Functional and phenotypic changes associated with the in vitro development of human monocytes into activated macrophages

Abstract Freshly isolated human peripheral blood monocytes had minimal cytotoxic effect in vitro on the schistosomula of Schistosoma mansoni . However, stimulation of the cells with either interferon gamma (IFN) or specific anti-parasite antiserum caused an increase in cytotoxicity. Additionally, the normal development of monocytes into macrophages over 7 days was associated with a sharp increase in cytoxocity. The non-cytotoxic monocytes were compared with activated macrophages to assess whether cytotoxicity was associated with changes in immunophenotype. As monocytes developed into macrophages there were marked increases in transferrin receptors (HB21), macrophage cellular integrin (3.9), and Fc receptors (KB61). A further three markers showed increased expression in 7-day-old macrophages stimulated by IFN, namely a high affinity Fx γ receptor (10.1), MHC Class II (1B5) and tumour necrosis factor (TNF).     

Effect of recombinant IFN-gamma (rIFN-gamma) on the mechanism of human macrophage IgG FcRI-mediated cytotoxicity. rIFN-gamma decreases inhibition by cytophilic human IgG and changes the cytolytic mechanism.

Different classes of receptors for the Fc moiety of IgG (Fc gamma R) have been defined on human monocytes and macrophages: Fc gamma RI, Fc gamma RII, and Fc gamma RIII. All three classes are capable of mediating antibody-dependent cell-mediated cytotoxicity (ADCC). Fc gamma RI, which binds monomeric human IgG (hIgG) with high affinity, was shown an effective cytotoxic trigger molecule on different types of cells. In vitro, the inhibition of Fc gamma RI-mediated ADCC by hIgG is well documented. The low affinity receptor classes, Fc gamma RII and Fc gamma RIII, are not blocked by monomeric hIgG. Because monomeric hIgG is present at high concentrations in plasma and interstitial fluids it has been postulated inhibitory in vivo. We investigated the effect of rIFN-gamma on macrophage Fc gamma RI-mediated ADCC in the presence of low doses hIgG. With human E sensitized with hIgG as target cells, Fc gamma RI was studied selectively. We found that rIFN-gamma enhances both expression and cell surface density of Fc gamma RI on cultured peripheral blood monocytes. Furthermore, this cytokine partially reversed the inhibitory effect of monomeric hIgG on ADCC. More interestingly, we found that the cytolytic mechanism of monocyte-derived macrophages changed completely after prolonged culture with rIFN-gamma. Monocytes cultured for 9 days in control medium mediate predominantly phagocytosis. After long term rIFN-gamma stimulation (9 days), monocyte-derived macrophages almost completely lost the capacity to perform phagocytosis. Interestingly, they became highly efficient in mediating extracellular lysis of human E sensitized with hIgG. Short term rIFN-gamma stimulated monocyte-derived macrophages (for the last 40 h of culture) were found to mediate both phagocytosis and extracellular lysis. Our findings suggest that in vivo rIFN-gamma-stimulated macrophages may be most efficient in Fc gamma RI-mediated cytolysis as a consequence of a changed cytolytic mechanism in combination with enhanced Fc gamma RI density.     

Role of interferon γ and tumour necrosis factor α in monocyte-mediated cytostasis and cytotoxicity against a human histiocytic lymphoma cell line

Summary In view of cellular adoptive immunotherapy we have studied monocyte-mediated cytostasis and cytotoxicity against U 937 cells, a human histiocytic lymphoma cell line. Highly purified human monocytes and monocytederived macrophages were activated with interferon (IFN) or tumour necrosis factor (TNF) to antileukemic immune effector cells. Antileukemic activity of human monocytes was dependent on monocyte differentiation into macrophages and on a dose- and time-dependent activation with IFN or TNF. Maximum cytostasis of 97.0±0.7% (mean ± SEM) (conventional [³H]dT uptake assay) and 81.9±5.3% cytotoxicity (modified MTT assay) of U 937 cells was obtained by monocytes activated with 100 U/ml IFN for at least 24 h at an effector-to-target-cell ratio of 10. U 937 cells premodified with IFN showed an increase in susceptibility to monocyte-mediated cytotoxicity. U 937 cells premodified with TNF were almost resistant to monocyte-mediated cytotoxicity while activated monocytes maintained their cytotoxic potential. These data show that IFN and TNF are potent activators of monocyte-mediated cytotoxicity. Furthermore, IFN and TNF might be involved in the regulation of the susceptibility of leukemic cells to lysis by interactions with monocytes or macrophages.     

