Anti-OxLDL IgG blocks OxLDL interaction with CD36, but promotes FcgammaR, CD32A-dependent inflammatory cell adhesion

Generation of antibodies against oxidized-low-density lipoproteins (oxLDL) during atherosclerosis could result in the formation and deposition of oxLDL immune complexes (oxLDL-IC) on the vascular endothelial cells. Inflammatory cells express scavenger receptor (SR such as CD36) and Fcgamma receptor (FcgammaR: CD32A and CD64) that can bind to oxLDL and oxLDL-IC, respectively. Hence, depending on anti-oxLDL IgG titer, circulating monocytes could adhere to endothelium to oxLDL-IC-coated vascular bed via either FcgammaR and/or CD36. In this study, we determined the relative contribution of SR and FcgammaR in mediating monocyte interaction with oxLDL-IC deposited on vascular bed. At saturating levels of anti-oxLDL IgG concentration, monocytic cells adhered to oxLDL-IC and this adhesion is completely blocked by anti-CD32A mAb. Using CHOK1-CD32A-CD36 cells expressing equal levels of CD32A and CD36, it was observed that at lower concentrations of anti-oxLDL IgG, CD32A and CD36 contribute about 75% and 25% of cell adhesion, respectively, while at higher concentrations of anti-oxLDL IgG the adhesion is completely CD32A-dependent. CD32A-dependent adhesion was further confirmed with peripheral blood monocytes and platelets that express 2- to 5-fold higher levels of CD36 compared to CD32A. Further, PBMC adhesion to oxLDL-IC-deposited endothelial cells induced secretion of pro-inflammatory chemokines, MCP-1 and IL-8. Our results demonstrate that anti-oxLDL IgG blocks oxLDL interaction with SR such as CD36, whereas oxLDL-IC formation promotes monocyte adhesion and subsequent chemokine release through FcgammaR. These findings suggest a role for FcgammaR-mediated inflammatory cell activation in the progression of atherosclerosis.     

Dependence of surface monoclonal antibody binding on dynamic changes in FcgammaRIIb expression

Receptors for the Fc region of immunoglobulin G (FcgammaRs) are expressed on a broad range of haematopoietic cell types and are responsible for regulating antibody production and linking the humoral and effector responses. In response to a number of stimuli, such as cytokine signals or inflammation, FcgammaR expression at the cell surface is dynamically regulated. On B cells, we observed what appeared to be a correlation between CD22 expression and FcgammaRIIb expression when the latter was varied in a number of models. Further investigation revealed that this was specific to a particular anti-CD22 monoclonal antibody, which appeared to require stabilization by interaction with FcgammaRIIb for optimal binding to CD22. Since alterations in the regulation of FcgammaR expression are important in controlling immune responses and have been associated with a number of immune-mediated disease states, we suggest that it might be prudent to confirm the expression of cell surface markers by two independent methods. Furthermore, because the efficacy of therapeutic antibodies may depend upon their interaction with FcgammaRs, our results are relevant to their design and assessment.     

Phagocytic efficacy of macrophage-like cells as a function of cell cycle and Fcgamma receptors (FcgammaR) and complement receptor (CR)3 expression

Previous studies have shown that the efficiency of phagocytosis is a function of cell cycle and that phagocytosis promotes cell cycle progression. Because phagocytosis is dependent on cellular receptors we hypothesized that Fcgamma receptors (FcgammaR) and complement receptors (CR) expression varied with cell cycle. Consequently, we used centrifugal elutriation of macrophage-like cells, fluorescence activated cell sorting analysis and receptor staining to investigate expression of FcgammaR and CR as a function of cell cycle. We confirmed that FcgammaR expression on macrophage-like cells increased as the cells progressed from G1 to G2 phases. Moreover, CR3 expression varied as a function of cell cycle in a manner similar to FcgammaR. Correlation of receptor expression with cell size showed that FcgammaR and CR3 expression on macrophages was determined largely by cell size enlargement during the cell cycle. The efficacy of both Fc- and complement-mediated phagocytosis of live Cryptococcus neoformans (Cn) showed a biphasic pattern with the efficacy of phagocytosis decreasing when the cells approached the G1-S interface, which paralleled the changes in receptor surface expression when cells exited G1 phase. Live Cn cells were significantly more resistant to phagocytosis than dead cells at all stages of macrophage-like cell cycle. In contrast to live cells, the efficacy of phagocytosis of dead Cn decreased as surface receptor expression increased. Hence, the efficacy of phagocytosis in this system as function of cell cycle is not related to phagocytic receptor expression.     

