The role of complement receptor positive and complement receptor negative B cells in the primary and secondary immune response to thymus independent type 2 and thymus dependent antigens

Both complement receptor positive (CR+) and complement receptor negative (CR-) B cells have been shown to be involved in the primary immune response to PC-Hy (phosphocholine conjugated hemocyanin), a thymus dependent (TD) antigen which preferentially induces antibody secretion in Lyb-5+ B cells during a primary adoptive transfer assay. CR+ and CR- B cells also responded in a primary adoptive transfer assay to TNP-Ficoll, a thymus independent type 2 (TI-2) antigen which activates only Lyb-5+ B cells. When the secondary immune response to PC-Hy and TNP-Ficoll were analyzed, it was found that most of the immune memory to both antigens was present in the CR- B cell subset. The CR- B cell subset also dominated the secondary immune response to PC-Hy in immune defective (CBA/N X DBA/2N)F1 male mice. These data indicate that CR- B cells dominate the memory response in both the Lyb-5+ and Lyb-5- B cell subsets of normal and xid immune defective mice and suggest that Lyb-5+ and Lyb-5- B cells can be subdivided into CR+ and CR- subsets.     

Characteristics of complement receptor-bearing cells in the spleens of tumor-bearing mice.

In the course of mammary tumor development, a population of nylon nonadherent cells with CR appears in the spleens of tumor-bearing mice although none are ever detected in normal mice. These cells apparently arise in response to immunologic stimulation. In a series of studies we have further characterized subsets of T cells (CR+ and CR-) with regard to their responses to mitogens in the lymphocyte transformation assay. Nylon column nonadherent cells from the spleens of tumor-bearing mice were rosetted in a complement receptor assay using EAC rosetting, and CR+ cells were separated from CR- by centrifugation in a discontinuous Ficoll gradient. CR+ T cells responded strongly to PHA and Con A and in addition responded to LPS, an activity not usually associated with conventional T cells. In contrast, CR- T cells from tumor-burdened mice responded to PHA but failed to respond to Con A or LPS.     

Responses of B cells with or without C3 receptors to polyclonal B cell activators

Responses of B cells with or without receptors for C3 (CR) to polyclonal B cell activators (PBA) were studied. Mouse spleen cells were incubated with sheep red blood cells (SRBC) coated with antibody and complement to form rosettes, and they were separated by Ficoll-Hypaque density sedimentation into populations depleted of and enriched with lymphocytes bearing CR (CRL). These 2 populations were cultured with lipopolysaccharide (LPS), purified protein derivative of tuberculin (PPD), or dextran sulfate (DxS) and assayed for anti-TNP PFC. The CRL-depleted population responded well to LPS, poorly to PPD, and it showed practically no response to DxS, whereas the CRL-enriched population seemed to respond poorly to LPS but well to both PPD and DxS. The low responsiveness of the cRL-depleted population to PPD and DxS could not be explained by a shift of time-kinetics, by the dose-response profile of the responding cells, or by the depletion of adherent cells. Suppressor T cells did not take part in the reduced responses, since the treatment of the population with anti-Thy 1.2 plus complement could not restore the responses. These results indicate that B cells with CR [CR(+) B cells] respond well both to PPD and DxS, whereas the cells without CR [CR(-) B cells] respond poorly to PPD and DxS. It was difficult to evaluate the low responsiveness of CR(+) B cells to LPS because of the high background PFC of the cRL-enriched population.     

Macrophage requirements of CR- and CR+ B lymphocytes for antibody production in vitro.

A Sephadex G-10 column coated with antigen-antibody complexes and complement retains complement receptor-bearing (CR+) mouse spleen cells. The effluent is rich in thymus-derived cells (T cells), and contains bone marrow-derived cells (B cells) which carry surface immunoglobulin (Ig), Ir-associated antigen (Ia), and Fc receptors, but no complement receptors (CR-). Although both unfractionated and CR- B cell populations are capable of producing antibody to red cell antigens, they differ in their requirements for the initiation of the response. Unfractionated B cells cooperate with primed as well as unprimed helper T cells; macrophages are required for this cooperation but can be replaced by 2-mercaptoethanol. CR- B cells cooperate with primed but not with unprimed T cells provided macrophages are added to cultures. After addition of culture supernatant from BCG-activated macrophages CR- B cells cooperate with both unprimed and primed T helper cells.     

