Alpha-L-fucose: a potentially critical molecule in pathologic processes including neoplasia

Alpha-L-fucose is a 6-carbon deoxyhexose that is commonly incorporated into human glycoproteins and glycolipids. It is found at the terminal or preterminal positions of many cell-surface oligosaccharide ligands that mediate cell-recognition and adhesion-signaling pathways. These include such normal events as early embryologic development and blood group recognition and pathologic processes including inflammation, infectious disease recognition, and neoplastic progression. Fucosylated oligosaccharide ligands mediate cell-cell adhesion through binding to cell-surface selectins (calcium-dependent binding proteins) and calcium-dependent interactions with other cell-surface carbohydrate counterligands. A number of fucose-containing "natural ligands" are common to inflammatory and malignant cell processes. We review evidence that alpha-L-fucose is critically important for cell-cell and cell-matrix adhesion in a variety of normal and pathologic processes, particularly neoplasia. Current results suggest that alpha-L-fucose provides the essential structure that enables carbohydrate ligands to bind to selectins and to carbohydrate counterligands and thereby alter cellular homeostasis.     

Selectins and their counter receptors: a bitter sweet attraction

Selectins are adhesion receptors expressed by leucocytes, platelets, and endothelial cells. They mediate the initial binding of leucocytes to vascular endothelium in the post-capillary venules. This is an essential first step in leucocyte migration into tissue. The selectin family of adhesion receptors consists of three C-type lectins (E, P, and L selectin). Their ligands (counter structures) are sialylated and fucosylated carbohydrate molecules which, in most cases, decorate mucin-like glycoprotein membrane receptors. Studies using blocking monoclonal antibodies have shown that inhibition of selectin function can ameliorate a range of inflammatory processes, offering the possibility that antagonists of selectin function may be useful in the treatment of inflammatory lung diseases such as asthma.     

L-selectin binds to P-selectin glycoprotein ligand-1 on leukocytes: interactions between the lectin, epidermal growth factor, and consensus repeat domains of the selectins determine ligand binding specificity

The selectins mediate cellular interactions by binding carbohydrate determinants present on a limited number of glycoprotein ligands. L-selectin binds multiple ligands expressed on endothelial cells, while P-selectin interacts exclusively with P-selectin glycoprotein ligand-1 (PSGL-1) on leukocytes. In this study, L-selectin was shown to bind leukocytes through the P-selectin ligand, PSGL-1, although at lower levels than P-selectin. L-selectin binding to PSGL-1 is specific since it was blocked by Abs to L-selectin or PSGL-1, required appropriate glycosylation of PSGL-1, and was Ca2+ dependent. The contributions of the extracellular domains of the selectins to ligand binding was assessed using a panel of chimeric selectins created by exchange of domains between L-selectin and P- or E-selectin. The lectin and epidermal growth factor domains of L- and P-selectin contributed significantly to binding through similar, if not identical, regions of PSGL-1. The different chimeric selectins revealed that the lectin domain was the dominant determinant for ligand binding, while cooperative interactions between the lectin, epidermal growth factor, and short consensus repeat domains of the selectins also modified ligand binding specificity. L-selectin binding to PSGL-1 expressed by leukocytes may mediate neutrophil rolling on stationary leukocytes bound to cytokine-induced endothelial cells, which was previously reported to be a L-selectin-dependent process.     

Regulation of B cell apoptosis by Bcl-2 and Bcl-XL and its role in the development of autoimmune diseases (Review)

