Glucocorticoid receptors and glucocorticoid-sensitive secretion of neutral proteinases in a macrophage line.

A continuous line of mouse macrophages (P388D1) has been shown to secrete elastase, collagenase, and plasminogen activator at activities comparable to those of macrophages elicited by an inflammatory stimulus in vivo. At physiologic concentrations anti-inflammatory glucocorticoids selectively and reversibly inhibited secretion of the three proteinases but did not inhibit secretion of lysozyme, a constitutive enzyme produced by the P388D1 cells. The secretion of the neutral proteinases was inhibited 50% by 2 to 10 nM dexamethasone. Proliferation of the macrophages was also glucocorticoid sensitive. The P388D1 macrophages contained about 4000 saturable glucocorticoid-binding sites per cell. Concentrations of hormone saturating the high affinity receptor site (for dexamethasone the dissociation constant for steroid-receptor binding, Kd, was 4 nM) correlated well with concentrations inhibiting secretion of the proteinases. Only glucocorticoids and progesterone competed for binding to the specific receptors. Temperature-sensitive translocation of hormone-receptor complexes from "cytoplasm" to nucleus similar to that found with rat thymocytes was demonstrated. Thus, the interaction between glucocorticoids and the P388D1 cell line provides a model for the regulation of macrophage secretion of neutral proteinases under normal and stress conditions.     

Receptor-mediated phagocytosis of zymosan is unaffected by some conditions which reduce macrophage lysosomal enzyme secretion

We have previously shown that several agents which interfere with binding of ligands to the mannose-glycoprotein receptor on macrophages can inhibit zymosan-induced lysosomal enzyme secretion. Here we show that mannose only reduces the association of zymosan with macrophages during the first hour of exposure; after longer periods of uptake no effect is detectable. We have previously shown that mannose reduces surface binding of zymosan, probably by interfering selectively with binding to the mannose receptor. The present inhibition of association of zymosan with macrophages during short exposures can be entirely explained by this reduction of binding. Macrophages must therefore internalize zymosan at sites in addition to the mannose receptor. In contrast to macrophages the murine macrophage-like cell line P388D1 is lacking the mannose-glycoprotein receptor. Accordingly we find that binding of zymosan to P388D1 is much slighter than to macrophages and is unaffected by mannose or mannose-6-phosphate. The spontaneous lysosomal enzyme secretion of P388D1 is also unaffected by mannose. The data on macrophages confirm our previous suggestion that agents interfering with the mannose receptor inhibit the induction of lysosomal enzyme secretion by acting directly on the receptor. The data on P388D1 cells support this assertion by excluding effects at later steps in the secretory pathway.     

The regulation of thymidine secretion by macrophages.

The secretion of thymidine by mononuclear phagocytes was correlated with the activity of the enzyme thymidine kinase (TK). Macrophages cultured in regular tissue culture medium released thymidine and did not express TK. However, when macrophages were incubated with medium conditioned by L cells, they expressed TK, incorporated 3H thymidine into trichloroacetic acid precipitable material, and ceased to secrete the nucleotide. Furthermore, replicating P388/D1 cells were induced to secrete thymidine by inhibiting TK with d-glucosamine. These results have demonstrated an inverse relationship between thymidine secretion and the expression of TK. They suggest that thymidine secretion by macrophages may be attributed to their lack of TK activity.     

Staurosporine-induced apoptosis in P388D1 macrophages involves both extrinsic and intrinsic pathways

Treatment of P388D1, a macrophage-like cell line, with staurosporine triggered apoptosis through the activation of caspase-9 and caspase-3. Unexpected effects of staurosporine on the induction of apoptosis were the activation of caspase-8, and an increase of the levels of TNF-α. The increased TNF-α levels led to activation of caspase-8 by an autocrine effect via the TNF receptor expressed by the P388D1 macrophages. In contrast, P388D1 macrophages that either had been exposed to UV light or treated with dexamethasone did not undergo apoptosis.     

Antigen presentation to T cell hybridomas by a macrophage cell line: an inducible function

We have investigated the ability of an Ia-, nonantigen-presenting macrophage tumor cell line, P388D, (H-2d), to present antigen to T cell hybridomas after incubation in a lymphokine-containing preparation. P388D, cells were incubated in microtiter wells with various concentrations of Con A-stimulated spleen cell supernatants. Antigen-specific stimulation of H-2d-restricted, KLH-specific T cell hybridomas was observed by P388D1 incubated with SUP.P388D1 cells incubated for 3 days in medium or control SUP did not present antigen. In addition, no stimulation of T hybridomas was seen by P388D1 in the inhibited by the appropriate monoclonal anti-Ia reagents. These results demonstrate that a macrophage tumor cell line can be induced to present antigen and provides for large numbers of readily available, homogeneous macrophages for studying the cellular biochemical requirements for antigen processing and presentation.     

