Induction of the oxidative response and of concanavalin A-binding capacity in maturing human U937 cells

Differentiation of U937 cells with phorbol myristate acetate (PMA) induces high stimulation by concanavalin A of the respiratory burst as well as an increase in concanavalin A-binding cell capacity. New concanavalin A-binding proteins are detected as differentiated U937 cells acquire their capacity to be activated by concanavalin A. We identified several concanavalin A-binding proteins, of molecular mass 30-200 kDa, in PMA-differentiated cells, but only some of them seem to be directly related to the concanavalin A effect on the respiratory burst. One of these candidates could be a glycoprotein with an apparent molecular mass of 140 kDa which behaved as a major concanavalin A-binding protein and is expressed on differentiated cells at the time these cells respond maximally to concanavalin A.     

Regulation of cytolytic activity in CD3- and CD3+ killer cell clones by monoclonal antibodies (anti-CD16, anti-CD2, anti-CD3) depends on subclass specificity of target cell IgG-FcR

Anti-CD3 MAb can inhibit MHC-restricted cytolytic activity of CD3+ mature cytotoxic T cells. In particular effector-target cell combinations, however, anti-CD3 MAb enhance or induce cytolysis by cross-linking CD3+ effector and IgG-FcR+ target cells. Virtually all natural killer (NK) cells or NK cell-derived clones are CD3-4-8- but do express CD2 and CD16 (IgG-FcR) antigens. We have studied how these cell surface molecules are involved in the regulation of cytolytic activities. The addition of anti-CD2 MAb to effector and target cells was found to induce conjugate formation of the IgG-FcR+ target cells with the effector cell and nonspecific cytolysis of, for instance, the P815 mouse mastocytoma cells. Enhancement or induction of conjugate formation and cytolysis of IgG-FcR+, P815, U937, and Daudi cells was also accomplished by using anti-CD16 MAb (e.g., Leu-11c (B73.1) or CLB Fc-gran 1 (VD2) MAb). Some human and mouse tumor cell lines (K562, P815, and U937) appear to express distinct types of IgG-FcR, showing different affinities for distinct subclasses of MAb (e.g., IgG1, IgG2a), but another line (Daudi) expresses only one type of IgG-FcR preferentially binding IgG1 MAb. Here we demonstrate that IgG-FcR on the effector cells can act as activation sites because anti-CD3 as well as anti-CD16 MAb of IgG1 and IgG2a subclasses can induce lytic activity of target cells bearing the relevant IgG-FcR. These data demonstrate that induction of conjugate formation and cytolysis by MAb occur when the target cells bear IgG-FcR with "specificity" for those MAb. Thus, besides via CD3, cytolytic activity by mature T and NK cells also can be induced via the CD2 and CD16 antigens on these cells.     

A monoclonal antibody that detects a specific human neutrophil antigen involved in phorbol myristate acetate- and formyl-methionyl-leucyl-phenylalanine-triggered respiratory burst.

A mouse IgM mAb termed P1E3 was raised against resting human peripheral blood neutrophils and has been shown to recognize a cell-surface Ag with an apparent molecular mass of 155 kDa, as assessed by immunoprecipitation analysis. In addition to the main 155-kDa protein, an additional band of about 210 kDa was also recognized by P1E3 in Western blot analysis. Sequential immunoprecipitation assays showed that the Ag recognized by P1E3 differed from the CD29 and CD45 Ag. However, sequential immunoprecipitation assays carried out with two distinct anti-CD15 mAb and P1E3 showed that P1E3 reacted with CD15 or with a CD15-like Ag. P1E3 stained strongly resting human peripheral blood neutrophils, hardly reacted with peripheral blood monocytes and did not react with PBL and platelets, as assessed by immunofluorescence flow cytometry. P1E3 inhibited the respiratory burst induced by PMA or FMLP, but not the oxidative response induced by Con A or the calcium ionophores A23187 or ionomycin. Furthermore, P1E3 inhibited the activation of the Na+/H+ antiporter in response to PMA or FMLP and the phosphorylation of a protein of about 50 kDa in response to PMA. However, preincubation of neutrophils with P1E3 did not affect the increase in cytosolic free calcium concentration induced by FMLP. These data suggest that the Ag recognized by P1E3 may play a role in modulating the activation of the respiratory burst induced by PMA or FMLP, and that P1E3 seems to affect protein kinase C-mediated signal transduction mechanisms coupled to the induction of the respiratory burst.     

