocytes, TPA enhanced TT colony formation 3–4-fold and decreased the doubling time of TT cells. Studies were performed to determine the origin of TT cells. Immunofluorescent staining indicated that TT cells lacked the keratinocyte antigens keratin, pemphigus and pemphigoid. Tonofilaments and desmosomes were not seen by electron microscopy. The lack of both melanosomes and standard histochemical DOPA oxidase staining indicated that TT cells were probably not of melanocyte origin. Tests used to identify Langerhans cells were negative. Whereas TT cells, as well as dermal fibroblasts, yielded positive immunofluorescence with antibodies to vimentin, TT cells gave a weak histochemical leucine aminopeptidase reaction, while the reaction of fibroblasts exposed to TPA was strong. Treatment of human dermal fibroblasts with TPA did not yield TT cells. The endothelial cell antigen factor VIII-associated protein was absent by immunofluorescence. These results suggest that the primary effect of TPA on cultured human epidermis is to accelerate terminal differentiation in the keratinocyte population and to stimulate growth of an as yet unidentified cell type.     

Zebrafish Kidney Phagocytes Utilize Macropinocytosis and Ca2+-Dependent Endocytic Mechanisms

Background

The innate immune response constitutes the first line of defense against invading pathogens and consists of a variety of immune defense mechanisms including active endocytosis by macrophages and granulocytes. Endocytosis can be used as a reliable measure of selective and non-selective mechanisms of antigen uptake in the early phase of an immune response. Numerous assays have been developed to measure this response in a variety of mammalian and fish species. The small size of the zebrafish has prevented the large-scale collection of monocytes/macrophages and granulocytes for these endocytic assays.

Methodology/Principal Findings

Pooled zebrafish kidney hematopoietic tissues were used as a source of phagocytic cells for flow-cytometry based endocytic assays. FITC-Dextran, Lucifer Yellow and FITC-Edwardsiella ictaluri were used to evaluate selective and non-selective mechanisms of uptake in zebrafish phagocytes.

Conclusions/Significance

Zebrafish kidney phagocytes characterized as monocytes/macrophages, neutrophils and lymphocytes utilize macropinocytosis and Ca²⁺-dependant endocytosis mechanisms of antigen uptake. These cells do not appear to utilize a mannose receptor. Heat-killed Edwardsiella ictaluri induces cytoskeletal interactions for internalization in zebrafish kidney monocytes/macrophages and granulocytes. The proposed method is easy to implement and should prove especially useful in immunological, toxicological and epidemiological research.     

A monoclonal antibody against an antigen present on mouse macrophages and absent from monocytes

Summary A monoclonal antibody (BM8) raised in the rat against cultured mouse bone marrow-derived macrophages reacted only with macrophages and not with granulocytes, mast cells, platelets, lymphocytes, fibroblasts, and endothelial cells. BM8 did not detect blood monocytes. In cultured bone-marrow cells, expression of BM8-antigen was found on a few macrophages after one day of culture and reached its maximum level with 80% positive macrophages after 7–10 days of culture. The antibody BM8 belonged to the IgG_2a subclass, was non-cytotoxic and directed against a 125 kD membrane antigen. In cryostat sections of normal mouse tissues (spleen, lymph node, thymus, liver, skin) BM8 detected tissue-fixed macrophages and Langerhans cells in the skin. In spleen and lymph node, BM8 reacted with macrophages in the red pulp and in the medullary cords, respectively, but not with heavily phagocytosing marginal-zone macrophages, as revealed by in-vivo phagocytosis of colloidal carbon. In granulomata induced by complete Freund's adjuvant, BM8 detected inflammatory macrophages but not epithelioid cells. Thus, antibody BM8 detected a differentiation antigen expressed only on mature, tissue-fixed macrophages.     

Role of extracellular virus on the maintenance of the persistent infection induced in Aedes albopictus (mosquito) cells by Sindbis virus.

Sindbis virus infection of cultured mosquito cells was found to have no effect on the growth of these cells; instead, a persistent infection of the culture followed an initial acute phase of rapid virus synthesis. Nearly all of the cells in the acute stage of infection were found to actively release virus in an infectious-center assay and to contain significant amounts of virus antigen as determined by immunofluorescence. Cells in the persistent phase of infection released few virions into the media, and only a small percentage of the cultured cells could be demonstrated to contain detectable amounts of virus antigen by immunofluorescence assay. In spite of the fact that nearly 100% of the cells in the persistent phase of infection were found to be virus negative by the two assays described above, the culture as a whole totally excluded the expression of superinfecting virus, as did cells in the acute phase, suggesting that most of the persistently infected cells did, indeed, contain virus information. Prevention of reinfection of the cells in the persistent phase by eliminating extracellular virus resulted in a curing of the culture such that it responded to infection by added virus much as would an uninfected culture.     

