Three different NCA species, CGM6/CD67, NCA-95, and NCA-90, are comprised in the major 90 to 100-kDa band of granulocyte NCA detectable upon SDS-polyacrylamide gel electrophoresis.

Human granulocytes express several species of nonspecific cross-reacting antigens (NCA), glycoproteins belonging to the carcinoembryonic antigen (CEA) family. Our previous studies have shown that at least two different NCA of 95 and 90 kDa are contained in the major NCA band of 90 to 100 kDa detectable upon gel electrophoresis of immunoprecipitates obtained from the cell surfaces of granulocytes with polyclonal anti-NCA. In the present study, the 90 to 100-kDa NCA band was found to include one more species of 100 kDa. This component was reactive with an anti-CD67 antibody as well as polyclonal anti-NCA and released from the cell surface with phosphatidylinositol-specific phospholipase C, indicating that the 100-kDa NCA species is CD67. Both antibodies revealed high binding activities with a recombinant protein of CGM6, which has been identified in a leukocyte cDNA library as an NCA gene and found to encode a glycosyl-phosphatidylinositol-anchored heterotypic cell adhesion molecule. Furthermore, the apparent molecular mass of the deglycosylated CD67 (38 kDa) corresponded with that of the CGM6 protein. These results suggest that CD67 is equivalent to the NCA species CGM6.     

Molecular characterization of the surface of apoptotic neutrophils: implications for functional downregulation and recognition by phagocytes

We have used a panel of monoclonal antibodies and lectins to examine the profile of surface molecule expression on human neutrophils that have undergone spontaneous apoptosis during in vitro culture. Neutrophil apoptosis was found to be accompanied by down-regulation of the immunoglobulin superfamily members PECAM-1 (CD31), ICAM-3 (CD50), CD66acde, and CD66b and the integrin-associated proteins CD63 and urokinase plasminogen activator receptor (CD87) that may alter the potential for adhesive interactions. Cellular interactions may be further influenced by the reduction of the expression of surface carbohydrate moieties, including sialic acid. Reduced expression of FcgammaRII (CD32), complement receptor type 1 (CD35) and receptors for pro-inflammatory mediators C5a (CD88) and TNFalpha (CD120b) associated with apoptosis might limit neutrophil responsiveness to stimuli that trigger degranulation responses. Although many of the receptors we have examined are expressed at reduced levels on apoptotic neutrophils, we found that there was differential loss of certain receptors (e.g. CD16, CD15 and CD120b) and increased expression of aminopeptidase-N (CD13). Together with our previous data showing that expression of certain molecules e.g. LFA-3 (CD58) is not altered during neutrophil apoptosis, these data are suggestive of specific changes in receptor mobilisation and shedding associated with apoptosis. Although reduced expression of CD63 (azurophilic granules) and CR1 (specific granules) indicates that granule mobilisation does not accompany apoptosis, a monoclonal antibody (BOB78), that recognises a 90 kDa antigen localised in intracellular granules, defines a subpopulation of apoptotic neutrophils that exhibit nuclear degradation yet retain intact plasma membranes. BOB78 positive neutrophils were found to bind biotinylated thrombospondin, suggesting that this mAb defines surface molecular changes associated with exposure of thrombospondin binding moieties.     

Expression of an NCA cDNA in NIH/3T3 cells yields a 110K glycoprotein, which is anchored into the membrane via glycosyl-phosphatidylinositol

The NCA cDNA, which represents a gene belonging to the CEA family, was inserted into an SV40 early promoter-driven expression vector and used for transfection of mouse NIH/3T3 cells. A cell line, NIH/3T3/KNCA IG7, was selected which expressed a molecule with an apparent molecular weight of 110,000. The mode of membrane attachment of this NCA, which we already proposed to be anchored via glycosyl-phosphatidylinositol, was investigated by treatment of NIH/3T3/KNCA IG7 cells with phosphatidylinositol-specific phospholipase C from Bacillus thuringiensis. Two independent methods, flow cytometry and immunoprecipitation of [3H]-labelled surface glycoproteins, clearly demonstrated that the NCA molecule expressed by NIH/3T3/KNCA IG7 cells is indeed anchored into the membrane via glycosyl-phosphatidylinositol. Furthermore, these results support our previous biochemical data on NCA-50, by unequivocally showing that the NCA cDNA used for transfection encodes an NCA molecule related to NCA-50 and NCA-90.     