Specific activation by concanavalin A of the superoxide anion generation capacity during U937 differentiation

Phorbol myristate acetate (PMA) induces changes in the human monocyte-macrophage-like cell line U937 which reflect cellular differentiation. PMA prompted the expression of the superoxide anion (O2-) generating capacity in U937 upon appropriate stimulation. A highly specific stimulation by Concanavalin A (Con A) of O2- release was observed in PMA-differentiated U937 cells, which exceeded in 10-20 times that obtained with Con A-stimulated monocytes and neutrophils. These results indicate that a highly specific machinery required for Con A stimulation, practically absent in mature monocytes and neutrophils, is synthesized during PMA-induced U937 differentiation. A novel cytochrome b putatively involved in O2- generation was detected in U937 cells. This cytochrome b content was increased during PMA-induced cell differentiation, although no linear correlation was found between capability to produce O2- by macrophage-like U937 cells and their content of cytochrome b.     

Relationship between oxidative burst activity and CD11b expression in neutrophils and monocytes from healthy individuals: effects of race and gender

Oxidative burst activity and the expression of adhesion molecules have been used as indicators of leukocyte activation status. The aim of the study was to delineate the relationship of oxidative burst activity and the expression of adhesion molecules in neutrophils and monocytes from a pool of healthy volunteers (n = 96). We also tested the potential role of gender and a racial background in the individual response differences. Basal and phorbol myristate acetate (PMA)-stimulated oxidative burst and CD11b expression were determined using dihydrorhodamine 123 and phycoerythrin (PE)-conjugated anti-CD11b monoclonal antibodies. PMA markedly increased CD11b expression and cellular oxidant content in neutrophils and monocytes in all samples. However, the responses showed considerable variability among individuals. A positive correlation was observed between the responsiveness of neutrophils and monocytes in their basal or PMA-stimulated CD11b expressions and PMA-stimulated oxidative burst activities. In contrast, no correlation was found between the level of adhesion molecule expression and cellular oxidant content in monocytes or neutrophils either under basal or under PMA-stimulated conditions. The reactivity of oxidative burst (i.e., PMA-stimulated over basal) was significantly lower in neutrophils from African American males compared with cells from African American females, white females, or white males. In contrast, reactivity of monocytes was significantly elevated in white males compared with all other groups. These findings indicate that leukocytes with a relatively high degree of adhesion molecule expression may display an average or decreased oxidative burst activity, and vice versa. Our findings also indicate that ethnic background may influence the oxidative burst activity in neutrophils and monocytes. This needs consideration in clinical studies utilizing healthy volunteers with mixed gender and ethnic backgrounds.     

PADGEM-dependent adhesion of platelets to monocytes and neutrophils is mediated by a lineage-specific carbohydrate, LNF III (CD15).

PADGEM (platelet activation-dependent granule-external membrane protein) is a leukocyte receptor of activated platelets that mediates cellular adhesion of platelets to neutrophils and monocytes. To identify the natural ligand on neutrophils and monocytes that interacts with PADGEM, we have evaluated anti-leukocyte antibodies for their ability to block leukocyte-PADGEM binding. Only anti-CD15 antibodies were able to inhibit the binding of neutrophils, monocytes, HL60 cells, and U937 cells to platelets. Anti-CD15 antibodies inhibited the binding of U937 cells to PADGEM-expressing COS cells and to purified PADGEM incorporated into phospholipid vesicles. The CD15 antigen, lacto-N-fucopentaose III (Gal beta 1----4[Fuc alpha 1----3]NAcGlc beta 1----3Gal-beta 1----4Glc), inhibited the interaction of neutrophils or HL60 cells with platelets, whereas lacto-N-fucopentaose I did not; lacto-N-fucopentaose II demonstrated minimal inhibition. Lacto-N-fucopentaose III, and to a lesser extent lacto-N-fucopentaose II, but not lacto-N-fucopentaose I, inhibited the interaction of HL60 cells with COS cells transfected with PADGEM cDNA. CD15, lacto-N-fucopentaose III or Lex, is a component of the PADGEM ligand on neutrophils and monocytes.     

Enhancement of human neutrophil functions by a monoclonal antibody directed against a 19-kDa antigen.