Fc gamma RI and Fc gamma RII on monocytes and granulocytes are cytotoxic trigger molecules for tumor cells

As part of an effort to define the cytotoxic trigger molecules on human myeloid cells, the ability of the different Fc receptors for IgG (Fc gamma R) to mediate killing of tumor cell lines by monocytes and granulocytes was examined. This was accomplished by studying cytolysis of hybridoma cell (HC) targets bearing surface antibody directed toward the different Fc gamma R. The HC line, HC IV.3A, which bears Ig directed to the low affinity Fc gamma R (Fc gamma RII) on monocytes and neutrophils was lysed by human monocytes. The extent of lysis of HC IV.3A was approximately equal to that of anti-Fc gamma RI (the high affinity Fc gamma R on human monocytes) bearing HC lines (HC 32.2A and HC 62A) and was not augmented by treatment of the monocytes with interferon-gamma (IFN-gamma). In contrast, neutrophils lysed HC IV.3A and HC 32.2A only after activation with IFN-gamma. Since Fc gamma RI is not detectable on untreated neutrophils and is induced by IFN-gamma on these cells, lysis of HC 32.2A by IFN-gamma-activated neutrophils correlated with receptor induction. On the other hand, Fc gamma RII was present at equal levels on untreated and IFN-gamma-treated neutrophils, but only IFN-gamma-treated neutrophils mediated cytotoxicity via Fc gamma RII. In this case, enhanced killing appeared to be due to events other than an increase in Fc gamma RII number. Neither untreated nor IFN-gamma-treated neutrophils mediated the lysis of the anti-Fc gamma RIII bearing HC 3G8A. Thus, binding to the tumor target via this Fc receptor does not lead to lysis and may initiate signals distinct from those triggered through Fc gamma RI or Fc gamma RII. Surprisingly, HC bearing high amounts of mouse IgG1 antibody of irrelevant specificity were also lysed by monocytes. This lysis was blocked by soluble IV.3 antibody and thus appeared to be due to binding of the Fc portion of the surface Ig to Fc gamma RII on monocytes. Furthermore, monocytes from donors with a form of Fc gamma RII incapable of binding aggregated mouse IgG1 did not lyse these HC, but displayed normal lysis of HC IV.3, demonstrating that this structurally different Fc gamma RII remained a functional trigger molecule. Overall, these studies have demonstrated the specificity of Fc receptors in triggering monocyte- and granulocyte-mediated antibody-dependent tumor cell killing and have begun to dissect functional similarities and differences among the three defined Fc gamma R on human myeloid cells.     

Cytokine effects and role of adhesive proteins and Fc receptors in human macrophage-mediated antibody dependent cellular cytotoxicity.

Mononuclear phagocytes participate in host immunological defense against tumors. We have investigated the role of selected recombinant cytokines on human macrophage-mediated tumor cytotoxicity in vitro utilizing a human colon cancer cell line target, SW1116, and murine monoclonal antibody 17-1A. Blood monocytes were kept in continuous culture to allow differentiation into macrophages. Maximum antibody dependent cellular cytotoxicity (ADCC) as measured in a 3H-thymidine release assay occurred after culturing the monocytes for 5-7 days. Human recombinant macrophage colony stimulating factor (CSF) (1,000 U/ml) did not increase ADCC above control levels whereas recombinant human granulocyte-macrophage colony stimulating factor, interleukin 4, and interleukin 3 were all capable of increasing ADCC. Antibodies to the CD11/CD18 integrin receptors did not significantly inhibit ADCC. When the ADCC incubation occurred in the presence of antibodies to the human Fc receptors, ADCC was inhibited significantly only by anti-FcRIII (3G8). A role for tumor necrosis factor alpha or other soluble mediators of cytotoxicity was not demonstrable in this system. These studies suggest avenues for manipulation and augmentation of macrophage-mediated antitumor ADCC.     