CD23 and CD21 function as adhesion molecules in homotypic aggregation of human B lymphocytes

We have previously found that interleukin-4 and CD40 monoclonal antibodies (mAb) are strong potentiatiors of homotypic B cell aggregation which is dependent on LFA-1. We show here that CD23 mAb were also able to inhibit aggregation to a similar extent as LFA-1 antibodies. This inhibition was restricted to the MHM6 epitope of CD23 and antibodies to other epitopes [Epstein-Barr virus (EBV) CS-1, EBV CS-2, EBV CS-5 and mAb 25] or occupation of the Fc-binding site by IgE had no or a slightly enhancing effect on aggregation. When testing two antibodies to CD21, the recently defined ligand for CD23, one of these (BU32) was found to be inhibitory whereas the other (THB5) had no effect. By combining antibodies to LFA-1 and CD23, aggregation was often completely inhibited. These data suggest that LFA-1/ICAM-1 and CD23/CD21 are the major molecules involved in homotypic aggregation of human B cells.     

Increased in vivo mitogenicity of anti-TCR/CD3 monoclonal antibody through reduced interaction with Fcgamma receptors

Since its initial clinical use in 1980, anti-TCR/CD3 monoclonal antibody (mAb) has been shown to be a potent immunosuppressive agent in the prevention of renal allograft rejections. However, toxic side effects caused by release of cytokines, predominantly from activated CD4+ T-cells, remain a major problem with the use of these reagents. Previous work has shown that this activation is mediated via antibody binding to Fcgamma receptors (FcgammaR) on host effector cells. In the present study, we have demonstrated in an in vivo mouse model that the anti-TCR/CD3 mouse mAb 7D6, as well as that from rat (17A2) and hamster (H57-597), induce a gradual depletion of host CD4+ T-cells without any apparent proliferative effects on the cells. In contrast, when treatment with these mAbs was combined with a mAb (2.4G2) that blocks the low-affinity Fcgamma receptors (FcgammaRII/III), we found that the in vivo actions of the anti-TCR/CD3 mAbs resulted in a significant expansion, rather than depletion, of CD4+ cells. The ability of 2.4G2 to reduce mAb 7D6-FcgammaR interaction was directly demonstrated in an in vitro assay system in which 2.4G2 partially suppressed 7D6-mediated T-cell responses. Taken together, our results have shown that some so-called "nonmitogenic" anti-TCR/CD3 mAbs in fact possess potent activating properties and that their mitogenic potential can be exposed by reducing their interaction with FcgammaR on host effector cells.     

Expression of Fc gamma and complement receptors in monocytes of X-linked agammaglobulinaemia and common variable immunodeficiency patients

Recently we reported that monocyte phagocytosis and chemotaxis are impaired in X-linked agammaglobulinaemia (XLA) and common variable immunodeficiency (CVI) patients. Few data exist on the in vivo expression of receptors for the constant region of immunoglobulin (IgG) (Fc gammaR) and complement receptors (CR) in these patients. The objective of this study was to investigate the expression of Fc gammaR and CR on monocytes from XLA and CVI patients and compare it to that of healthy controls. Whole blood samples were obtained from 10 patients with XLA, 12 with CVI and 18 healthy controls. Monocyte phenotype was determined by flow cytometry with gating on CD14+ cells. Surface expression of Fc gammaRI (CD64), Fc gammaRII (CD32) and Fc gammaRIII (CD16), CR1 (CD35) and CR3 (CD11b and CD18) was measured by determination of the proportion of CD14+ cells positive for each receptor and by receptor density. Compared to controls, a significantly higher percentage of CD16 and CD35+ monocytes from XLA (P = 0.002 and P = 0.007, respectively) were observed. The relative fluorescence intensity (RFI) expression of Fc gammaRII (CD32) and Fc gammaRIII (CD16) were significantly lower on CVI monocytes compared to controls (P = 0.001 and P = 0.035, respectively). XLA patients, who have a reduction of Bruton's tyrosine kinase (Btk), showed normal or increased percentages of monocytes expressing Fc gamma and complement receptors. CVI patients, who have normal expression of Btk, showed reduced expression of CD16 and CD32 on monocytes. Inefficient chemotaxis and phagocytosis, reported previously in XLA patients, could be due to defects of cytoplasmatic transduction mechanisms.     