Onset of apoprotein E secretion during differentiation of mouse bone marrow-derived mononuclear phagocytes

A number of macrophage functions were sequentially expressed when the bone marrow precursors of mononuclear phagocytes differentiated in culture in the presence of a specific growth factor, colony-stimulating factor-1. We have defined the expression of apoprotein E (ApoE), a major secreted protein of resident peritoneal macrophages, during maturation of adherent bone marrow-derived mononuclear phagocytes into macrophages. By 5 d the bone marrow macrophages were active secretory cells, but few cells contained intracellular immunoreactive ApoE, and little, if any, ApoE was secreted. ApoE secretion was initiated at 9 d, and this correlated with an increase in the percentage of macrophages containing intracellular ApoE. The onset of ApoE secretion was selective, and little change occurred in the other major secreted proteins detected by [35S]methionine incorporation. In parallel, the high rate of plasminogen activator secretion, which peaked at 7 d, decreased markedly. ApoE secretion was not associated with altered expression of the macrophage surface antigen, Ia, or with secretion of fibronectin. Virtually all cells in independent colonies of bone marrow- derived macrophages eventually expressed ApoE. The proliferating monocyte/macrophage-like cell lines P388D1, J774.2, WEHI-3, RAW 264.1, and MGI.D+ secreted little or no ApoE. These data establish that ApoE secretion is developmentally regulated.     

Leishmania donovani affects antigen presentation of macrophage by disrupting lipid rafts

Leishmania donovani-infected splenic macrophages and P388D1 (P388D1(I)) failed to activate T cells in response to low dose of exogenous peptide. The membrane fluidity of P388D1(I) was greater than that of the normal counterpart P388D1(N), but could be reduced either by exposing the cell below phase transition point or by loading cholesterol into membrane (L-P388D1(I)), and this was associated with enhanced Ag-presenting ability of P388D1(I). Presentation of endogenous leishmanial Ag, kinetoplastid membrane protein-11, was also defective, but could be corrected by loading cholesterol into membrane. Because membrane rafts are important for Ag presentation at a low peptide dose, raft architecture of P388D1(I) was studied using raft (CD48 and cholera toxin-B) and non-raft (CD71) markers in terms of their colocalization with I-A(d). Binding of anti-CD48 mAb and cholera toxin B subunit decreased significantly in P388D1(I), and consequently, colocalization with I-A(d) was not seen, but this could be restored in L-P388D1(I). Conversely, colocalization between I-A(d) and CD71 remained unaffected regardless of the presence or the absence of intracellular parasites. P388D1(N) and L-P388D1(I), but not P388D1(I), formed peptide-dependent synapse with T cells quite efficiently and this was found to be corroborated with both intracellular Ca2+ mobilization in T cells and IL-2 production. This indicated that intracellular parasites disrupt the membrane rafts, possibly by increasing the membrane fluidity, which could be corrected by making the membrane rigid. This may be a strategy that intracellular L. donovani adopts to evade host immune system.     

Regulation of arachidonic acid mobilization in lipopolysaccharide-activated P388D(1) macrophages by adenosine triphosphate

Murine P388D(1) macrophages exhibit a delayed prostaglandin biosynthetic response when exposed to bacterial lipopolysaccharide (LPS) for prolonged periods of time that is dependent on induction of the genes coding for Group V secretory phospholipase A(2) and cyclooxygenase-2. We herein report that LPS-induced arachidonic acid (AA) metabolite release in P388D(1) macrophages is strongly attenuated by the P2X(7) purinergic receptor antagonists periodate-oxidized ATP and pyridoxal-phosphate-6-azophenyl-2', 4'-disulfonic acid, and this is accompanied by suppression of the expression of both Group V secretory phospholipase A(2) and cyclooxygenase-2. The effect appears to be specific for LPS, because the P2 purinergic receptor antagonists do not affect P388D(1) cell stimulation by other stimuli such as platelet-activating factor or the Ca(2+) ionophore A23187. Moreover, extracellular nucleotides are found to stimulate macrophage AA mobilization with a pharmacological profile that implicates the participation of the P2X(7) receptor and that is inhibited by periodate-oxidized ATP. Collectively these results demonstrate coupling of the P2X(7) receptor to the AA cascade in P388D(1) macrophages and implicate the participation of this type of receptor in LPS-induced AA mobilization.     