Pharmacologic evidence for the requirement of protein kinase C in IFN-induced macrophage Fc gamma receptor and Ia antigen expression.

Previous studies have implicated protein kinase C (PKC) as a mediator in the activation of macrophages by interferons. In order to probe further into the suspected role of protein kinase C in mouse peritoneal macrophage activation, the effects of protein kinase inhibitors in macrophage Fc gamma R and Ia Ag expression were studied. The protein kinase inhibitor, H7, reduced basal levels, and inhibited IFN-alpha-induced expression of Fc gamma R significantly. The concentration of H7 required to inhibit 50% of the Fc gamma R induction was approximately 12 microM, which reflects the previously reported affinity of this compound for PKC in vitro. H7 had only a minimal effect on IFN-gamma-induced Fc gamma R, suggesting different pathways of Fc gamma R induction by the two types of IFN. Ia induction by IFN-gamma was also inhibited by H7, indicating that both types of IFN can utilize PKC to mediate at least part of the signal required for Fc gamma R or Ia expression. HA-1004, a derivative of H7 which possesses high affinity for cyclic nucleotide-dependent protein kinases, but low affinity for PKC, did not alter induction, while H8, a slightly less effective PKC inhibitor than H7, was effective at higher concentrations. Another structurally distinct PKC antagonist, staurosporine, was also effective inhibiting IFN-alpha-induced Fc gamma R and IFN-gamma-induced Ia Ag expression, providing additional evidence that PKC is important. H7 was found to be effective when added as late as several hours after IFN treatment, indicating a prolonged or delayed requirement of PKC for optimal induction of Ia and Fc gamma R by IFN.     

Alveolar and peritoneal macrophages bear three distinct classes of Fc receptors for IgG

The FcR for IgG on the plasma membrane of cells of the mononuclear phagocyte system mediate a number of different biologic responses such as phagocytosis, pinocytosis, superoxide generation, and antibody-dependent cytotoxicity. In the interest of understanding the pathophysiology of these processes we have begun to characterize the FcR for IgG on two readily available sources of macrophages--the lung and the peritoneum--using antireceptor mAb. We find that all three of the distinct classes of FcR for IgG which have been described in man are present on both pulmonary and peritoneal macrophages. Most monocytes, we suggest, bear low numbers of Fc gamma RIII whereas a small subpopulation of monocytes expresses substantial numbers of Fc gamma RIII. Furthermore, we find that two different forms of Fc gamma RIII differ in their capacity to bind anti-Fc gamma RIII mab 3G8 in the presence of human IgG. Human IgG does not block the binding of mAb 3G8 to neutrophils, but it does block 3G8 binding to macrophages and large granular lymphocytes; this finding correlates with the expression of the two Fc gamma RIII genes, I and II, in man. Studies aimed at illuminating the molecular mechanisms of Fc gamma R-mediated processes in macrophages will require consideration of the receptors of all three classes.     

Interferon gamma encapsulated into liposomes enhances the activity of monocytes and natural killer cells and has antiproliferative effects on tumor cells in vitro