A mouse IgG mAb termed P1C3 was raised against A23187-treated human peripheral blood neutrophils and has been shown to recognize an Ag with an apparent molecular mass of 19 kDa, herein named p19. This p19 Ag was weakly expressed at the cell surface of resting human peripheral blood neutrophils and monocytes, but its cell surface expression was dramatically increased upon activation of these cell types with different secretagogues, including FMLP, PMA, and the calcium ionophores A23187 and ionomycin. A large latent pool of p19 molecules became accessible by immunofluorescence flow cytometry after cell permeabilization of resting neutrophils. A practically total translocation of the intracellular pool of this p19 molecule to the plasma membrane was achieved under appropriate cell stimulation, which induced an almost total degranulation of neutrophil secretory granules. The p19 Ag was absent from platelets, PBL, as well as from the human promyelocytic cell line HL-60, the human promonocytic cell line U937, and the human lymphoid cell lines Daudi and Jurkat. The p19 Ag was also expressed by circulating and/or interstitial neutrophils and monocytes in distinct tissues examined. The mAb P1C3 was found to enhance several neutrophil responses, such as chemotaxis, cell adhesion, phagocytosis, and respiratory burst. These data indicate that the mAb P1C3 recognizes an intracellular Ag in human resting mature neutrophils and monocytes, which upon cell activation is translocated to the cell surface and is able to affect cell functionality.     

Regulation of the growth and differentiation of a human monocytic cell line by lymphokines. I. Induction of superoxide anion production and chemiluminescence

The U937 human monocytic cell line was studied to determine its ability to generate a respiratory burst after stimulation with phorbol myristate acetate (PMA) or opsonized zymosan. U937 cells cultured in normal medium produced virtually no superoxide anion or chemiluminescence in response to either stimulus. In contrast, U937 cells cultured in medium containing soluble factors from activated lymphocytes produced significant O2- and chemiluminescence when stimulated with PMA or opsonized zymosan. The chemiluminescence in response to PMA was maximal in U937 cells precultured with these soluble factors for 3 days, whereas maximal responsiveness to opsonized zymosan was not observed until 5 to 6 days of lymphokine exposure. Although this ability to generate a respiratory burst persisted for a number of days in U937 cells that were subsequently recultured in normal medium, this responsiveness was gradually lost in the continued absence of these factors. The data indicate that the U937 monocytic cell line can be activated or induced to differentiate by soluble factors released by activated lymphocytes. In the process, these cells acquire the ability to generate a respiratory burst. The U937 cell line may serve as a useful model for the study of the ontogeny and regulation of the respiratory burst during human monocytic differentiation.     

Differentiation of human U937 promonocytic cells is impaired by moderate copper deficiency

Copper (Cu) deficiency suppresses macrophage activities in animals and humans. Our previous studies indicated that the induction of Cu deficiency in differentiated U937 monocytic cells impairs respiratory burst and bactericidal activities and lipopolysaccharide-mediated secretion of inflammatory mediators. The current investigation examined the roles of Cu in the monocytic differentiation process. Human U937 promonocytic cells were exposed to a high affinity Cu chelator (5 microM 2,3,2-tetraamine [tet]) for 24 hr before inducing differentiation by treatment with 1,25-dihydroxyvitamin D3 plus interferon-gamma (DI). This procedure decreased cell Cu by 55% without compromising cellular Zn, Fe, or general metabolic activities. Lower Cu status significantly attenuated the expression of maturation markers Mac-1 (CD11b), ICAM-1 (CD54), and LPS-R (CD14). This change was associated with a marked suppression in respiratory burst activity and killing of Salmonella. To examine if the adverse effect of inadequate Cu on the DI-induced differentiation represented a more general defect, U937 cells were treated with phorbol 12-myristate 13-acetate (PMA). Lower Cu status also suppressed PMA-mediated differentiation of U937 cells. Supplemental Cu, but not Zn or Fe, blocked the tet-induced declines in cell Cu, expression of maturation markers, and respiratory burst and bactericidal activities. These results demonstrate that Cu is essential for the monocytic differentiation process that contributes to the competency of the host's defense system.     

Roles of phospholipase D in phorbol myristate acetate‐stimulated neutrophil respiratory burst