Characterization of lymphocyte-activating factor (LAF) produced by a macrophage cell line, P388D1. II. Biochemical characterization of LAF induced by activated T cells and LPS.

Unstimulated P388D1 cells, as well as P388D1 cells stimulated with PHA-activated guinea pig T lymphocytes or LPS, produced a lymphocyte activating factor (LAF). In order to have a chemical basis for comparing this LAF with the LAF produced by normal macrophages, we have analyzed several biochemical characteristics of the P388D1-derived LAF. Sephadex G-75 chromatography of concentrated LAF-containing supernatants from cultures of unstimulated and T cell stimulated P388D1 cells demonstrated that the cell line LAF had a m.w. of approximately 16,000. On DEAE cellulose, the T cell-induced LAF fractionated into at least three major peaks and one minor peak. By using hydroxylapatite chromatography, two of the major peaks of LAF activity were separated from residual contaminating Lowry positive material. LPS-stimulated P388D1 also produced LAF with a m.w. of 16,000. However, the LPS-induced LAF appeared to lack one of the DEAE peaks of LAF activity observed with the T cell-derived LAF. In contrast to LPS, T cells may induce the synthesis and/or release of an additional LAF component or enzymatically modify one or more of the LAF species that are produced in response to both stimulants. Based on the results of chemical characterization studies, the P388D1-derived LAF appears to be similar in size and charge to the lymphocyte activating factor produced by normal macrophages.     

Metabolism of normal and modified low-density lipoproteins by macrophage cell lines of murine and human origin

Four murine macrophage-like continuous cell lines (P388D1, J774.1, RAW 264.7, and PU5-1.8) and two human cell lines displaying macrophage-monocyte characteristics (HL-60, U-937) have been examined for their ability to degrade both normal and acetylated low-density lipoproteins. All of these cell lines, except PU5-1.8, were demonstrated to have LDL receptors that were induced 2-5-fold by preincubation in lipoprotein-deficient serum. Metabolism of dextran sulfate-LDL complexes by all lines except PU5-1.8 was observed. Three cell lines, P388D1, J774.1 and RAW 264.7, while exhibiting individual differences in their metabolism of acetyl-LDL, all processed acetyl-LDL in a fashion qualitatively analogous to that by murine peritoneal macrophages and human monocytes. Cell lines PU5-1.8, U-937 and HL-60 did not bind or degrade significant quantities of acetyl-LDL. In P388D1 cells, metabolism of acetyl-LDL exhibited time and concentration dependence, was reversibly inhibited by chloroquine, blocked by fucoidan and dextran sulfate, and was calcium independent. Approximately 4 X 10(5) receptors, with an apparent Kd of 3 X 10(-8) M, were present on P388D1 cells. P388D1 cells metabolized 30% as much acetyl-LDL as murine peritoneal macrophages at 37 degrees C and bound 60% as much at 4 degrees C. Chemical measurement demonstrated a 250-fold increase in the cholesteryl ester content of P388D1 cells over 96 h. The accumulation of cholesteryl esters was reversible in the presence of HDL3 and involved continuous hydrolysis and reesterification. These lines represent a convenient resource for examining the metabolism of chemically modified lipoproteins, for isolation of cell mutants, and for isolation of specific lipoprotein receptors.     

31P NMR study of intracellular pH during the respiratory burst of macrophages

The metabolic events occurring during the respiratory burst of macrophages previously primed in vivo with lipopolysaccharide were studied by 31P nuclear magnetic resonance, using the P388D1 cell line as a model of the mature macrophages. Using perchloric acid extracts, the presence of phosphocreatine was shown in the primed cells, indicating that in control P388 D1 macrophages, in which no phosphocreatine was seen, in vivo maturation was incomplete. The cells primed in vivo exhibited greater maturation than the control cells, as well as greater creatine kinase activity. Perfusion of gel-embedded macrophages allowed the monitoring of phosphorylated metabolite peak intensities and of the intracellular pH. After the respiratory burst of the primed macrophages had been triggered by concanavalin A, these intensities did not alter significantly, but the intracellular pH decreased. 31P NMR spectra reflected transient acidification in the primed cells, possibly due to the formation of endocytic vesicles and their fusion with lysosomes.     