Changes in the expression of B cell surface markers on complement receptor-positive and complement receptor-negative B cells induced by phorbol myristate acetate

The ability of phorbol myristate acetate (PMA) to induce changes in the expression of B cell surface markers on CR- and CR+ B cells from normal mice in an in vitro culture system was examined. The markers studied were CR, sIgM, sIgD, and sIa. CR- B cells acquired the CR after overnight incubation with PMA. A twofold increase in sIa expression on CR- and CR+ B cells was also noted, whereas the staining intensity of sIgM and sIgD decreased on both B cell populations. These changes in the expression of surface markers took place without detectable increases in cell proliferation, cell size, or RNA content. Furthermore, the same effects were observed when CR- and CR+ B cells were prepared from a small B cell population purified by elutriation. It therefore appears that PMA can exert its effect directly on small, resting B cells.     

Murine B lymphocyte heterogeneity: distribution of complement receptor-bearing and minor lymphocyte-stimulating B lymphocytes among cells with different densities of total surface Ig and IgM.

The distribution of complement receptor-bearing (CR+) and minor lymphocyte-stimulating (Mls)-defined lymphocyte-activating determinants (LAD) among B lymphocytes with different densities of total surface immunoglobulin (sIg) and sIgM was determined. B lymphocytes that bore intermediate densities of sIg and low densities of sIgM had the highest frequency of CR+ cells and were the most active in expressing Mls-defined LAD. The distribution of these and other surface markers on B-lymphocyte subpopulations is discussed.     

B cells with or without C3 receptor: Murine B-cell subsets highly and lowly responsive to anti-Ig stimulation

Bone marrow-derived lymphocytes (B cells) with or without receptors for a third component of complement (CR) were studied in their responsiveness to the F(ab′)₂ fragment of antiimmunoglobulins (anti-Ig). Spleen cells from C57BL/6J mice were fractionated by the centrifugation over Ficoll-Hypaque density gradient after they were rosetted with erythrocyte-antibody complement complexes. The cells in the interface fraction responded poorly to anti-Ig, while the cells in the pellet fraction responded well. The low responsiveness of CR(?) B cells was confirmed by assaying the responsiveness of cells passed through a Sephadex G-10-complement column. Reduced response of CR(?) B cells could not be explained by the depletion of helper or accessory cells. The relationship between CR, B-cell differentiation and proliferative capacity of B cells is discussed.     

The significance of a Cripto-1-positive subpopulation of human melanoma cells exhibiting stem cell-like characteristics

Cripto-1 (CR-1) protein function differs according to cellular or extracellular expression. In this study, we explore the significance of cell surface CR-1 expression in human melanoma cells. Cell surface CR-1-expressing human melanoma cells (CR1-CS+) were selected by fluorescence-activated cell sorting (FACS) and grown in vitro and in vivo in nude mice to study their growth characteristics. The CR1-CS+ melanoma cells were found to express increased levels of Oct4, MDR-1 and activated c-Src compared with cells lacking this subpopulation (CR1-CS−) or unsorted cells, used as control. CR1-CS+ show reduced proliferation rates and diminished spherical colony formation compared with control cells when cultured in vitro. Orthotopic injections of CR1-CS+ in nude mice formed slow growing tumors with histologic variability across different areas of the CR1-CS+ xenografts. CR-1-expressing cells from first generation CR1-CS+ tumors showed significantly increased tumor-forming rate and aggressiveness following subsequent transplants in nude mice. These data demonstrate that within a heterogeneous melanoma cell population there resides a slow proliferating, cell surface CR-1-expressing subpopulation capable of giving rise to a fast growing, aggressive progeny that may contribute to disease recurrence and progression.     

Distribution and quantitative expression of the complement receptor type 1 (CR1) on human peripheral blood T lymphocytes.