Macrophage surface glycoproteins binding to galectin-3 (Mac-2-antigen)

Galectin-3 (formerly called Mac-2 antigen) is a ∼30 kDa carbohydrate-binding protein expressed on the surface of inflammatory macrophages and several macrophage cell lines. We have purified from lysates of the murine macrophage cell line WEHI-3 glycoproteins that bind to a galectin-3 affinity column. Several of these receptors are labelled after biotinylation of intact cells showing their location at the cell surface. N-terminal aminoacid sequencing of intact galectin-3-binding glycoproteins isolated from preparative SDS-gels or of chemically derived fragments showed several homologies with known proteins and identification was confirmed by immunoprecipitation with specific antibodies. The glycoproteins were shown to be: the α-subunit(CD11b) of the CD11b/CD18 integrin(Mac-1 antigen); the lysosomal membrane glycoproteins LAMPs 1 and 2 which are known in part to be expressed at cell surfaces; the Mac-3 antigen, a mouse macrophage differentiation antigen defined by the M3/84 monoclonal antibody and related immunochemically to LAMP-2; the heavy chain of CD98, a 125 kDa heterodimeric glycoprotein identified by the 4F2/RL388 monoclonal antibodies respectively on human and mouse monocytes/macrophages and on activated T cells. Further studies showed that CD11b/CD18, CD98 and Mac-3 are major surface receptors for galectin-3 on murine peritoneal macrophages elicited by thioglycollate. Abbreviations: PBS, phosphate buffered saline; CNBR, cyanogen bromide; PMSF, phenyl methyl sulphonyl fluoride This revised version was published online in November 2006 with corrections to the Cover Date.     

Further Studies on Guinea Pig Z-1 Antigen That Is Involved in Phagocytosis of Zymosan by Macrophages: Cell Type Distribution of the Antigen and Cross-Reactivity of Anti-Z-1 with Human CR3

We have previously identified a heterodimer molecule, Z-1, on guinea pig peritoneal macrophages (Møs) by the newly prepared monoclonal antibody, anti-Z-1, and Z-1 has been assumed to be the complement receptor type three (CR3) in this species. To clarify this assumption, the cell type distribution of the antigen in guinea pig and the cross-reactivity of anti-Z-1 with other species were analyzed. It was demonstrated that Z-1 was expressed on peritoneal Møs, pulmonary Møs, peritoneal polymorphonuclear leukocytes (PMN), peripheral neutrophils, and some subpopulations of spleen cells and of bone marrow cells, but not on erythrocytes, circulating lymphocytes, and lymphocytes in both spleen and bone marrow in detectable amounts. Thus the expression of Z-1 seems to be restricted to phagocytes as is CR3 of other species. Furthermore, it was found that anti-Z-1 bound with peripheral neutrophils from human, horse and goat and HL-60 cells differentiated into monocytes. Any cross-reactivity of the antibody was not detected with neutrophils from rabbit, cow, sheep and dog and nondifferentiated HL-60 cells. Human Z-1 was indistinguishable from human CR3, since both were the heterodimer consisting of α chain of 170 kDa (pI = 6.6-7.2) noncovalently associated with β chain of 100 kDa (pI = 5.6-6.7). In addition, human CR3 in detergent-lysate of neutrophils was completely adsorbed with anti-Z-1 F(ab')2-Sepharose. These findings indicate that guinea pig Z-1 shares an antigenic determinant with human CR3. It thus seems to be possible that Z-1 may function as CR3 in guinea pigs.     

CD69 molecule in human neutrophils: its expression and role in signal-transducing mechanisms.

The CD69 glycoprotein is an early activation antigen of T and B lymphocytes and it is constitutively expressed on thymocytes and platelets. Here we report its presence on neutrophils and on bone marrow-derived myeloid precursors. Indeed, promyelocytic cells are CD69+ on the cell membrane, while in resting neutrophils this molecule is located inside the cell. However, intracellular CD69 molecules are rapidly mobilized to the cell surface upon activation by PMA or fMLP. This translocation is independent on a new protein synthesis, as it is not inhibited by cycloheximide; furthermore, CD69 molecules are likely stored in a trans-Golgi structure since their expression is not affected by brefeldin A, a drug that blocks molecular trafficking from ER to Golgi vesicles. Immunoprecipitation of CD69 molecules either from activated neutrophils or from bone marrow cells showed that this protein has the same molecular size (28-34 kDa) as observed in platelets, T and B lymphocytes, and thymocytes. This similarity is reflected also in the functional role played by this molecule: in neutrophils as well as in lymphocytes and platelets, CD69 stimulation induced Ca2+ influx through cellular membrane; furthermore, the perturbation of the CD69 antigen on PMA-activated neutrophils enhances the lysozyme release, suggesting a role of this molecule in the regulation of granule exocytosis, probably through a Ca(2+)-dependent mechanism.     