Macrophage-derived TGF-beta1 induces IgA isotype expression

TGF-beta1 is a potent IgA isotype switching factor. However the cell population that generates the TGF-beta is not known. In this study, we examined the origin of the TGF-beta1 that is secreted by LPS-activated murine total spleen cell cultures and that is responsible for IgA isotype switching. Treatment with anti-TGFbeta1 antibody decreased IgA secretion 2 fold in these cultures and caused a 5-fold decrease in the number of IgA secreting cells. In Mphi-depleted spleen cell populations, this IgA response was markedly reduced and anti-TGFbeta1 antibody had no additional effect on IgA production. The inference that Mphi-derived TGF-beta1 is responsible for the isotype switching is supported by observations with the macrophage line, P388D1. LPS, particularly in the presence of IFN-gamma, induced P388D1 cells to secrete active TGF-beta1. The supernatant from such an activated P388D1 culture, in combination of IL-2, stimulated IgA secretion and this effect was abolished by anti-TGFbeta1 antibody.     

Identification of a third pathway for arachidonic acid mobilization and prostaglandin production in activated P388D1 macrophage-like cells

Previous studies have demonstrated that P388D(1) macrophages are able to mobilize arachidonic acid (AA) and synthesize prostaglandins in two temporally distinct phases. The first phase is triggered by platelet-activating factor within minutes, but needs the cells to be previously exposed to bacterial lipopolysaccharide (LPS) for periods up to 1 h. It is thus a primed immediate phase. The second, delayed phase occurs in response to LPS alone over long incubation periods spanning several hours. Strikingly, the effector enzymes involved in both of these phases are the same, namely the cytosolic group IV phospholipase A(2) (cPLA(2)), the secretory group V phospholipase A(2), and cyclooxygenase-2, although the regulatory mechanisms differ. Here we report that P388D(1) macrophages mobilize AA and produce prostaglandins in response to zymosan particles in a manner that is clearly different from the two described above. Zymosan triggers an immediate AA mobilization response from the macrophages that neither involves the group v phospholipase A(2) nor requires the cells to be primed by LPS. The group VI Ca(2+)-independent phospholipase A(2) is also not involved. Zymosan appears to signal exclusively through activation of the cPLA(2), which is coupled to the cyclooxygenase-2. These results define a secretory PLA(2)-independent pathway for AA mobilization in the P388D(1) macrophages, and demonstrate that, under certain experimental settings, stimulation of the cPLA(2) is sufficient to generate a prostaglandin biosynthetic response in the P388D(1) macrophages.     

Cholera toxin stimulates IL-1 production and enhances antigen presentation by macrophages in vitro

Cholera toxin (CT) is a strong systemic and mucosal adjuvant that greatly enhances IgG and IgA immune responses. We investigated whether CT potentiates Ag presentation by macrophages as a possible mechanism underlying its adjuvant function. This was tested by preculturing APC in CT and analyzing the effect of CT treatment on the capacity to trigger 1) an allogeneic proliferative response of normal mesenteric lymph node T cells (H-2b) to the macrophage cell line P388D1 (H-2d) or 2) an Ag-specific proliferative response of D10.G4.1 clonal T cells in co-culture with normal macrophages and Ag. Pretreatment of APC, normal peritoneal macrophages or the P388D1 cells, with CT strongly enhanced Ag- and allogen-specific T cell proliferation. Also P388D1 APC treated with CT and then formalin-fixed demonstrated enhanced ability to stimulate T cell proliferation as compared to cells not exposed to CT, suggesting that the effect of CT on APC might be to enhance expression of a cell-associated factor. Flow microfluorimetry analysis of P388D1 cells cultured in CT-containing medium failed to detect an increase in class II MHC-Ag expression as compared to that found on cells not cultured in CT. In contrast, both soluble and cell-associated IL-1 formation was increased several-fold by CT, but with different CT dose requirements. A total of 10 to 100 times more CT were required for elevating the soluble IL-1 as compared to the cell associated IL-1, which was increased by as little as 1 ng/ml of CT. The soluble and cell-associated IL-1 activity induced by CT was abrogated by a polyclonal antiserum to IL-1-alpha. Similarly, the potentiating effect of CT on the ability of P388D1 APC to trigger alloreactive T cell proliferation was also blocked completely by the addition of the anti-IL-1-alpha antibody to the test system. This is the first study to demonstrate that CT potentiates Ag presentation. The mechanism for this effect probably involves induction of IL-1 production and in particular of a cell-associated form of IL-1 (IL-1-alpha). Potentiation of APC function might be important for the adjuvant action of CT on the immune response in vivo.     