The complement receptor, type 1 (CR1) is expressed on a variety of cell types including primate erythrocytes, phagocytic cells, and B lymphocytes. On these cells, CR1 plays a role in a diverse spectrum of biological activities including the clearance of immune complexes from the circulation, down-regulation of the complement system, recognition of complement-coated microorganisms, and cellular activation. CR1 is also expressed by some, but not all, T lymphocytes. The present study was undertaken in order to examine the distribution of CR1 on normal human T cell subsets by flow cytometry and to quantify the expression of T cell CR1 by radioimmunoassay. Data presented here indicate that, in a panel of 19 normal individuals, a mean of 9.7% of the overall peripheral blood lymphocyte population expressed CR1 and that, as assessed by two-color flow cytometry, 12.0% of CD3+, 13.0% of CD4+, and 20.0% of CD8+ cells expressed CR1. While single peaks of CR1 staining were observed within the CD3 and CD4 subsets, a biphasic pattern of staining was evident within the CD8 subset in which relatively high-intensity CR1 staining was detected within the subpopulation of "dull" CD8+ cells, whereas a lower intensity of CR1 staining was observed within the subpopulation of "bright" CD8+ cells. Duplicate analyses performed over a relatively short time frame suggested that, while the overall percentage of cells that expressed CR1 varied considerably among normal individuals, in at least some individuals the percentage of cells expressing CR1 was relatively stable, especially within the CD4 subset. In cell suspensions enriched for T lymphocytes by rosetting with sheep erythrocytes, 10.0% of the cells were CR1+ and a mean of approximately 3700 CR1 were expressed per CR1+ cell. There was no apparent correlation between the number of CR1 per T cell and the number of CR1 expressed per erythrocyte in the same blood sample. The expression of CR1 on subpopulations within the CD3+, CD4+, and CD8+ lymphocyte subsets may play a role in both normal cell function and in the pathophysiology of disease states including the acquired immune deficiency syndrome (AIDS).     

In vitro immune response of human peripheral lymphocytes. VI. Distribution and characterization of precursors for PHA- and protein A-induced colony-forming B cells

B cells from peripheral blood or cord blood formed colonies by stimulation with either PHA or protein A. On the other hand, tonsillar B cells did not form protein A-induced colonies, although PHA-induced colony formation was comparable to that observed in peripheral B cells. Lack of protein A-induced colony formation in tonsillar B cells was not due to the defect of helper T cells in preculture or to the presence of suppressor cells but was due to the absence of precursors for colony formation. The result showed that PHA- and protein A-induced colony-forming cells belonged to distinct subsets of B cells. Depletion of mu-bearing cells from peripheral B cells abrogated both PHA- and protein A-induced colony formation. Depletion of delta-bearing cells did not affect PHA- and protein A-induced colony formation and the population enriched with delta-bearing cells also showed colony formation. Depletion of complement receptor (CR)-positive cells removed precursors for both PHA- and protein A-induced colony formation. These results showed that precursor cells for PHA- and protein A-induced colony formation were IgM+, IgD+ and CR+ or IgM+, IgD- and CR+.     

Functional heterogeneity of the Lyb-5- B cell subpopulation: mutant xid B cells and normal Lyb-5- B cells differ in their responsiveness to phenol-extracted lipopolysaccharide

In the present study, responses stimulated by phenol-extracted lipopolysaccharide (LPS(phenol)) and butanol-extracted LPS (LPS(butanol)) were used to assess the possibility that xid B cells might not be identical to the Lyb-5- B cells present in normal mice. It was found that xid B cells responded well only to LPS(butanol) whereas normal B cells responded well to both LPS(butanol) and LPS(phenol). Thus, LPS(butanol) appeared to be a TI-1 antigen and LPS(phenol) appeared to be a TI-2 antigen. In contrast to classical TI-2 responses, however, responses stimulated by LPS(phenol) did not exhibit a stringent requirement for accessory cells. Furthermore, if LPS(phenol) were a classical TI-2 antigen, it should only activate Lyb-5+ B cells. To determine if the responsiveness of normal B cells to LPS(phenol) were due, at least in part, to the stimulation of normal Lyb-5- B cells, the responsiveness of normal neonatal B cells and normal adult B cells that had been pretreated with anti-Lyb-5.1 + C was assessed. It was found that both normal neonatal B cells and normal adult Lyb-5- B cells did respond well to LPS(phenol). Thus, even though LPS(phenol) does not stimulate xid B cells, these data demonstrate that LPS(phenol) is different from other TI-2 antigens. More importantly, these data also demonstrate that xid B cells and normal Lyb-5- B cells are not identical. It is hypothesized that the normal Lyb-5- B cell subpopulation is heterogeneous, consisting of an Lyb-5(1)- and an Lyb-5(2)-B cell subset with the xid mutation blocking the differentiation of Lyb-5(1)-B cells into Lyb-5(2)-B cells.     

Complement-mediated binding of naturally glycosylated and glycosylation-modified human immunodeficiency virus type 1 to human CR2 (CD21).