Regulation of activities of NK cells and CD4 expression in T cells by human HNP-1, -2, and -3

Human neutrophil defensin alpha (HNP) is a group of cationic peptides of diverse physiological roles. Recent studies revealed the nature of HNPs as the dominant HLA-DR binding peptides on malignant cancer cells, which may block the major histocompatibility complex for antigen presentation. Here we show that HNPs may inhibit T cells by downregulating CD4 expression, a molecule of critical importance for T cell's interaction with the target cell. HNPs also inhibited tumor-cell-lysis activities of NK cells by downregulating CD16-CD56 expression. More importantly, HNPs were markedly elevated in 14 cancer tissues out of 15 self-paired human colorectal cancers and their adjacent noncancerous tissues. The subset compositions of HNPs extracted from cancer tissues and neutrophils were identical. Immunohistochemical studies indicated that HNPs mainly distributed in the infiltrated neutrophils in the interstitium. The elevated HNPs in cancer tissues may create a microenvironment unfavorable for adaptive immune reaction, implicating the cancer evasion.     

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.     

Stable transfection of Epstein-Barr virus (EBV) nuclear antigen 2 in lymphoma cells containing the EBV P3HR1 genome induces expression of B-cell activation molecules CD21 and CD23.

A set of B-cell activation molecules, including the Epstein-Barr virus (EBV) receptor CR2 (CD21) and the B-cell activation antigen CD23 (Blast2/Fc epsilon RII), is turned on by infecting EBV-negative B-lymphoma cell lines with immortalizing strains of the viruslike B95-8 (BL/B95 cells). This up regulation may represent one of the mechanisms involved in EBV-mediated B-cell immortalization. The P3HR1 nonimmortalizing strain of the virus, which is deleted for the entire Epstein-Barr nuclear antigen 2 (EBNA2) protein open reading frame, is incapable of inducing the expression of CR2 and CD23, suggesting a crucial role for EBNA2 in the activation of these molecules. In addition, lymphoma cells containing the P3HR1 genome (BL/P3HR1 cells) do not express the viral latent membrane protein (LMP), which is regularly expressed in cells infected with immortalizing viral strains. Using electroporation, we have transfected the EBNA2 gene cloned in an episomal vector into BL/P3HR1 cells and have obtained cell clones that stably express the EBNA2 protein. In these clones, EBNA2 expression was associated with an increased amount of CR2 and CD23 steady-state RNAs. Of the three species of CD23 mRNAs described, the Fc epsilon RIIa species was preferentially expressed in these EBNA2-expressing clones. An increased cell surface expression of CR2 but not of CD23 was observed, and the soluble form of CD23 molecule (SCD23) was released. We were, however, not able to detect any expression of LMP in these cell clones. These data demonstrate that EBNA2 gene is able to complement P3HR1 virus latent functions to induce the activation of CR2 and CD23 expression, and they emphasize the role of EBNA2 protein in the modulation of cellular gene implicated in B-cell proliferation and hence in EBV-mediated B-cell immortalization. Nevertheless, EBNA2 expression in BL/P3HR1 cells is not able to restore the level of CR2 and CD23 expression observed in BL/B95 cells, suggesting that other cellular or viral proteins may also have an important role in the activation of these molecules: the viral LMP seems to be a good candidate.     

CD11b is a calcium-dependent epitope in human neutrophils.

Human neutrophils expressing complement receptor 3 (CR3) were treated with various concentrations (0.04-10 mM) of Ca2+/Mg(2+)-chelating agent EDTA and the expression of CD11b, the CR3 alpha chain antigenic epitope, was examined using monoclonal antibodies and flow cytometry. EDTA caused a dose-dependent decrease in the reactivity of two anti-CD11b monoclonal antibodies, Leu15 and IOM1. The reduced expression of CD11b in EDTA-treated cells was partly restored by the addition of Ca2+ ions whereas the addition of Mg2+ ions had no effect on CD11b level. The expression of the CR3 beta chain epitope, CD18, was markedly decreased only by 10 mM EDTA. These results suggest that the CD11b epitope may be associated with the Ca(2+)-binding domains of CR3 alpha chain and its recognition by antibodies depends on the presence of bound Ca2+.     