The effects of human interferon gamma (IFN gamma) encapsulated into liposomes were investigated in vitro. Monocytes were induced to release a cytotoxic factor with either IFN gamma encapsulated into liposomes, free IFN gamma or lipopolysaccharide (LPS). If IFN gamma was applied in the liposomal form, less IFN activity was required to stimulate monocytes. Most of the cytotoxic factor was secreted during the first 4 h of stimulation. The cytotoxic factor in supernatants from PMNLs was completely neutralized by a monospecific polyclonal antiserum to tumor necrosis factor (TNF). Combining subthreshold doses of IFN gamma liposomes or IFN gamma with lipopolysaccharide synergistically enhanced the release of TNF. In fluorescence analysis, altered expression of the class II HLA-DR antigen on LeuM3 positive monocytes was induced with IFN gamma liposomes as well as with IFN gamma. Not only monocytes but also natural killer (NK) cells were stimulated to higher cytotoxicity by IFN gamma liposomes in a dose-dependent manner. In comparison with IFN gamma, the same amount of activity was necessary for adequate stimulation of NK-cells against the K562 target cells. Furthermore, the antiproliferative effects of IFN gamma liposomes and free IFN gamma on several human tumor cell lines was compared. Among several cell lines tested, U937 and A549 turned out to be sensitive to IFN gamma, and both cell lines reacted with 50% growth inhibition at a lower amount of gamma presented by liposomes than in the free form. These data show production of IFN gamma liposomes which possess immunomodulatory and antiproliferative activity in vitro. In several of the test systems studied, liposome-encapsulated IFN gamma was more effective than free IFN gamma.     

Monoclonal antibodies that bind to distinct epitopes on Fc gamma RI are able to trigger receptor function

The human monocyte and macrophage Fc receptor that binds human IgG with high affinity is a surface glycoprotein with a relative molecular mass of approximately 70 kDa. This receptor (Fc gamma RI) has been partially characterized using mAb 32 which binds outside the Fc binding domain of the receptor, but nonetheless triggers Fc receptor-dependent functions. In this study, we describe the properties of four new antibodies with specificity for Fc gamma RI. Based on additivity and cross-blocking studies, we conclude that two of these antibodies (mAb 22 and 44) define a third epitope which is distinct from the binding sites for both mAb 32 and the Fc portion of human IgG. Each Fc gamma RI-specific hybridoma was selected for stable sublines expressing high levels of mAb on the cell surface, and then tested for the ability of this surface mAb to trigger antibody-dependent cell cytotoxicity. All sublines were killed by human monocytes when used as targets in a 51Cr-release assay, whereas hybridomas specific for myeloid Ag other than Fc gamma RI were not killed. We conclude that Fc receptor function is triggered through binding to each of the three epitopes of Fc gamma RI that we have defined. These mAb will be useful for additional characterization of Fc gamma RI, and may, when incorporated into tumor-directed heteroantibodies, enhance tumor cell killing by human monocytes and macrophages.     

Proteolysis induces increased binding affinity of the monocyte type II FcR for human IgG

Human monocytes express two types of IgG FcR, Fc gamma RI and Fc gamma RII. These can be assayed by using indicator E sensitized by human IgG (EA-human IgG) or mouse IgG1, (EA-mouse IgG1), respectively. On mouse macrophages, Fc gamma RI is sensitive to trypsin, whereas Fc gamma RII is trypsin resistant. We studied the effects of the proteolytic enzymes pronase and trypsin on human monocyte Fc gamma R. Neither enzyme caused a decrease in rosetting mediated by monocyte Fc gamma RI. Human Fc gamma RII is polymorphic, and monocytes interact either strongly or weakly with mouse IgG1. The interaction of low responder monocytes with mouse IgG1 was dramatically increased (to the level exhibited by high responder monocytes) by protease treatment. The effects of proteases on Fc gamma RII were investigated in more detail by using monocytes from which Fc gamma RI was selectively modulated by using immobilized immune complexes. Proteolysis of such modulated monocytes induced an increased interaction with EA-human IgG. Fc gamma RII appears to mediate this interaction. This conclusion is supported by the observation that after proteolysis, the Fc gamma RII-mediated binding of EA-mouse IgG1 becomes susceptible to inhibition by (monomeric) human IgG. To quantify the effect of proteolytic enzymes on Fc gamma RII, we performed binding studies with cell line K562, that expresses only Fc gamma RII. A significant increase in Ka of Fc gamma RII for dimeric human IgG complexes was observed when K562 cells were treated with protease. To elucidate the mechanism of this enhancement of Ka by proteolysis, we performed immunoprecipitation studies. Neither m.w., nor IEF pattern of Fc gamma RII were influenced by proteolysis. Moreover, the expression of Fc gamma RII was not affected by proteolysis as evidenced by immunofluorescence studies and Scatchard analysis, and neither were Fc gamma RI or Fc gamma RIII induced. We conclude that proteolysis increases the affinity of Fc gamma RII for human IgG, and speculate that such a proteolysis-induced change may also occur in vivo, e.g., at inflammatory sites.     