Particulate glycoproteins lacking sialic acid, such as desialylated enveloped viruses, readily activate complement through the alternative pathway. Human immunodeficiency virus type 1 (HIV-1) contains two heavily glycosylated and partially sialylated envelope glycoproteins: a surface gp120 and a transmembrane gp41. The abilities of naturally glycosylated HIV-1 and glycosylation-modified HIV-1 to interact with the complement system were examined with a biological assay which measured the binding of whole virus particles to cells expressing CR2 (CD21), the complement receptor found naturally in abundance on follicular dendritic cells and immature B cells. HIV-1 IIIB was synthesized in the presence or absence of the mannosidase II inhibitor, swainsonine, to give rise to high-mannose-type, nonsialylated, nonfucosylated carbohydrate moieties. The virus also was treated with neuraminidase or endo-beta-galactosidase to remove terminal sialic acids. An enzyme immunoassay specific for HIV-1 p24 core protein was used to quantitate the amount of virus bound to cell surfaces. Virus particles incubated with 1:3-diluted, fresh HIV-1-negative human serum as a source of complement readily bound to MT-2 (CD4+ CR2+) and Raji-3 (CD4- CR2+) cells but not to CEM (CD4+ CR2-) cells, suggesting that the virus bound to CR2 independently of CD4. Compared with heat-inactivated or C3-deficient sera, fresh complement increased binding by as much as 62 times for naturally glycosylated virus, and 5 times more than this for glycosylation-modified virus. Similar observations were made with freshly isolated, non-mitogen-stimulated peripheral blood mononuclear cells. Additional evidence that HIV-1 bound to CR2 independently of CD4 was provided by the fact that binding was blocked by monoclonal antibody OKB7 (anti-CR2) but not by OKT4a (anti-CD4). Also, the virus bound to transfected K562 cells (CD4-) which expressed recombinant human CR2 but did not bind to untransfected K562 cells. Results obtained with complement component-deficient sera indicated that binding required the alternative complement pathway. Raji-3 and transfected K562 cells could not be infected with HIV-1 in the presence of complement, suggesting that utilization of CR2 as a receptor in the absence of CD4 does not allow virus entry. The demonstration of CR2 as a receptor for HIV-1 in the presence of complement, together with the ability to enhance binding by desialylation, provides new insights into mechanisms of HIV-1-induced immunity and immunopathogenesis.     

Different responses of CR(−) and CR(+) B cells to LPS stimulation

Proliferative response of B cells with or without CR [CR(+) or CR(?) B cells] was compared in their polyclonal response when they were stimulated with lipopolysaccharide (LPS). CR(+) B cells responded better in proliferation and more poorly in polyclonal antibody formation than did CR(?) B cells. The dissociation between proliferation and antibody formation in LPS response was not due to the shift of the time kinetics nor the exhaustion of the culture medium. T cells and macrophages did not take part in the dissociation, since macrophage depletion from nu/nu mouse spleen cells could not modify the dissociation. The polyclonal antibody response of CR(?) B cells was more resistant to irradiation than that of CR(+) B cells. These results suggest that among LPS-responsive B cells there are CR(?) B-cell subset(s) more mature than CR(+) B cells.     

Distinct sequences in the cytoplasmic domain of complement receptor 2 are involved in antigen internalization and presentation

B cells express randomly rearranged surface Ig that forms part of a multiprotein complex known as the B cell receptor (BCR). Recognition of Ag via this receptor results in its capture, internalization, proteolysis and presentation to CD4+ T cells. The recognition of Ag by CD4+ T cells is critical for the selection of individual B cells, leading to the eventual secretion of a high affinity version of the BCR as an effective circulating Ab. B cells also express other receptors that recognize Ags associated with components of innate immunity. One of these receptors, CR2, binds Ags coated with activated complement components. Studies have shown that cross-linking CR2 and the BCR with complement-tagged Ags leads to enhanced Ag presentation by B cells. In addition, Ags targeted to B cell CR2 in the absence of BCR coligation are also efficiently presented to T cells. In this report, we identify several distinct sequences within the cytoplasmic domain of mouse CR2 (mCR2) that are essential for mCR2-mediated Ag presentation in both the presence and the absence of BCR cross-linking. The finding that distinct sequences in the cytoplasmic domain of mCR2 are essential for BCR-independent Ag presentation leads us to propose a novel role for CR2.     