Expression and function of B7-1 (CD80) and B7-2 (CD86) on human epidermal Langerhans cells

In addition to T cell receptor triggering, activation of T cells requires co-stimulatory signals that have been shown to be mainly initiated through CD28. We analyzed the expression and function of the two ligands for CD28, B7-1 (CD80) and B7-2 (CD86), on human Langerhans cells (LC), the antigen-presenting cells from epidermis. Human LC freshly isolated from epidermis (fLC) expressed significant level of B7-2, which was increased upon a short culture in vitro. In contrast, B7-1 was undetectable on fLC but appeared at the cell surface after a 3-day culture in vitro. Pre-incubation of 18-h cultured LC with anti-B7-2 monoclonal antibodies (mAb) was sufficient to abrogate the binding of CTLA4-Ig fusion protein, while a combination of both mAb against B7-1 and B7-2 was necessary to obtain a complete inhibition of CTLA4-Ig binding on 3-day cultured LC, showing the absence of a third CTLA4 ligand. The function of B7-1 and B7-2 on human LC has been analyzed by adding mAb at the beginning of mixed epidermal cell lymphocyte reactions. Anti-B7-2 mAb and CTLA4-Ig, but not anti-B7-1 mAb, strongly inhibited allogeneic, as well as recall antigen-induced T cell proliferation supported by fLC or 3-day cultured LC. Collectively, these results demonstrate that B7-2 is the major ligand for CD28/CTLA4 at the LC surface and that it plays a crucial role in human LC co-stimulatory function with little, if any, dependence on B7-1 expression.     

Human lymphocytes shed a soluble form of CD21 (the C3dg/Epstein-Barr virus receptor,CR2) that binds iC3b and CD23

We report on a soluble (s) form of CD21 (the C3dg/Epstein-Barr virus receptor, CR2) that is spontaneously released by B and T lymphocytes. Immunoprecipitation with anti-CD21 mAb of culture supernatants of surface and biosynthetically labeled B and T cell lines revealed a single band with an apparent molecular mass of 135 kDa. The molecule exhibited a molecular mass 10 kDa lower than that of membrane CD21. The release of soluble CD21 (sCD21) was time dependent and correlated with a parallel decrease in the expression of the membrane-associated molecule. The protein was also found in culture supernatants of tonsillar B cells and normal human thymocytes. Epitopic analysis using combinations of anti-CD21 monoclonal antibodies (mAb) indicated that sCD21 and membrane CD21 were similarly recognized by mAb directed against short concensus repeats (SCR) 1–2, SCR 4–5 and SCR 9–11. Affinity-purified sCD21 was capable of binding to purified human iC3b and to human recombinant CD23, as assessed by enzyme-linked immunosorbent assay and by using the BIAcore^TM technology. In addition, normal human serum was found to contain a soluble form of CD21 that exhibited a similar molecular mass to that of the molecule shed by B and T cells in culture. The serum form of CD21 was recognized by all anti-CD21 mAb that we tested and showed a high reactivity with mAb directed against SCR 1–2. Our observations suggest that B and T cells shed the extracellular portion of CD21 and release a soluble molecule that retains the ligand-binding properties of CD21, thus having a potential role in immunoregulation.     

CD32 expression and signaling is down-regulated by transforming growth factor-β1 on human monocytes

CD32 (FcγRII) is the most abundantly distributed class of IgG Fc receptors in the human body. In this study, we analyzed the effect of transforming growth factor (TGF)-β1, a cytokine with strong immunosuppressive function, on the expression and function of CD32 on freshly isolated peripheral blood monocytes and three human monocytic cell lines, U937, THP-1 and Mono mac-6. We found that TGF-β1 down-regulates CD32 expression on monocytes and all monocytic cell lines in a dose- and time-dependent fashion. A mean down-regulation of CD32 expression on THP-1 cells of 54 ± 3.2% after 24 h was found at a concentration of 1 ng/ml TGF-β1. At the mRNA level, TGF-β1 induced a twofold down-regulation of CD32. Cross-linking of CD32 induced an increase in the concentration of intracellular Ca²⁺, which was reduced by 50% by TGF-β1, suggesting a decreased downstream signaling mediated by the receptor.     