Enhanced interleukin 1 (IL-1) production mediated by mouse serum amyloid P component

Purified serum amyloid P component (SAP), the major acute-phase reactant of mice, induces enhanced interleukin 1 (IL-1) production by elicited monocytes/macrophages in vitro. SAP also enhanced IL-1 elaboration by macrophages from lipopolysaccharide (LPS)-low responder mice and in the presence of polymyxin B, indicating that the small amounts of LPS present in the SAP preparation did not augment IL-1 production. Concentrations of SAP of 0.1 to 10.0 micrograms/ml enhanced IL-1 production by elicited and bacillus Calmette-Guerin (BCG)-activated peritoneal macrophages, but not by resident peritoneal macrophages. The inflammation-induced monocyte/macrophage population displayed selective binding of SAP. The mouse macrophage line P388D1, also could bind SAP and display enhanced IL-1 production in response to SAP. SAP did not bind to the macrophage cell line RAW264.7 nor did it enhance IL-1 secretion by this line. The results suggest that this acute-phase reactant has the potential to enhance inflammatory and immunological events mediated by IL-1.     

Fluoride effects on 31P NMR spectra of macrophages

31P High resolution nuclear magnetic resonance studies have been carried out on the P388D1 tumoral cell line and the BCG elicited alveolar rabbit macrophages both in sedimented cells and in perfused agarose-embedded cells. When the cells were sufficiently oxygenated, the phosphorylated sugars and ATP concentrations attained high levels. The intensity of the peak representing phosphorylated sugars varied inversely with ATP level when macrophagic cells were treated by NaF. The identities of the phosphorylated sugars were revealed by 1H and 31P NMR studies of the P 388D1 cells perchloric extracts.     

Adhesion and Cytosolic Dye Transfer between Macrophages and Intestinal Epithelial Cells

Activated macrophages (MQ) found in the intestinal lesions of patients with inflammatory bowel disease (IBD) secrete many inflammatory mediators which can regulate intestinal epithelial cell (IEC) function. However, little is known about direct MQ-IEC interactions. Two potential mechanisms by which cells may interact are through specific receptor-ligand binding of adhesion molecules, such as integrins or cadherins, and by exchange of cytoplasmic substances through transmembraneous channels called gap junctions. We investigated whether Mø could adhere to epithelial cells in culture and form transmembrane communication channels as defined by dye transfer. Primary cultures of murine Mø and a Mø cell line, P388D1, adhered to Mode-K and IEC6, but not CMT-93 IEC. Antibody blocking studies determined that P388D1-Mode-K binding was partially dependent on β2 integrin (CD18) function, Mode-K constitutively expressed CD106 (VCAM-1) and cell associated fibronectin, while P388D1 expressed low levels of CD49d/CD29 (VLA4) but blocking antibodies to these surface molecules did not inhibit P388D1-Mode-K adherence. Transfer of calcein dye from MQ to IEC was quantitated by flow cytometry and was dependent on Mø-IEC adhesion. Dye transfer was concentration dependent in that the fluorescence intensity of Mode-K was proportional to the number of adherent P388D1 cells as well as the dye load of the Mø. These results indicate that Mø interact with IEC by adhesion and possibly through gap junctions and may thus regulate IEC function by direct cell-cell communication.     

Stimulation of a neutral cholesteryl ester hydrolase by cAMP system in P388D1 macrophages

Cholesteryl ester laden foam cells in atherosclerotic lesions derive, in part, from macrophages. Mobilization of stored cholesteryl esters involves hydrolysis by a neutral cholesteryl ester hydrolase. Incubation of intact P388D1 macrophages with dibutyryl cAMP in the presence of 1-methyl-3-isobutylxanthine resulted in a dose-dependent increase in neutral cholesteryl ester hydrolase activity of up to 50% (ED50 = 0.1 mM). Incubation with prostaglandin E1 in the presence of 1-methyl-3-isobutylxanthine also increased neutral cholesterol ester hydrolase activity by about 50%. In cell-free preparation, cAMP-dependent protein kinase caused about a 2-fold activation of the neutral cholesteryl ester hydrolase. Activation was blocked by protein kinase inhibitor. These data suggest that the P388D1 macrophage may be a useful model for studying the hormonal regulation of cholesteryl ester mobilization in macrophage-derived foam cells.