Phorbol ester induces transient focal concentrations of functional, newly expressed CR3 in neutrophils at sites of specific granule exocytosis

Treatment of neutrophils with phorbol myristate acetate (PMA) increases surface expression of CR3 (iC3b-receptor; CD11b/CD18). This up-regulation was examined in whole-mount preparations of adherent neutrophils by stereo high voltage immunoelectron microscopy. In the absence of PMA, immunogold-labeled CR3 was uniformly distributed in the plasma membrane. After 5 to 15-min incubations with PMA, when the highest rates of specific granule exocytosis occurred, the average density of CR3 in the membrane doubled. During this time, dense foci of CR3 were observed in addition to the uniform distribution of CR3. These dense concentrations of CR3 colocalized with secreted lactoferrin (LF), a specific granule marker, above assemblies of cytoplasmic vesicles that were morphologically similar to specific granules and contained LF. After longer incubations in PMA, LF secretion ceased, LF staining became rare, and the high density areas of CR3 were no longer present. These data demonstrate that incipient CR3 appear on the cell surface in high concentration at sites of specific granule exocytosis and then diffuse out into the plasmalemma. PMA also induced shedding of CR3 from the cell surface at the cell margins on structures which also contained LF. Shed CR3 was immunoprecipitated from incubation supernatants and shown to be of identical subunit composition to surface CR3. Although others have shown that the mobile, incipient surface CR3 do not mediate neutrophil adherence to endothelium or homotypic aggregation, the current experiments demonstrated that such CR3 do mediate iC3b-dependent adhesion. The rapid appearance and subsequent dissipation of high concentrations of CR3 on the neutrophil surface caused by specific granule fusion may be essential for neutrophil function at sites of complement deposition.     

Human T lymphocytes expressing the C3b/C4b complement receptor type one (CR1, CD35) belong to Fc gamma receptor-positive CD4-positive T cells

The phenotypic characteristics of human T lymphocytes expressing the C3b/C4b complement receptor type one (CR1, CD35) were investigated using dual-color surface immunofluorescence and cytofluorometric analysis of stained peripheral blood mononuclear cells (PBMC) from normal individuals. Two to ten percent of PBMC coexpressed CR1 and the CD5, CD2, or CD3 antigen. CR1 was detected on a subset of CD4+ T lymphocytes but not on CD8+ or on Leu-7+ lymphocytes. Costaining for CR1 and for the CD4 subpopulation markers anti-Leu-8, TQ1, OKT17, 2H4, and 4B4 indicated that CR1 on lymphocytes may be coexpressed with any of these phenotypic determinants. All CR1+ lymphocytes expressed Fc gamma receptors (Fc gamma Rs) as assessed by their ability to bind biotinylated dimeric human IgG. The expression of CR1 was increased in mixed lymphocyte reaction with kinetics similar to those of HLA-DR antigen expression. Coexpression of CR1 and Fc gamma R+ may provide a subset of CD4+ lymphocytes with an enhanced ability to bind and respond to C3-bearing complexes of IgG and antigen.     

Biochemical analysis and subcellular localization of a neutrophil-specific antigen, PMN-7, involved in the respiratory burst

The adherence of serum-opsonized yeast to neutrophils results in phagocytosis of these particulate stimuli and activation of the respiratory burst. Both events are mediated or modulated in part by the surface receptors for IgG and complement. The link between the binding of complex particulate stimuli to the cell surface, and the triggering of these neutrophil functions, is not completely understood. We have previously described an anti-human neutrophil, murine monoclonal antibody PMN7C3, which specifically inhibits the respiratory burst of neutrophils stimulated with serum-opsonized yeast. In the present study, we show that the antigen recognized by PMN7C3 (PMN7 antigen) is present on a number of neutrophil proteins, including the recently described group of related leukocyte membrane glycoproteins CR3, LFA-1, and p150,95. The PMN-7 antigen differs from other antigens associated with the C3bi receptor complex (MAC 1, MO 1, OKM1, OKM10) in that it is present only on neutrophils among peripheral blood cells. Furthermore, the binding of PMN7C3 to the neutrophil surface inhibits the activation of the respiratory burst by serum opsonized zymosan without affecting phagocytosis of these particulate stimuli. The cross-linking of cell surface PMN7 antigen by multivalent antibody is associated with the capping and internalization of antigen-antibody complexes, and appears to be necessary for the expression of maximum inhibition of opsonized zymosan-triggered respiratory burst activity. PMN7C3 also binds to a group of granule-associated proteins biochemically distinct from CR3, LFA-1, and p150,95. These granule-associated proteins containing PMN7 antigen can be mobilized to the cell surface with secretion. PMN7 antigen-bearing proteins may play a role in modulating the activation of the respiratory burst associated with phagocytosis of serum-opsonize zymosan.     