The mechanisms of antibody-dependent killing mediated by lymphoid and myeloid cells are distinct based on different divalent cation requirements

To further understand the mechanism(s) of antibody-dependent cell-mediated cytotoxicity (ADCC) by various effector populations, we have examined the extracellular Ca++ and Mg++ requirements for ADCC performed by lymphocytes, monocytes, polymorphonuclear leukocytes and peritoneal macrophages. We have used the anti-Fc gamma R-bearing hybridoma cell lines (HC) as self directed targets for ADCC to analyse the triggering ability of each of the three defined Fc gamma R; Fc gamma RI, Fc gamma RII, and Fc gamma RIII. Lymphocyte killing of the anti-Fc gamma RIII bearing HC (HC 3G8) was Ca++ dependent, but Mg++ independent. In contrast, monocytes and PMN killed the anti-Fc gamma RI- (HC 32) and the anti-Fc gamma RII- (HC IV.3) bearing HC in a Mg++-dependent, Ca++-independent fashion. In addition, freshly prepared monocytes were able to kill HC 3G8 in a Mg++-dependent, Ca++-independent fashion, indicating that low levels of Fc gamma RIII may be functionally detected on monocytes. Peritoneal macrophages were able to kill all three of the anti-Fc gamma R bearing HC in a Mg++-dependent, Ca++-independent fashion. Thus, the same target is lysed by myeloid cells in the presence of Mg++ without Ca++ and by lymphoid cells in the presence of Ca++ without Mg++. These results suggest that at least two distinct mechanisms of ADCC exist that depend on the type of effector cell mediating antibody-dependent killing and not necessarily on the Fc gamma R type triggered.     

Differentiation-inducing and cytotoxic effects of tumor necrosis factor and interferon-gamma in myeloblastic ML-1 cells

The effects of the tumor necrosis factor (TNF), and a second pleiotropic cytokine interferon-gamma (IFN), were examined in a line of human myeloblastic leukemia cells (ML-1). By itself, TNF causes ML-1 to differentiate along the monocytic pathway. The cells exhibit an increase in Fc receptors and acquire the morphological characteristics of maturing phenotype. They remain viable and continue to proliferate (at greater than or equal to 50% of the control growth rate) even with 10(2)-10(4) units/ml TNF. IFN alone has similar effects, causing an increase in Fc receptors but little cytotoxicity. In contrast to either cytokine alone, the combination of TNF plus IFN causes a cessation of proliferation and extensive cell death. Cytotoxicity occurs in a synergistic fashion; it requires the simultaneous presence of both cytokines, occurring with concurrent but not sequential exposure. These different responses, differentiation (TNF alone) and cytotoxicity (TNF + IFN), occur with a similar range of doses (approximately 10(2)-10(4) units/ml) and in a similar time frame (beginning on day 2). In other cell types, IFN can augment either the differentiation-inducing or the cytotoxic effect of TNF. In ML-1, the combined application of TNF plus IFN results in a shift from differentiation to cytotoxicity.     