Monoclonal antibodies recognizing epitopes of calretinins: dependence on Ca2+-binding status and differences in antigen accessibility in colon cancer cells

Monoclonal antibodies are very helpful tools to investigate the localization and sometimes even the function of specific proteins in cells and tissues. By generating monoclonal antibodies against calretinin-22k (CR-22k), a C-terminally truncated isoform of calretinin (CR) as a result of alternative splicing of the CR mRNA, we envisaged that screening multiple monoclonal antibodies would allow the identification of CR-22k as well as CR. Both proteins share the first 178 amino acids, but have different C-termini. All three antibodies 10C10, 6B3 and 2H4 recognize recombinant CR-22k and the specificity to also recognize CR was demonstrated in brain extracts of different species and human tumour cells, which express CR. All monoclonal antibodies did not crossreact with the closely related protein calbindin D-28k. Antibody binding was depending on the Ca2+-binding status of both forms of calretinin. Generally, the Ca2+-bound form was better recognized than the Ca2+-free form. Carboxy- and amino-terminally truncated CR proteins were expressed in E. coli in order to characterize the epitopes recognized by the three antibodies. Additionally, tryptic and cyanogen bromide fragments were produced to further narrow down the sequences recognized by the three antibodies. 10C10 recognizes an epitope consisting of the linker region between EF-hand domains I and II and the N-terminal part of EF-hand II, while the others (6B3, 2H4) bind to a region including the linker between EF-hand domains III and IV. These antibodies are valuable tools to further investigate the distribution and eventually the specific function of these two proteins in the nervous tissue and under pathological conditions, e.g. in colon tumours and mesotheliomas.     

The CR2 receptor (CD21) shows increased expression in the more differentiated cells of an antigen-specific B cell line.

The complement receptor 2 (CR2; CD21), a 145,000 MW glycoprotein, has been useful as a marker of B lymphocyte maturation. It is expressed on the 1:13 monoclonal, EBV-transformed, B cell line which produces TNP-specific IgM-kappa and displays an in vitro capacity for differentiation. The line expresses the CD20+CD21+ phenotype. We studied whether CR2 receptor surface expression varied in relation to the cell cycle or state of differentiation in the 1:13 line. High CD21 and IgM expression occurred in the G1 phase of the cell cycle. In contrast to CD21, there were no distinctly brighter subpopulations of CD20 positive cells in the G1, S, or G2M compartments of the cell cycle. When sorted according to size, smaller cells were predominantly in G1, whereas a greater proportion of the larger cells were in the G2M phase of the cell cycle. The smaller 1:13 cells expressed more CD21 surface antigen and IgM than the larger cells. Cells which formed stable rosettes with TNP-SRBC expressed more surface IgM and CD21 antigen than nonrosetting cells. We have previously shown that the TNP-SRBC rosetting cells were more differentiated, resided in G1, and secreted more immunoglobulin than the nonrosetting cells. Thus increased CR2 expression occurred in the more differentiated cells of this human monoclonal B cell line.     

The oxidative burst triggered by Salmonella typhimurium in differentiated U937 cells requires complement and a complete bacterial lipopolysaccharide

The bacterial and serum factors involved in the oxidative response triggered by Salmonella typhimurium in differentiated U937 cells were investigated. Complement activation was shown to be required, using sera deficient in complement factors. An original dot-blot technique was developed to study the activation of complement by either bacteria or purified lipopolysaccharide (LPS). Both O-specific and lipid A segments of LPS were found to play a role in the triggering of the oxidative response. Lipid A was responsible for bacterial C3-derived opsonization by inducing an antibody-independent activation of complement classical pathway, whereas O-specific polysaccharide chains (O-Ag) were involved in cellular activation. Inhibition experiments using anti-cell surface marker monoclonal antibodies showed the involvement of the α chain of CR3 (CD11b) in the oxidative response developed by differentiated U937 cells in response to S. typhimurium infection. Whether both iC3b and O-Ag interact with different domains of CR3 or whether the binding of O-Ag occurs via a not yet identified receptor remains to be determined.     