The phorbol myristate acetate (PMA) stimulated nutrophil respiratory burst has been considered to simply involve the activation of protein kinase C (PKC). However, the PLD activity was also increased by 10‐fold in human neutrophils stimulated with 100 nM PMA. Unexpectedly, U73122, an inhibitor of phospholipase C, was found to significantly inhibit PMA‐stimulated respiratory burst in human neutrophils. U73122 at the concentrations, which were sufficient to inhibit the respiratory burst completely, caused partial inhibition of the PLD activity but no inhibition on PKC translocation and activation, suggesting that PLD activity is also required in PMA‐stimulated respiratory burst. Using 1‐butanol, a PLD substrate, to block phosphatidic acid (PA) generation, the PMA‐stimulated neutrophil respiratory burst was also partially inhibited, further indicating that PLD activation, possibly its hydrolytic product PA and diacylglycerol (DAG), is involved in PMA‐stimulated respiratory burst. Since GF109203X, an inhibitor of PKC that could completely inhibit the respiratory burst in PMA‐stimulated neutrophils, also caused certain suppression of PLD activation, it may suggest that PLD activation in PMA‐stimulated neutrophils might be, to some extent, PKC dependent. To further study whether PLD contributes to the PMA stimulated respiratory burst through itself or its hydrolytic product, 1,2‐dioctanoyl‐sn‐glycerol, an analogue of DAG , was used to prime cells at low concentration, and it reversed the inhibition of PMA‐stimulated respiratory burst by U73122. The results indicate that U73122 may act as an inhibitor of PLD, and PLD activation is required in PMA‐stimulated respiratory burst.     

LPS-stimulated release of prostaglandin E and thromboxane B2 from the U937 cell line

Human monocytes are known to metabolize arachidonic acid (AA) and to release prostaglandins upon stimulation. Previous data indicate that in vitro maturation and differentiation of monocytes result in alteration of this property with greatly diminished response to stimulators of release of prostaglandin E (PGE) and thromboxane B2 (TxB2) occurring after cells have been cultured. To further study the effects of differentiation on human monocyte AA metabolism, a model system was established based upon the human histiocytic cell line U937. Among tested stimulants, which included opsonized zymosan, complement fragment C3b, phorbol myristate acetate (PMA), calcium ionophore A23187, and concanavalin A, it was found that Escherichia coli lipopolysaccharide (LPS) was unique in that it stimulated increased release of TxB2 from U937 cells. The effect of the phorbol ester PMA, a compound commonly used to induce differentiation of U937, on the ability of U937 to respond to LPS was examined. Following 48 hr of treatment with PMA, U937 became capable of releasing both PGE and TxB2 in response to small doses of LPS. As previously observed for human monocytes, the release of PGE was delayed for several hours following stimulation and failed to reach maximal cumulative levels in culture until 24-48 hr following stimulation. In contrast to human monocytes, PMA-induced U937 were capable of maintaining their responsiveness to LPS for several days. Thus, the U937 cell line provides a useful model for study of the effects of differentiation of human mononuclear phagocytes on their ability to metabolize AA, and for the effects of LPS on histiocytic tumor cell prostaglandin release.     

Porphyromonas gingivalis fimbriae induce adhesion of monocytic cell line U937 to endothelial cells

This study used the human monocytic cell line U937 to examine whether or not Porphyromonas gingivalis fimbriae could induce the adhesion of monocytes to endothelial cells. An in vitro adhesion assay was used to investigate the effects of the fimbriae on U937 cell adhesion to human umbilical vein endothelial cells (HUVEC). The fimbriae enhanced U937 cell adhesion to HUVEC in a dose-dependent manner. U937 cells adhered better to HUVEC pretreated with the fimbriae for a minimum of 2 hr than to untreated HUVEC. The enhanced adhesion was inhibited by a monoclonal antibody against P. gingivalis 381 fimbriae. Pretreatment of U937 cells with the fimbriae for 24 hr enhanced U937 cell adhesion to HUVEC approximately 4-fold. This phenomenon was inhibited by an anti-CD11b antibody, suggesting the involvement of CD11b. These results indicate that P. gingivalis fimbriae can induce monocyte adhesion to the endothelial cell surface. They also suggest that the fimbriae may be involved in the initial event for infiltration of monocytes into the periodontal tissues of individuals with adult periodontitis.     

CD44 and annexin A2 mediate the C5a chemotactic cofactor function of the vitamin D binding protein