Antagonistic and additive effects of IL-4 and interferon-gamma on human monocytes and macrophages: effects on Fc receptors, HLA-D antigens, and superoxide production

During an immune response a multitude of lymphokines are produced which modulate the function of mononuclear phagocytes. In this study, we investigated possible additive, synergistic, or antagonistic effects of three lymphokines, IL-4 (1-100 U/ml, 0.01-1 ng/ml), interferon-gamma (IFN) (1-100 U/ml) and IL-2 (30-300 U/ml) on Fc receptors (FcR1 and FcR2), complement receptors (CR3 and CR4), and HLA-D antigens (HLA-DR and HLA-DQ) on human monocytes and macrophages. Exposure of monocytes to IL-4 alone resulted in changes in the expression of all these receptors. Both FcR1 and FcR2 were downregulated in a dose-dependent manner while the expression of CR3, CR4, HLA-DR, and HLA-DQ was increased. Antagonistic effects of IL-4 and IFN were observed on FcR1 and FcR2; IL-4-induced downregulation of the FcR1 and FcR2 was inhibited by IFN, and vice versa, IFN-induced upregulation of FcR1 and FcR2 was inhibited by IL-4. Phagocytosis of particulate immune complexes (EAs) as well as production of superoxide (O2-) in response to EAs were inhibited by IL-4, and the inhibition was reversed by IFN. Antagonistic effects of IL-4 and IFN were also observed on CR3 and CR4 expression. Additive effects of IL-4 and IFN were on the other hand seen on HLA-DR and HLA-DQ expression as well as on O2- production in response to stimulation with phorbol ester (PMA). The addition of IL-2 to IL-4 and/or IFN-containing cultures had no further modulatory effect on receptor expression or O2- production. In vitro matured macrophages (M phi) had a similar response pattern to IL-4 and IFN as the freshly isolated monocytes. Alveolar macrophages (AM phi), on the other hand, did not modulate FcR1 and HLA-DQ in response to IL-4, and downregulated FcR2 in response to IFN. Antagonistic effects of the two factors were only seen on CR expression. These results imply that FcR expression and function on monocytes and inflammatory macrophages may be in sensitive balance with the relative concentrations of IL-4 and IFN in the immune environment. FcRs on AM phi are less responsive to modulation by these lymphokines.     

Regulation of oxidative metabolism by interferon-gamma during human monocyte to macrophage differentiation

The capacity of human peripheral blood monocytes to generate highly reactive oxygen-derived molecules was studied during differentiation of the cells to macrophages in vitro. The effect of semipurified native interferon gamma (IFN gamma) on the differentiation-associated production of active oxygen intermediates was assessed by continuous exposure of the cells to IFN gamma or by adding it to the cultures at different stages of in vitro differentiation. Chemiluminescence (CL) response, triggered by opsonised zymosan, was highest in fresh isolated monocytes and fell constantly during a two-week culture. IFN gamma had little effect on CL. Generation of intracellular O2- was determined by the reduction of nitroblue tetrazolium (NBT). Zymosan-induced NBT reduction increased slightly during monocyte to macrophage differentiation and was further enhanced by continuous presence of IFN gamma. Hydrogen peroxide (H2O2) release, triggered by phorbol myristate acetate (PMA), was low in monocytes, increased slightly, reaching a maximum on day 3, and declined thereafter. H2O2 secretion was greatly enhanced by the presence of IFN gamma and remained raised for at least 14 d. When added at intervals to spontaneously matured monocytes, IFN gamma had only modest and transient effects on the generation of intracellular O2- and H2O2. It is concluded that IFN gamma seems so to modulate human mononuclear phagocyte differentiation that they maintain or increase their oxidative metabolic capacity.     

Evaluation of the antibody-dependent cytotoxic capabilities of individual human monocytes. Role of Fc gamma RI and Fc gamma RII and the effects of cytokines at the single cell level.