Hapten-specific murine colony-forming B cells. III. Delineation of functional B cell subpopulations grown under different conditions

The influence of anti-immunoglobulin M (IgM) and anti-IgD on the ability of fluorescein (FL)-specific B cells to proliferate in a colony-forming assay, and of their progeny to further differentiate in response to different FL-antigens was studied. Splenic FL-specific B cells were purified on FL-gelatin plates and were then cultured in semisolid agar in the presence or absence of anti-mu, and anti-delta, or both. Experiments were performed under conditions of either sheep red blood cell (SRBC)-potentiated or SRBC + lipopolysaccharide (LPS)-potentiated colony growth. The resulting colonies were then tested in secondary filler cell-dependent microcultures for the ability to be triggered by different classes of FL-antigens to yield plaque-forming cells (PFC). Anti-delta inhibited 47% of colony growth under both agar culture conditions. Anti-mu inhibited 55% of colony growth in SRBC + LPS-potentiated agar cultures, and inhibited 72% if only SRBC was present. If anti-delta and anti-mu were added together, inhibition was nearly additive. When anti-Ig-treated colonies were tested for PFC responses against FL-polymerized flagellin (POL), both normal and anti-delta resistant colonies, grown under both agar culture conditions, responded well. Anti-mu resistant colonies were refractory to FL-POL challenge. Only normal or anti-delta resistant colonies grown in SRBC + LPS agar cultures were able to respond well to FL-Ficoll, whereas even normal SRBC-potentiated colonies responded poorly. All except SRBC-potentiated, anti-mu treated colonies were able to respond to nonspecific signals present in cultures containing FL-KLH and activated T cell help. These data suggest that addition of specific anti-Ig antibodies, and variation of agar culture conditions, can select for B cell subpopulations responsive only to certain types of antigens.     

Lipopolysaccharide-coated erythrocytes activate human neutrophils via CD14 while subsequent binding is through CD11b/CD18

Interaction of LPS with monocytes and neutrophils is known to occur via CD14 and is strongly enhanced by LPS-binding protein (LBP). Integrins as well as CD14 play a role in the interaction of erythrocytes (E) coated with LPS or whole Gram-negative bacteria with phagocytes. We reasoned that the density of LPS on a particle is an important determinant in these interactions. Therefore, E were coated with different concentrations of LPS (ELPS). The binding of these ELPS to neutrophils was evaluated by flow cytometry. Simultaneously, we measured fMLP receptor expression to evaluate neutrophil activation. ELPS only bound to neutrophils in the presence of LBP. Blocking CD14 inhibited both activation and binding, whereas blocking complement (C) receptor 3 (CR3) inhibited binding but not activation. TNF activation restored ELPS binding in CD14-blocked cells but not in cells in which CR3 was blocked. Salmonella minnesota did bind to neutrophils independent of CR3 or CD14. The addition of LBP enhanced binding twofold, and this surplus was dependent upon CD14 but not on CR3. We conclude that ELPS interact with neutrophils via CD14, initially giving rise to cell activation; subsequently, binding is solely mediated by activated CR3.     

Neutrophil C3bi receptors: formation of membrane clusters during cell triggering requires intracellular granules

Video-intensification fluorescence microscopy has been used to study the cell surface distribution of the complement receptor (CR) for C3bi (CR3) on human neutrophils. Fluorescein- or rhodamine-labeled monoclonal IgG or Fab fragments of antireceptor antibody were used as probes of receptor localization. C3bi receptors are uniformly distributed on untreated cells. Glass coverslips were coated with lipopolysaccharide (LPS) and serum was added; the serum deposits complement components, including C3bi, on the surface. When neutrophils were adherent to these coverslips, receptors were found in large clusters, and a fraction of the fluorescence remained uniform. Double-labeling studies were conducted by first labeling with anti-CR3 followed by attachment to LPS/serum-treated slides. This, in turn, was followed by labeling with the antibody conjugated to a second fluorophore. These studies revealed that the CR3 clusters were predominantly new antigenic sites exposed after attachment to the LPS/serum-treated slides. To determine the contribution of granule-associated CR3, we have studied neutrophils defective in receptor up-regulation, neutrophil cytoplasts, and a stimulator of granule release, A23187. Neutrophils from a patient with specific granule deficiency were found to be defective in granular CR3 and did not form clusters on C3-modified surfaces. The patient's neutrophils were defective in CR3 up-regulation and enzyme release as shown by fluorescence flow cytometry and gelatinase release, respectively. Cytoplasts also failed to show CR3 clusters on LPS/serum-treated coverslips. Furthermore, neutrophils treated with A23187 demonstrated numerous CR3 clusters. We suggest that formation of CR3 membrane domains during immune recognition requires the participation of intracellular granules. We speculate that these domains are formed by fusion of CR3-bearing granules at local sites of adhesion.