Phagocytosis Is the Main CR3-Mediated Function Affected by the Lupus-Associated Variant of CD11b in Human Myeloid Cells

The CD11b/CD18 integrin (complement receptor 3, CR3) is a surface receptor on monocytes, neutrophils, macrophages and dendritic cells that plays a crucial role in several immunological processes including leukocyte extravasation and phagocytosis. The minor allele of a non-synonymous CR3 polymorphism (rs1143679, conversation of arginine to histidine at position 77: R77H) represents one of the strongest genetic risk factor in human systemic lupus erythematosus, with heterozygosity (77R/H) being the most common disease associated genotype. Homozygosity for the 77H allele has been reported to reduce adhesion and phagocytosis in human monocytes and monocyte-derived macrophages, respectively, without affecting surface expression of CD11b. Herein we comprehensively assessed the influence of R77H on different CR3-mediated activities in monocytes, neutrophils, macrophages and dendritic cells. R77H did not alter surface expression of CD11b including its active form in any of these cell types. Using two different iC3b-coated targets we found that the uptake by heterozygous 77R/H macrophages, monocytes and neutrophils was significantly reduced compared to 77R/R cells. Allele-specific transduced immortalized macrophage cell lines demonstrated that the minor allele, 77H, was responsible for the impaired phagocytosis. R77H did not affect neutrophil adhesion, neutrophil transmigration in vivo or Toll-like receptor 7/8-mediated cytokine release by monocytes or dendritic cells with or without CR3 pre-engagement by iC3b-coated targets. Our findings demonstrate that the reduction in CR3-mediated phagocytosis associated with the 77H CD11b variant is not macrophage-restricted but demonstrable in other CR3-expressing professional phagocytic cells. The association between 77H and susceptibility to systemic lupus erythematosus most likely relates to impaired waste disposal, a key component of lupus pathogenesis.     

The lectin-like domain of complement receptor 3 protects endothelial barrier function from activated neutrophils

The adhesion of neutrophils to endothelial cells is a central event leading to diapedesis and involves the binding of the I-domain of beta(2) integrins (CD11/CD18) to endothelial ICAMs. In addition to the I-domain, the beta(2) integrin complement receptor 3 (CR3) (CD11b/CD18) contains a lectin-like domain (LLD) that can alter leukocyte functions such as chemotaxis and cytotoxicity. The present study demonstrates that, in contrast to the CR3 I-domain, Ab blockade of the CR3 LLD has no role in mediating neutrophil-induced loss of endothelial barrier function. However, activation of CR3 with the LLD agonist beta-glucan protects the barrier function of endothelial cells in the presence of activated neutrophils and reduces transendothelial migration without affecting adhesion of the neutrophils to the endothelium. The LLD site-specific mAb VIM12 obviates beta-glucan protection while activation of the LLD by VIM12 cross-linking mimics the beta-glucan response by both preserving endothelial barrier function and reducing neutrophil transendothelial migration. beta-glucan has no direct effect on endothelial cell function in the absence of activated neutrophils. These findings demonstrate that signaling through the CR3 LLD prevents neutrophil-induced loss of endothelial barrier function and reduces diapedesis. This suggests that the LLD may be a suitable target for oligosaccharide-based anti-inflammatory therapeutics.     

Preparation and Characterization of Two Human Carcinoembryonic Antigen Family Proteins of Neutrophils, CD66b and c, in Silkworm Larvae