Leukocyte rolling is the earliest observable even in their recruitment from the circulation to inflamed tissue. This rolling is mediated largely by interaction between the selectin family of adhesion molecules and their glycosylated ligands. Although the nature of these ligands and their interaction with the selectins is not fully understood, it is accepted that expression of fucosylated sialylated glycans such as sialyl Lewis(x) (sLe(x)) is required for function. Despite findings that sLe(x) inhibits binding of leukocytes to E-selectin in vitro, and has beneficial effects in inflammatory disease models, inhibition of E-selectin-dependent leukocyte rolling in vivo has not been described. Functional overlap between the selectins has been noted and reduction of rolling by E-selectin antibodies only occurs if P-selectin is absent or blocked. We demonstrate that leukocyte rolling velocity in tumor necrosis factor alpha (TNF alpha)-stimulated mouse cremaster is increased following treatment with either sLe(x) or the sLe(x)-mimetic CGP69669A and that rolling is dramatically reduced if CGP69669A is applied in the presence of anti-P-selectin antibody. These effects are characteristic of E-selectin antagonism. In contrast, surgically stimulated (L- or P-selectin-dependent) rolling is unaffected by either sLe(x) or CGP69669A. Our data demonstrate that CGP69669A is an effective and selective antagonist of E-selectin in vivo.     

Glycosylation-dependent cell adhesion molecule 1 (GlyCAM 1) mucin is expressed by lactating mammary gland epithelial cells and is present in milk

Glycosylation-dependent cell adhesion molecule 1 (GlyCAM 1) is a mucinlike endothelial glycoprotein that acts as an adhesive ligand for L selectin by presenting one or more O-linked carbohydrates to the lectin domain of this leukocyte cell surface selectin. The GlyCAM 1 glycoprotein has been previously shown to be expressed specifically by the endothelial cells of peripheral and mesenteric lymph nodes and in an unknown site in lung. Here we report that this protein is also expressed during lactation by mammary epithelial cells. Northern blot analysis has shown that the mRNA for GlyCAM 1 appears to be induced during pregnancy in a manner similar to that previously described for hormonally induced milk proteins. In situ hybridization analysis reveals that the site of GlyCAM 1 synthesis in the mammary gland is in the epithelial cells that produce these same milk proteins. Immunohistochemistry of mammary glands using antisera directed against GlyCAM 1 peptides demonstrates that these epithelial cells contain GlyCAM 1 protein, and that this protein is also found lumenally in the milk of the secreting mammary gland. Analysis of murine milk shows that immunoreactive GlyCAM 1 is found in the soluble whey fraction. Finally, labeling analysis of milk GlyCAM 1 has demonstrated that this form of the glycoprotein lacks the sulfate-modified carbohydrate that has recently been shown to be required for the ligand binding activity to L selectin. The nonsulfated mammary GlyCAM 1 is unable to interact with L selectin, consistent with the hypothesis that milk GlyCAM 1 has a different function than endothelial GlyCAM 1. These data thus suggest that milk GlyCAM 1 is a hormonally regulated milk protein that is part of the milk mucin complex. In addition, the finding that the mammary form of GlyCAM 1 contains different carbohydrate modifications than the endothelial form suggests that this glycoprotein may be a scaffold for carbohydrates that mediate functions in addition to cell adhesion.     

Vascular adhesion protein 1 (VAP-1) mediates lymphocyte subtype-specific, selectin-independent recognition of vascular endothelium in human lymph nodes

Interactions between lymphocyte surface receptors and their ligands on vascular endothelial cells regulate the exit of lymphocytes from the circulation. Distinct subsets of mononuclear cells bind to high endothelial venules (HEVs) in different lymphoid organs to a different extent, but the molecular mechanisms behind this selectivity have remained poorly characterized. Here we show that vascular adhesion protein-1 (VAP-1) mediates subtype-specific binding of CD8-positive T cells and natural killer cells to human endothelium. VAP-1-dependent, oligosaccharide-dependent peripheral lymph node (PLN) HEV adhesion under shear was independent of L-selectin, P-selectin glycoprotein ligand 1, and alpha4 integrins, the known lymphocyte receptors involved in the initial recognition of endothelial cells. PLN HEV adhesion was also critically dependent on peripheral lymph node vascular addressins (PNAds), but lymphocyte L-selectin was absolutely required for PNAd binding. Most lymphocytes relied on both PNAd and VAP-1 in HEV binding. The overlapping function of L-selectin ligands and VAP-1 in PLN introduces a new control point into the lymphocyte extravasation process. Finally, intravital microscopy revealed that VAP-1 is involved in initial interactions between human lymphocytes and endothelial cells in inflamed rabbit mesenterial venules in vivo. In conclusion, VAP-1 is a novel contact-initiating ligand that discriminates between different subpopulations of mononuclear cells and is an appealing target for selective modulation of adhesion of CD8- and CD16-positive effector cells.     