Simple genotyping of functional polymorphisms of the human immunoglobulin G receptors CD16A and CD32A: a reference cell panel

The Fcγ receptors CD16A and CD32A connect the innate and the adaptive immune responses by transmitting activating signals to natural killer lymphocytes and myeloid cells upon recognition of antigen–immunoglobulin G (IgG) complexes. Two allelic dimorphisms of these receptors, valine/phenylalanine-158 of CD16A and histidine/arginine-131 of CD32A, modulate their affinity for certain human IgG subclasses. Furthermore, these polymorphisms are clinically relevant because they modify the susceptibility, the clinical course and the response to therapy of several human diseases. Genotyping of CD16A and CD32A alleles, encoded by FCGR3A and FCGR2A , respectively, is complicated by the fact that they both belong to families of highly homologous genes. In this study, we present an original method for genotyping the FCGR3A and FCGR2A dimorphisms based on the technique of polymerase chain reaction with confronting two-pair primers. The new method simplifies the analysis of FCGR3A and FCGR2A because the two alleles of each gene are detected simultaneously in a single reaction and separated, with no further manipulations, by their different electrophoretic mobilities in regular agarose gels. We also present the CD16A and CD32A genotypes of cells from the Tenth International Histocompatibility Workshop, which can serve as a reference cell panel for investigating the influence of CD16A and CD32A polymorphisms on human health.     

Intravenous immunoglobulin does not increase FcγRIIB expression levels on monocytes in children with immune thrombocytopenia

Intravenous immunoglobulin (IVIG) produces a rapid and prolonged increase in the platelet counts of children with immune thrombocytopenia (ITP). The mechanism of IVIG efficacy in a murine model of ITP has been reported to operate through an IVIG-mediated increase in the expression of the inhibitory Fc receptor FcγRIIB(CD32B) on splenic macrophages. This investigation examined whether IVIG administration results in a similar increase in FcγRIIB expression on peripheral blood CD14(+) monocytes in 20 children with ITP. FcγRIIB expression on peripheral blood monocytes was measured by flow cytometry in ITP patients, before and after IVIG therapy, as well as in control subjects. Peripheral blood monocytes were labelled with fluorescent-specific antibodies. There were no significant differences in the percentages or numbers of CD14(+) CD32B(+) monocytes, or in the percentage of CD14(+) CD32B(+) monocytes present in children with ITP before and after IVIG therapy. We suggest that IVIG does not increase FcγRIIB expression in peripheral blood monocytes in children with ITP.     

A novel Fc gamma receptor ligand augments humoral responses by targeting antigen to Fc gamma receptors

Generating efficient antibody (Ab) responses against weak antigens remains challenging. Ab responses require antigen (Ag) uptake by antigen-presenting cells (APC), followed by presentation of processed Ag to T cells. Limited uptake of antigenic peptides by APC constrains Ab responses. Here we improve vaccine efficacy by targeting Ag to Fcgamma receptors (FcgammaR) using R4, a recombinant FcgammaR ligand. R4 has four repeats per chain of the hinge region and CH2 domain (HCH2) of human IgG1. HCH2 encompasses the FcgammaR binding site. The repeats are linked to the human IgG1 framework. To test R4 in augmenting Ag uptake, we expressed human serum albumin domain 1 (HSA1) at the N terminus of R4 to produce HSA1R4. HSA1R4 (50 microg) administered to mice in Ribi adjuvant induces up to 1100-fold higher HSA1-specific IgG titers than HSA1 (p<0.001). HSA1R4 (250 ng) induces up to 130 times more anti-HSA1 Ab than HSA1Fc, a protein with HSA1 linked to the IgG1 framework (p<0.001). HSA-reactive T cells proliferate more briskly to HSA1R4 than to HSA1Fc (p<0.008). Immunization with HSA1R4 yields greater T cell reactivity to HSA1 ex vivo than immunization with HSA1Fc (p<0.004). Linking antigenic peptides to linear HCH2 polymers may facilitate vaccine development.     