Plasma apolipoprotein secretion by human monocyte-derived macrophages

Apolipoprotein E has been demonstrated to be a major secretory protein of human monocyte macrophages. The synthesis of the other plasma apolipoproteins by these cells has not been documented. Human monocyte macrophages cultured for 17-76 days were preincubated for 24 h in RPMI 1640/0.2% bovine serum albumin with or without malondialdehyde-LDL (100 micrograms/ml), followed by an additional 24 h incubation in RPMI 1640/0.2% bovine serum albumin. The media from the two incubation periods were analyzed for apolipoproteins A-I, B, C-II, C-III and E by specific radioimmunoassays. No apolipoprotein B mass was detected with a specific radioimmunoassay capable of detecting 10 ng apolipoprotein B. No apolipoproteins A-I, C-II or C-III mass was detected, even though the radioimmunoassays for these apolipoproteins were as sensitive as that for apolipoprotein E (detection limit of 0.2 ng). In contrast, significant levels of macrophage-secreted apolipoprotein E were quantified. Baseline apolipoprotein E production ranged from 0.64 to 2.82 micrograms/mg cell protein per 24 h. Preincubation in the presence of malondialdehyde-LDL (100 micrograms/ml) stimulated a 1.6-3.0-fold increase in apolipoprotein E secretion. The identification of the immunoreactive material as apolipoprotein E was confirmed by labelling the cells with [35S]methionine, followed by fractionation of the 35S-labelled secretory products by anti-apolipoprotein E affinity chromatography and SDS-gel electrophoresis. We thus report the absence of synthesis of apolipoproteins A-I, B, C-II and C-III by cultured human monocyte macrophages. These cells, however, can synthesize microgram levels of apolipoprotein E on a per mg protein basis.     

Extracellular vesicles secreted by Giardia duodenalis regulate host cell innate immunity via TLR2 and NLRP3 inflammasome signaling pathways

Giardia duodenalis, also known as G. intestinalis or G. lamblia, is the major cause of giardiasis leading to diarrheal disease with 280 million people infections annually worldwide. Extracellular vesicles (EVs) have emerged as a ubiquitous mechanism participating in cells communications. The aim of this study is to explore the roles of G. duodenalis EVs (GEVs) in host-pathogen interactions using primary mouse peritoneal macrophages as a model. Multiple methods of electron microscopy, nanoparticle tracking analysis, proteomic assays, flow cytometry, immunofluorescence, qPCR, western blot, ELISA, inhibition assays, were used to characterize GEVs, and explore its effects on the host cell innate immunity as well as the underlying mechanism using primary mouse peritoneal macrophages. Results showed that GEVs displayed typical cup-shaped structure with 150 nm in diameter. GEVs could be captured by macrophages and triggered immune response by increasing the production of inflammatory cytokines Il1β, Il6, Il10, Il12, Il17, Ifng, Tnf, Il18, Ccl20 and Cxcl2. Furthermore, activation of TLR2 and NLRP3 inflammasome signaling pathways involved in this process. In addition, CA-074 methyl ester (an inhibitor of cathepsin B) or zVAD-fmk (an inhibitor of pan-caspase) pretreatment entirely diminished these effects triggered by GEVs exposure. Taken together, these findings demonstrated that GEVs could be internalized into mouse peritoneal macrophages and regulate host cell innate immunity via TLR2 and NLRP3 inflammasome signaling pathways.     

A modified microassay for human macrophage activation: I. Activation by antigen-stimulated lymphocytes and correlation with delayed hypersensitivity

The degree of activation of glass-adherent human blood monocyte-macrophages cultured with autologous lymphocytes was assessed by measurement of [¹⁴C]glucosamine uptake. In the absence of streptokinase-streptodornase (SK-SD) or purified protein derivative of tuberculin (PPD) minimal incorporation of the labeled compound occurred. Enhanced glucosamine uptake in the presence of antigen was positively correlated with cell donor-delayed skin hypersensitivity (PPD) and in vitro lymphoproliferative response (PPD, SK-SD). Increasing antigen or mononuclear cell concentrations resulted in increasing macrophage glucosamine uptake. Lymphoblasts, cell clumping, and macrophages with prominent pseudopodia were seen on stained monolayers of stimulated cells. Radioautography of such monolayers showed that the radiolabel was present only in mononuclear phagocytes. Adherent cell protein also generally increased in stimulated monolayers but did not account for the enhanced glucosamine uptake. Measurement of radioactive glucosamine incorporation into human macrophages is a useful tool to assess their degree of activation by lymphocytes stimulated by specific antigen.     

The role of macrophages in the generation of T-helper cells. I. The requirement for macrophages in helper cell induction and characteristics of the macrophage-T cell interaction.

The role of macrophages in the induction of helper cells in vitro was investigated. Using either soluble or particulate antigens, macrophages were found to be essential. This was true regardless of the anatomical source of the T cells (spleen, lymph node or the cortisone resistant pool of the thymus), or of the method of macrophage depletion, (adherence to polystyrene or nylon wool, or by the use of carbonyl iron). There were some differences, however, depending on the physical nature of the antigen used. With soluble antigen, 2-mercaptoethanol or allogeneic macrophages would not overcome the macrophage deficit, whereas they did with particulate antigen. The nature of the interaction between macrophages and T cells was investigated using flasks with double chambers, separated by a nucleopore membrane with 0.2 μm pores. Since there was effective interaction, contact between T cells and macrophages is not essential for helper cell induction.     