Endothelial-selectin ligands sialyl Lewis(x) and sialyl Lewis(a) are differentiation antigens immunogenic in human melanoma

BACKGROUND: Sialyl Lewis(x) (sLe(x)) and sialyl Lewis(a) (sLe(a)), the endothelial-selectin ligands involved in extravasation of neutrophils and carcinomas, have been identified in human melanoma. This study explored the following issue: If these ligands are immunogenic tumor-differentiation antigens, they would be potential targets for immunotherapy because of their putative roles in extravasation and metastasis. METHODS: Using a cell-suspension enzyme-linked immunosorbent assay (ELISA), the expression of sLe(x) and sLe(a) on the surface of normal melanocytes, melanoma cells from biopsies, and cell lines (M10-v, M24, and M101) constituting melanoma cell vaccine (MCV) were quantitated. Melanoma patients were immunized with the MCV expressing these antigens. Sera of normal individuals, sera of patients, and sera that adsorbed to sLe(x) and sLe(a) were titrated for anti-sLe antibodies by ELISA to verify the immunogenicity of the ligands. RESULTS: The normal melanocytes did not express sLe(x) and poorly expressed sLe(a). Melanoma cells from tumor biopsies and MCV lines expressed both sLe(x) and sLe(a). Sialyl Le(x) was associated with glycoprotein(s) in M10-v, and sLe(a) occurred as a glycolipid moiety in M24. MCV recipients developed high titers for immunoglobulin (Ig)M but not IgG to both ligands. IgM titers to these ligands were low in normal subjects. In some of the preimmune sera of patients, the titers were threefold above normal. Six of 13 MCV recipients developed at least a twofold increase in anti-sLe titers above preimmune level after the second or third immunization. Adsorption studies suggested that both ligands were immunogenic. CONCLUSIONS: The melanoma-associated sLe(x) and sLe(a) are immunogenic neoplasm-differentiation antigens and are therefore potential targets for passive and active specific immunotherapy in the treatment of melanoma.     

Affinity and kinetic analysis of L-selectin (CD62L) binding to glycosylation-dependent cell-adhesion molecule-1

The selectin family of cell adhesion molecules mediates the tethering and rolling of leukocytes on blood vessel endothelium. It has been postulated that the molecular basis of this highly dynamic adhesion is the low affinity and rapid kinetics of selectin interactions. However, affinity and kinetic analyses of monomeric selectins binding their natural ligands have not previously been reported. Leukocyte selectin (L-selectin, CD62L) binds preferentially to O-linked carbohydrates present on a small number of mucin-like glycoproteins, such as glycosylation-dependent cell adhesion molecule-1 (GlyCAM-1), expressed in high endothelial venules. GlyCAM-1 is a soluble secreted protein which, following binding to CD62L, stimulates beta2-integrin-mediated adhesion of lymphocytes. Using surface plasmon resonance, we show that a soluble monomeric form of CD62L binds to purified immobilized GlyCAM-1 with a dissociation constant (Kd) of 108 microM. CD62L dissociates from GlyCAM-1 with a very fast dissociation rate constant (>/=10 s-1) which agrees well with the reported dissociation rate constant of CD62L-mediated leukocyte tethers. The calculated association rate constant is >/=10(5) M-1 s-1. At concentrations just above its mean serum level (approximately 1.5 microg/ml or approximately 30 nM), GlyCAM-1 binds multivalently to immobilized CD62L. It follows that soluble GlyCAM-1 may cross-link CD62L when it binds to cells, suggesting a mechanism for signal transduction.     