Clearance of red cells by monoclonal IgG3 anti-D in vivo is affected by the VF polymorphism of Fcgamma RIIIa (CD16)

Human red cells (RBC) coated with IgG anti-D are cleared from the circulation to the spleen by macrophages which express IgG receptors (Fcgamma R). Polymorphisms of Fcgamma RIIa and Fcgamma RIIIa affect IgG binding in vitro, and may alter the efficiency of clearance of immune complexes in vivo. In a RBC clearance study, 22 Rh D-negative subjects were given 100-400 micro g human monoclonal or polyclonal IgG anti-D i.m. followed 48 h later by 51Cr-labelled D+ RBC. The half lives of the infused D+ RBC were determined, together with the coating levels of anti-D on the D+ RBC. Fcgamma RIIA and FcgammaRIIIA genotyping was performed. Large ranges of phagocytosis and extracellular lysis of RBC in vitro, and of half lives of RBC in vivo, were observed. Clearance of RBC coated with monoclonal IgG3 anti-D (BRAD-3) was more rapid in five subjects homozygous for Fcgamma RIIIa-F/F158 than in three subjects expressing the Fcgamma RIIIa-V158 allele (P = 0.024). This effect was not observed, however, for those individuals given polyclonal anti-D. There was also no significant difference in the efficiency of RBC destruction in vitro or of RBC clearance in vivo between the subjects analysed for individual genotypes or alleles or combinations of alleles. In conclusion, the presence of the Fcgamma RIIIa-V158 allele compromised the efficiency of removal of RBC coated with IgG3 anti-D.     

Cross-linking of antigen receptor via Ig-β (B29, CD79b) can induce both positive and negative signals in CD40-activated human B cells

Antigen-dependent activation of B lymphocytes is mediated through surface immunoglobulins and their associated molecules Ig-α (CD79a, Mb1) and Ig-β (CD79b, B29). Here we show that an antibody directed against the extracellular part of human Ig-β can, when cross-linked by CD32-transfected L cells, induce an IL-2-dependent proliferation of tonsil B cells. With the use of L cells stably transfected with both CD32 and CD40L, anti-Ig-β activation of B cells was combined with CD40 triggering, an important component of the T cell-dependent B cell activation. This dual cellular activation resulted in two different phases, with initially synergistic proliferative effects, both without and with IL-2 or IL-10. Then, after 5–6 days of culture, cells stimulated with both anti-Ig-β and CD40L underwent massive cell death, in contrast to B cells activated with CD40L alone. Cell death was not prevented by the addition of IL-2 or IL-10, but was prevented by the addition of IL-4. These results are discussed in the context of positive and negative selection of mature B cells.     

Isotype-specific cross-linking of select human Fc gamma R isoforms triggers release of IL-6.

Anti-CD3 MoAbs are widely used in T cell activation studies, and are effective in immunosuppressive therapy. We used a panel of mouse (m) anti-CD3 switch variant MoAbs of five different isotypes to study IL-6 release from accessory cells. Incubation of human (h) mononuclear cells with anti-CD3 MoAbs resulted in increased IL-6 levels with MoAbs of mIgG1 and mIgG2a isotypes, with no effect of mIgG2b or mIgA. This suggested involvement of IgG Fc receptors (Fc gamma R) in triggering IL-6 production. To evaluate the role of different Fc gamma R molecules individually we used a panel of hFc gamma R-transfected mouse fibroblasts, and Jurkat T cells as a model. IL-6 secretion by CD32 transfectants expressing the hFc gamma RIIa high-responder (HR) allelic form was triggered by mIgG1 anti-CD3 MoAb, with no effect of four other isotypes. None of the anti-CD3 MoAbs induced IL-6 secretion by CD32 transfectants expressing either a variant of this receptor, containing only a single intracellular amino acid (CT-), the hFc gamma RIIa low-responder (LR) allelic form, or hFc gamma RIIb1. hFc gamma RI (CD64) transfectants exhibited IL-6 production after incubation with mIgG2a anti-CD3 MoAb, and to a lesser extent with mIgG2b, and mIgG1 MoAb. Indirect involvement of T cells in triggering IL-6 secretion could be excluded by experiments in which transfectants were cultured with immobilized anti-CD3 MoAb. These data indicate that cross-linking of either hFc gamma RI, or hFc gamma RIIaHR by appropriate anti-CD3 MoAbs triggers IL-6 production of accessory cells, and not T cells. This may also take place in vivo during immunosuppressive therapy with anti-CD3 MoAbs, and related antibody-mediated immune responses.     