In this report we present evidence that not all human peripheral blood monocytes mediate antibody-dependent cellular cytotoxicity (ADCC), and that this function may be determined on an individual cell by both the type and level of expression of FcR, and by the state of cellular activation and/or differentiation. Although the diverse range of effector and regulatory functions performed by human monocytes suggests the possibility of distinct subsets, it is not clear whether observed functional heterogeneity reflects the presence of true monocyte subpopulations, or whether this diversity represents a continuum of maturational states present in the peripheral circulation. In an attempt to address this question, we investigated the ability of human monocytes to carry out ADCC at the single cell level, with emphasis on the role of the three FcR for IgG (Fc gamma RI, Fc gamma RII, and Fc gamma RIII) in mediating cytotoxicity. Using a modified plaque assay, 58.3% +/- 4.9 of freshly isolated monocytes mediated ADCC, as evidenced by the formation of lytic plaques in monolayers of ox erythrocyte (oxE) target cells. Significant increases in the number of plaque-forming cells were observed after positive selection by flow microfluorimetry for those monocytes expressing high levels of Fc gamma RI and Rc gamma RII, but not Fc gamma RIII. Bispecific antibodies composed of Fab fragments of anti-oxE antibody covalently coupled to Fab fragments of anti-Fc gamma R antibodies were used to independently evaluate the ability of Fc gamma RI, Fc gamma RII, and Fc gamma RIII to mediate single cell cytotoxicity. Significant increases in the number of plaque-forming cells were observed in the presence of anti-Fc gamma RI x anti-oxE and anti-Fc gamma RII x anti-oxE bispecific antibodies, confirming the efficiency of Fc gamma RI and Fc gamma RII as cytotoxic trigger molecules on human monocytes. Incubation of monocytes with purified rIFN-gamma and granulocyte macrophage-CSF, but not IL-2, IL-3, IL-4, IL-6, or TNF-alpha, also resulted in significant increases in the number of monocytes mediating cytotoxicity, suggesting that cytotoxic ability at the single cell level may be influenced by factors which effect monocyte activation and differentiation, respectively. Overall, these studies demonstrate that freshly isolated human monocytes are heterogeneous in their ability to mediate ADCC, and suggest that this functional diversity arises not from discrete subpopulations of cells, but from a continuum of maturational/activational states present within the peripheral circulation.     

Differential effect of cytokine treatment on Fc alpha receptor I- and Fc gamma receptor I-mediated tumor cytotoxicity by monocyte-derived macrophages

Macrophages represent an important effector cell for Ab-mediated tumor therapy. Previous studies have documented that cytokines can influence Fc receptor (FcR) expression and function. In this study we examined the tumoricidal activities of the type I receptors for IgG (Fc gamma RI) and the IgA FcR (Fc alpha RI) on monocyte-derived macrophages (MDM) cultured in the presence of IFN-gamma, M-CSF, or GM-CSF. Bispecific Abs were used to target a Her2/neu breast carcinoma cell line, SKBR-3, to Fc alpha RI or Fc gamma RI on MDM. Although Fc alpha RI and Fc gamma RI share a common signaling pathway contingent on association with the gamma-chain (FcR gamma subunit), a marked difference in their efficiency in mediating tumoricidal functions was seen in response to specific cytokines. M-CSF- and GM-CSF-treated MDM mediated efficient phagocytosis of SKBR-3 cells by Fc alpha RI and Fc gamma RI; however, IFN-gamma-treated MDM phagocytosed tumor cells only with the Fc gamma RI-directed bispecific Abs. Similarly, IFN-gamma-cultured MDM lysed tumor cells more efficiently via Fc gamma RI then by Fc alpha RI as measured in Ab-dependent cellular cytotoxicity assays. Conversely, GM-CSF-treated MDM mediated more efficient lysis of tumor cells via Fc alpha RI than Fc gamma RI, while M-CSF-cultured MDM were relatively less efficient in mediating Ab-dependent cellular cytotoxicity through either receptor. With the exception of IFN-gamma-mediated enhancement of Fc gamma RI expression and Fc gamma RI gamma-chain complexes, the regulation of Fc gamma RI- or Fc alpha RI-mediated activity occurred without significant change in either receptor expression or total complexes with gamma subunit. These data suggest that the efficiency of Ab-mediated tumor therapy, which depends on FcR effector cell functions, may be modified by the use of specific cytokines.