Leishmania enriettii: Immune induction of macrophage activation in an experimental model of immunoprophylaxis in the mouse

This study describes some of the parameters of the cellular immune response elicited in mice by inoculation of the nonpathogenic protozoan parasite, Leishmania enriettii. Incubation in vitro of leishmania-infected mouse peritoneal macrophages with spleen cells from syngeneic leishmania-immune animals resulted in activation of the phagocytes, leading to intracellular parasite destruction. Activation required interaction of sensitized lymphocytes with parasite antigen released or displayed by infected macrophages. The effect was dependent both on the dose of parasites used for in vivo priming and on the number of spleen cells cocultivated with parasitized macrophages. The activating capacity of lymphocytes was abrogated by anti-Thy-1 antiserum treatment and was retained in the effluent cells after nylon-wool separation. Activation was followed by lysis of part of the macrophage monolayer. Destruction of the phagocytes did not appear to result from the activation process per se and may represent a cytotoxic activity of sensitized lymphocytes for macrophages bearing parasite antigen on their surface.     

MHC control of T lymphocyte-macrophage interactions

Identity at the major histocompatibility complex (MHC) of primed T cells and macrophages was essential for the development of a T cell proliferative response to Purified Protein Derivative of tuberculin (PPD) in the presence of macrophage-associated antigen and potential allogeneic effects were eliminated by the use of one-way fetal liver chimeras as a T cell source. By contrast, such MHC restriction could not be shown for the T cell—macrophage interaction when antigen was present in soluble form.It was found that the proliferative response of primed (responder × nonresponder) F₁ T cells to the Ir-gene controlled antigen, TNP-18 [Glu-Tyr-Lys (TNP) (Glu-Tyr-Ala)₅], could only be restored by responder macrophages with bound antigen, while both responder and nonresponder macrophages reconstituted the response to soluble TNP-18. Supernatants from cultured responder or nonresponder macrophages could at least partially replace viable macrophages in the latter case.These results argue for two distinct antigen presentation mechanisms, depending on the physical state of the antigen rather than its chemical nature: one involves recognition of antigen in association with MHC-coded determinants and shows H-2 restriction, while the other, mediated by soluble factors and antigen, does not.     

Modulation of granulomatous hypersensitivity against Schistosoma mansoni eggs in mice vaccinated with culture-derived macrophages loaded with PIII

Granuloma modulation induced by antigen is an attractive model for vaccination studies of experimental schistosomiasis to test the effect of anti-pathology vaccine. We describe here an immunization procedure with culture derived macrophages-pulsed PIII, a known anionic antigen purified from S. mansoni adult worm, involved in the inhibition of granulomatous response to eggs. For our studies, peritoneal or spleen macrophages cultured over 15 days were loaded with PIII. Both macrophage sub-populations were capable to efficiently take up and subsequently present PIII to lymphocytes as evidenced by immunofluorescence assay. The vaccination of mice with intravenous injection of PIII-loaded macrophages potently induced antigen-specific immune response to S. mansoni antigens as determined by cell proliferation assay. This immunization procedure of mice caused significant decrease in hepatic granuloma formation and in vitro granuloma reaction to S. mansoni antigens coupled to polyacrylamide beads (PB-SEA, PB-SWAP or PB-PIII). Assessment of in vitro granuloma supernatant of spleen cells from PIII-loaded macrophages vaccinated mice revealed significant amounts of Th1-cytokines IFN-gamma and IL-2 compared to control cells. Collectively, our results indicate that culture derived-macrophages provided a valuable research tool to investigate aspects of immune response that promote modulation of granulomatous hypersensitivity to S. mansoni eggs in mice.     

Thymocyte binding to human thymic epithelial cells is inhibited by monoclonal antibodies to CD-2 and LFA-3 antigens

With the use of cultured human thymic epithelial (TE) cells, we have previously shown that thymocytes bind to TE cells in suspension in a rosette-forming assay. To identify cell surface molecules involved in human TE-thymocyte rosette formation, we assayed a large panel of monoclonal antibodies for their ability to inhibit rosette formation. We found anti-CD-2 (LFA-2, T11), and anti-LFA-3 antibodies all inhibited binding of TE cells to thymocytes. By using indirect immunofluorescence assays, we determined that cultured TE cells were 90% LFA-3 positive and CD-2 negative, whereas thymocytes were 10% LFA-3 positive and 98% CD-2 positive. Pretreatment of TE cells with anti-LFA-3 but not anti-LFA-2 inhibited TE-thymocyte binding. In contrast, pretreatment of thymocytes with anti-CD-2 but not anti-LFA-3 antibodies inhibited TE-thymocyte binding. Thus TE cell-thymocyte binding is blocked by antibodies to the CD-2 (T11) antigen on thymocytes and by an antibody to the LFA-3 antigen on TE cells. Because the CD-2 antigen has been implicated in T cell activation, these data suggest that a natural ligand for T cell activation via the CD-2 molecule is present on human thymic epithelial cells.