Expression of functional activating and inhibitory Fcgamma receptors on human B cells

BACKGROUND: The CD32 (FcgammaII) receptor is involved in the regulation of the B cell response to antigen. The sole Fc receptor demonstrated in mice is the inhibitory FcgammaIIB receptor. Crosslinking this receptor does not lead to downstream signaling or cell activation. Instead, when immune complexes bind to Fcy on murine B cells, cell activation through the B cell antigen receptor is attenuated. The objective of this study was to evaluate the expression of the FcgammaII receptor and the response to immune complex stimulation in human B cells. METHODS: Human lymphoblastoid, peripheral and tonsillar B cells were stained with anti-CD32 antibodies IV.3 and 8.26 to determine the relative expression of the activating (FcgammaIIA) and inhibitory (FcgammaIIB) isoforms of CD32. Tetanus immune complexes were added to B cells and the activation of c-Jun amino-terminal kinase was assayed. RESULTS: Unlike murine cells, human B cells express high levels of the activating form of the Fcgamma receptor IIA. Addition of immune complexes to peripheral B cells resulted in signaling of Jun kinase, an important downstream kinase involved in the regulation of B cell function. The level of expression of FcgammaIIA on human B cells was not uniform, but depended on activation status. Peripheral blood B cells expressed high levels of FcgammaIIA, while tonsillar B cells predominantly expressed FcgammaIIB. Furthermore, when peripheral B cells were activated, the expression of FcgammaIIA relative to FcgammaIIB decreased. CONCLUSION: The response of human B cells to binding of immune complexes depends on the relative expression of activating (FcgammaIIA) versus inhibitory (FcgammaIIB) receptors.     

Anti‐FcγRIIB (CD32) Antibodies Differentially Modulate Murine FVIII‐Specific Recall Response in vitro

Fc gamma receptors (FcγRs) for IgG regulate adaptive immune responses by modulating activating and inhibitory signalling pathways within immune cells. Data from a haemophilia A mouse model demonstrate that genetic deletion or blockade of the inhibitory FcγR (CD32) suppresses the formation of antibody‐secreting cells (ASCs) in vitro. Mechanisms preventing the FVIII‐specific recall response, however, remain unclear. Here, the potential role of CD32 inhibition was studied by differentially modulating receptor activity with selected anti‐CD32 monoclonal antibodies (mAbs). Splenocytes from immunized FVIII^‐/‐ mice were restimulated with FVIII in the absence or presence of different anti‐CD32 mAbs over 6 days. At day 6, cytokine release was quantified from cell culture supernatant and the formation of FVIII‐specific ASCs assessed. Binding of FVIII‐containing immune complexes (F8‐ICs) to bone marrow‐derived dendritic cells (BMdDCs) was also investigated. The antagonistic CD32 mAb AT128 suppressed the formation of FVIII‐specific ASCs and reduced secretion of IFN‐γ and IL‐10. In contrast, the agonistic mAbs AT130‐2 and AT130‐5, and their F(ab’)₂ fragments, allowed the formation of FVIII‐specific ASCs, even though the full IgG of AT130‐2 reduced binding of F8‐ICs to CD32. Data suggest that an inhibitory signal is transmitted when F8‐ICs bind to CD32 and that this signal is required during memory B cell (MBC) activation to support formation of FVIII‐specific ASCs. If the inhibitory signal is lacking due to CD32 deletion or blockade with antagonistic anti‐CD32 mAbs, FVIII‐specific T cell stimulation and ASC formation are suppressed, whereas agonistic stimulation of CD32 restores T cell stimulation and ASC formation.     

CD94 functions as a natural killer cell inhibitory receptor for different HLA class I alleles: identification of the inhibitory form of CD94 by the use of novel monoclonal antibodies

CD94 molecules have been suggested to function as inhibitory natural killer cell (NK) receptors involved in the recognition of HLA-B alleles sharing the Bw6 supertypic specificity. In this study, we show that CD94 molecules may play a more general role: they are also involved in the recognition of other HLA class I molecules, including HLA-C and at least some HLA-A alleles. The inhibitory effect mediated by CD94 molecules on NK cytolytic activity is lower in magnitude than that of bona fide inhibitory receptors such as p58 or p70. Distinct from the other human NK receptors involved in HLA class I recognition, CD94 is expressed on virtually all NK cells. In addition, it has been shown to be functionally heterogeneous since, in different clones, CD94 mediated either cell triggering or inhibition. Although NK cells expressing inhibitory CD94 molecules are usually characterized by a CD94^bright phenotype, there is no precise correlation between fluorescence intensity and inhibitory or activating function. Here, we describe two novel monoclonal antibodies (mAb) which selectively recognize inhibitory CD94 molecules and bind to a subset (variable in size among different donors) of CD94^bright cells. The use of these mAb allows the direct assessment of NK cells expressing inhibitory CD94 receptors both at the population and at the clonal level.