As a step to investigate the cell adhesion mechanism and physiological roles of two CD66 antigens in human neutrophils, carcinoembryonic antigen gene family member 6 (CGM6, CD66b) and nonspecific cross-reacting antigen (NCA, CD66c), we prepared their soluble recombinant forms in silkworm larvae. Each cDNA fragment for CGM6 and NCA was ligated into the transfer vector pBK283 after modification to encode the protein lacking the membrane anchor. The resultant vectors were introduced to theBombyx morinuclear polyhedrosis virus, with which silkworm larvae were infected. Recombinant proteins secreted into the hemolymph of larvae at concentrations up to 1.3 mg/ml were purified by cation exchange followed by gel filtration or antibody affinity chromatography. The smaller apparent masses of the antigens compared with those of the native antigens appeared to be primarily due to incomplete glycosylation. Both recombinant antigens are quite similar to the corresponding native antigens in terms of the antigenic reactivity against a panel of CD66 monoclonal antibodies. In addition, the recombinant CGM6 and NCA exhibited cell binding activity against CHO cells expressing NCA and CGM6, respectively. Thus the two biologically active recombinant CD66 antigens prepared in large quantities in silkworm larvae should be useful for their functional studies, and our present system will be available for the production and purification of other carcinoembryonic antigen family members, whose biological functions are also unknown.     

IL-15 alters expression and function of the chemokine receptor CX3CR1 in human NK cells

The chemokine receptor CX3CR1 is thought to regulate inflammation in part by modulating NK cell adhesion, migration, and killing in response to its ligand CX3CL1 (fractalkine). Recent reports indicate that IL-15, which is essential for development and survival of NK cells, may negatively regulate CX3CR1 expression, however, the effects of the cytokine on human NK cell CX3CR1 expression and function have not been fully delineated. Here, we demonstrate that short term culture in IL-15 decreases surface expression of CX3CR1 on cultured CD56+ cells from human blood resulting in diminished chemotaxis and calcium flux in response to CX3CL1. Cells cultured long term in IL-15 (more than five days) completely lost surface expression as well as mRNA and protein for CX3CR1. The effect was specific since mRNA for CCR5 was increased and mRNA for CXCR4 was unchanged in these cells by IL-15. Thus, exogenous IL-15 is a negative regulator of CX3CR1 expression and function in human CD56+ NK cells. The data imply that the use of IL-15 alone to expand NK cells ex vivo for immunotherapy may produce cells impaired in their ability to traffic to sites of inflammation.     

Identification of the core protein carrying the Tn antigen in mouse brain: specific expression on syndecan-3

We isolated glycoproteins carrying the Tn antigen, which was expressed spatiotemporally in the developing mouse brain. The Tn antigen was expressed on two molecular species with a molecular weight from 200 to 350 kDa and 110 to 160 kDa, as judged on SDS-PAGE. Although the two glycoproteins showed different susceptibilities to heparitinase I and solubilities in a salt solution, after treatment with V8 protease they showed the same mobility corresponding to a molecular weight of 90 kDa on SDS-PAGE, suggesting that these two molecules shared a common core protein. Partial N-terminal sequences of the glycoproteins were determined, i.e. AQRXRNENFERPV and ALAAPXAPAMLP, which were identified as the sequences of the N-terminal and central portions of syndecan-3, respectively. Both glycoproteins were reactive to anti-mouse syndecan-3 antibody. These results suggest that one is a soluble syndecan-3 cleaved between mucin-like domain and transmembrane domain, and the other is a membrane-bound syndecan-3 lacking N-terminal glycosaminoglycan attachment sites, and that both glycoproteins have a mucin-like domain characteristic of syndecan-3, in which the Tn antigen may be expressed.     

Intracellular degradation of the complement C3b/C4b receptor in the absence of ligand

Human neutrophils (PMN) respond to various soluble stimuli by translocating intracellular complement C3b/C4b receptors (CR1) to the cell surface. Ligand-independent internalization of surface CR1 has been demonstrated previously, but the fate of total cellular CR1 during PMN stimulation has not been determined. In order to study the fate of CR1 during neutrophil activation, we have employed a unique approach for the quantitative analysis of intracellular antigens which allows simultaneous measurement of total cellular and surface membrane antigen pools. Stimulation of isolated PMN with N-formyl-Met-Leu-Phe or ionomycin resulted in a mean 7-fold increase in surface CR1 expression within 15 min. Total cellular CR1 decreased by as much as 45% within 15 min, with loss continuing for up to 1 h. Inclusion of NH4Cl during PMN stimulation inhibited the loss of total CR1 without affecting surface CR1 expression. Addition of phenylmethylsulfonyl fluoride inhibited loss of total CR1 and enhanced the stimulus-induced increases in surface CR1. These data suggest that intracellular degradation of CR1 occurs during stimulation of PMN and may involve proteolysis in an acidic intracellular compartment. Since our experiments were done with isolated PMN in the absence of serum and complement components, this degradation occurred in the absence of C3b, the ligand for CR1. To our knowledge, ligand-independent degradation of a cell surface receptor has not been previously detected.