The vitamin D binding protein (DBP) is a plasma protein that significantly enhances the chemotactic activity of C5a and C5a(desArg) (cochemotactic activity). The objective of this study was to investigate how DBP mediates this process using neutrophils and U937 cells transfected with the C5a receptor (U937-C5aR cells) and comparing chemotaxis to C-activated serum (DBP dependent) vs purified C5a (DBP independent). Binding to the cell surface is essential for this protein to function as a chemotactic cofactor, and DBP binds to a chondroitin sulfate proteoglycan (CSPG) on neutrophil plasma membrane preparations. To determine whether a CSPG also functions to mediate cochemotactic activity, U937-C5aR cells were grown in chlorate to inhibit CSPG sulfation or treated with chondroitinase AC. Either treatment significantly inhibited chemotaxis only to C-activated serum. CD44 is a major cell surface CSPG on leukocytes, and functions to facilitate chemotaxis. Treatment of cells with anti-CD44 blocks chemotaxis of neutrophils and U937-C5aR cells to C-activated serum but not purified C5a. DBP binds to CD44 on the cell surface as evidenced by coimmunoprecipitation, confocal microscopy, and cell binding studies. Annexin A2 associates with CD44 in lipid rafts; therefore, its potential role in mediating cochemotactic activity was investigated. Results demonstrate that anti-A2 inhibits neutrophil and U937-C5aR chemotaxis specifically to C-activated serum, blocks DBP binding to cells, and colocalizes with anti-DBP on the cell surface. These results provide clear evidence that CD44 and annexin A2 mediate the C5a chemotactic cofactor function of DBP.     

The role of CD18 in phorbol ester-induced human monocyte-mediated cytotoxicity

Monocyte cell surface molecules play an important role in the regulation of monocyte function. To investigate the molecular basis of monocyte-mediated cytotoxicity, we tested the ability of a variety of mediators to stimulate human monocyte-mediated cytotoxicity. Phorbol myristic acetate (PMA) stimulated significant monocyte-mediated killing of tumor cells in an 18-hr indium-111 release assay. Five other cytoactive substances did not induce monocyte-mediated cytotoxicity. The acquisition of monocyte cytotoxicity was associated with nearly a twofold increase in surface expression of three CD18-bearing cell surface molecules (CD11a, CD11b, CD11c). The direct involvement of the CD18-bearing molecules in monocyte-mediated cytotoxicity was investigated using monoclonal antibody (MAb) inhibition. MAb recognizing the CD18 subunit significantly inhibited monocyte-mediated killing. The inhibition by anti-CD18 MAb could not be attributed to LFA-1 (CD11a) alone, suggesting that CR3 (CD11b) and p150,95 (CD11c) may also participate in monocyte-mediated cytotoxicity. In contrast, seven of eight other cell surface structures were not affected by PMA treatment, and MAb to all eight cell surface structures did not inhibit killing. These findings suggest that CD18-bearing molecules are upregulated with monocyte activation and may play a functional role in monocyte-mediated killing.     

Fibronectin receptors of mononuclear phagocytes: Binding characteristics and biochemical isolation

Fibronectin receptors on mononuclear phagocytes are involved in the localization of monocytes at inflammatory sites and in the subsequent expression of macrophage-like phenotypes. In this study, we have investigated the hypothesis that proteolytically derived fragments of fibronectin may interfere with binding of fibronectin to monocytes in the extracellular matrix. We report on the reactivity of U937 cells with an 80-kDa tryptic fragment of fibronectin which contains the cell-binding domain but lacks the gelatin/collagen-binding domain. U937 cells attached to surfaces coated with the 80-kDa fragment as well as with intact fibronectin. Preincubation of the cells with the 80-kDa fragment inhibited attachment to both surfaces while intact fibronectin had little or no inhibitory effect. The Ki for inhibition of attachment (0.5 microM) was consistent with the Kd for binding of the 3H-labeled 80-kDa fragment (0.34 microM) to U937 cells in suspension. There were 4-5 x 10(5) 80-kDa binding sites per cell. The relatively high affinity of the 80-kDa fragment for the monocyte surface permitted the isolation and characterization of fibronectin-binding proteins from U937 cells and peripheral blood monocytes by affinity chromatography. When octylglucoside lysates of lactoperoxidase iodinated cells were applied to 80-kDa-Sepharose columns, a polypeptide complex of 152/125 kDa was eluted with the synthetic peptide GRGDSPC, but not with GRGESP. This complex resolved into a single diffuse band of 144 kDa upon reduction. Binding of the protein complex to the affinity column required divalent cations. The complex bound to wheat germ agglutinin and could be specifically eluted by N-acetylglucosamine. Similar cell-surface proteins were isolated from peripheral blood monocytes.     

Decrease in CD93 (C1qRp) expression in a human monocyte-like cell line (U937) treated with various apoptosis-inducing chemical substances

Human CD93, a receptor for complement component 1, subcomponent q phagocytosis (C1qRp), has been shown to be selectively expressed by cells of a myeloid lineage and was originally reported to be involved in the C1q-mediated enhancement of phagocytosis in innate and adaptive immune responses. The modulation of CD93 expression has been investigated in various cells, particularly in granulocytes and monocytes . We previously reported that a protein kinase C activator (PKC), phorbol myristate acetate (PMA), effectively up-regulated CD93 expression on several cultured cell lines and that its regulation was mainly controlled by a PKC delta-isoenzyme. However, the expression pattern of CD93 in myeloid cells with apoptotic properties remains poorly understood. In this study, we examined the modulation of CD93 expression on a human monocyte-like cell line (U937) treated with various apoptosis-inducing chemical substances : an RNA-synthesis inhibitor, actinomycin D (ActD); a DNA topoisomerase I inhibitor, camptothecin (CPT); a protein-synthesis inhibitor, cycloheximide (CHX); a DNA topoisomerase II inhibitor, etoposide (EPS); and a DNA-synthesis inhibitor, mitomycin C (MMC). Apoptosis was monitored using two-color flow cytometry with Annexin V and 7-amino actinomycin D (7AAD). The above-mentioned substances sufficiently induced the early and late stages of apoptosis, identified as Annexin V positive (+)/7AAD negative (-) cells and Annexin V positive (+)/7AAD positive (+) cells, respectively, in U937 cells after 6 hr of treatment. The modulation of CD93 expression on U937 cells during the early stage of apoptosis, gated as Annexin V positive (+)/7AAD negative (-) cells, was then investigated using a CD93 mAb (mNI-11), originally established in our laboratories, and flow cytometry using a fluorescence-activated cell sorter (FACS). The mean fluorescence intensity (MFI) of the cells that stained positive for CD93 mAb (mNI-11) among the treated U937 cells showed a dramatic decrease in expression. In addition, the expressions of HLA-class I (HLA-A, B, C), HLA-class II (HLA-DR), CD18 (lymphocyte function-associated antigen-1 beta; LFA-1beta) and CD54 (intercellular adhesion molecule-1; ICAM-1) were also markedly decreased on the treated U937 cells identified as Annexin V positive (+)/7AAD negative (-) cells (early stage of apoptosis). Interestingly, the expression patterns of CD93 on the U937 cells treated with the above-mentioned chemical substances closely resembled those of HLA-class I (HLA-A, B, C). An immunoblotting analysis showed that the expression of a surface antigen (molecular size, about 97 kDa) targeted by the CD93 mAb (mNI-11) on the U937 cells treated with various apoptosis-inducing chemical substances had clearly decreased. On the other hand, an enzyme-linked immunoassay (EIA) showed that although PMA-treated U937 cells had strongly secreted soluble CD93 (sCD93) into the culture supernatant, the secretion of sCD93 in the culture supernatant of the U937 cells treated with the above-mentioned chemical substances was not enhanced, compared with that of untreated U937 cells. Importantly, however , the U937 cells with apoptotic properties induced by various apoptosis-inducing chemical substances also rapidly (in 30 min) and strongly secreted sCD93 into the culture supernatant in the presence of PMA. Taken together, these findings indicate that the expression of the CD93 molecule identified by CD93 mAb (mNI-11) is dramatically decreased on U937 cells with apoptotic properties, and that the decrease in CD93 expression on U937 cells treated with apoptosis-inducing chemical substances may be a good model for analyzing the regulation of CD93 expression on apoptotic myeloid cells.     

A novel monoclonal antibody induces the differentiation of monocyte leukemic cells

A cell surface antigen (possibly a receptor) on human myeloid cell lines, that may play a crucial role in the differentiation of promonocytic cells, was detected by a murine monoclonal antibody (MAb 710F). When the myeloid cell lines, HL-60, THP-1 and U937, were cultured with the MAb 710F following pretreatment with phorbol 12-myristate 13-acetate (PMA), they displayed both cellular spreading and a strong adherence to the culture dish substratum. On transforming from their original round shape, the induced cells displayed the well-developed microvilli, spindles, or raffles that are characteristic of macrophages or dendrocytes. Similar morphological changes were not induced by treatment with either PMA or MAb 710F alone. By contrast, the lymphoid cell lines did not respond to these reagents. These results suggested that a signal for cellular adhesion and cytoskeletal reconstitution was triggered by the binding of MAb 710F to an antigen on the PMA-primed cells. Thus, the antigen 710F, which is preferentially expressed on peripheral blood monocytes, may represent a cell surface receptor closely associated with differentiation. The antigen/receptor 710F was shown to be a N-glycosylated protein with Mr. of 35-70k. This MAb may prove useful as a tool for both studies on the differentiation of myeloid lineage cells as well as on monocyte/macrophage adhesion function.