The white blood cell adhesion molecule E-selectin predicts restenosis in patients with intermittent claudication undergoing percutaneous transluminal angioplasty

BACKGROUND: Experimental studies have shown that endothelial dysfunction is an early event preceding restenosis. Monocytes and neutrophils have been shown to bind to damaged endothelium via the cell adhesion molecules (CAMs). The selectins are involved in capturing the leukocytes and tethering them to the endothelium. E-selectin is a CAM that is only expressed on activated endothelial cells. Its ligands are expressed on monocytes and neutrophils and it has been found to exist in a soluble form. This soluble form may represent a marker for endothelial damage and may be a precursor of smooth muscle proliferation. METHODS AND RESULTS: Fifty-four patients who were undergoing peripheral arterial balloon angioplasty had blood sampled before angioplasty. E-selectin was measured in plasma with the use of an ELISA. At follow-up angiogram, 30% (n=14) of the patients had restenosed at 1 year. There was a significant difference in baseline E-selectin levels in patients who restenosed compared with those who did not (65.3 ng/mL [58.25 to 78.05] versus 52.3 [34.2 to 62.1], Mann-Whitney U, P<.007). Endothelial activation with subsequent adherence of white blood cells is an important step in restenosis. CONCLUSIONS: We have shown an increased level of shed E-selectin in patients destined for restenosis and suggest that this work further supports a role for white blood cell/endothelial interaction in restenosis after angioplasty.     

Distribution of blood-group-related carbohydrate antigens on oral endothelial cells

Recent studies indicate that carbohydrate structures are involved in various endothelial functions such as inflammatory processes, adhesion of metastatic cells to endothelium and endothelial differentiation. In this paper we report the endothelial expression of various blood-group-related carbohydrate structures in normal oral mucosa using 15 different monoclonal antibodies reacting with type 1, 2 or 3 carbohydrate chains. Twenty biopsies, including normal oral mucosa, from secretor individuals comprised nine blood group O, nine A, one B and one AB. Endothelial staining was compared with epithelial staining in the same biopsies. Five blood-group-related carbohydrate antigens were detected on endothelial cells. The H type 2 antigen, which is the precursor of A, B and AB antigens, has previously been believed to be a universal marker for endothelial cells. All blood group O individuals (n = 9) showed strong H antigen staining in the endothelium of most vessels. However, of blood group A, B and AB individuals (n = 11), four showed heterogenous H antigen staining. In addition, we found that six out of ten blood group A or AB individuals, who expressed A or A and B antigens on spinous squamous cells and glandular epithelium, showed either heterogenous or no staining for these structures on their endothelial cells. It is concluded that there are differences between the biosynthesis of blood-group-related carbohydrate antigens in oral endothelium and epithelium.     

T-lymphocyte interactions with endothelium and extracellular matrix

T-lymphocyte movement out of the bloodstream and into tissue is critical to the success of these cells in their role in immunosurveillance. This process involves interactions of the T-cell with endothelium as well as with extracellular matrix. Central to these interactions are a number of T-cell adhesion molecules and their endothelial and extracellular matrix ligands. The identification and functional characterization of adhesion molecules have been the subject of intensive research in recent years. We highlight here the latest developments in this rapidly expanding field as they pertain to T-cell interactions with endothelial cells and extracellular matrix components, including: (1) identification of adhesion molecule families, including the selectins, mucins, integrins, immunoglobulin superfamily members, and cadherins; (2) elucidation of the multi-step adhesion cascade that mediates the rolling, arrest, and eventual diapedesis of T-cells through the vascular endothelium into the surrounding tissue; (3) the changes in adhesion molecule expression that accompany T-cell maturation and activation, and the impact of those changes on T-cell migration; (4) the functional relevance of the extracellular matrix for T-cell function; and (5) the clinical relevance of adhesion molecules and the potential for targeting these molecules for the amelioration of immune-mediated diseases.     

Laboratory values improve predictions of hospital mortality

Migration of circulating neutrophils occurs in several steps: capture and rolling adhesion are followed by activation of beta 2-integrins and immobilisation, and then neutrophils move over and through the endothelium. However, it is not clear how the underlying mechanisms and completion of each step depend on the concentration of stimulatory cytokines such as tumour necrosis factor-alpha (TNF). We therefore perfused neutrophils over human umbilical vein endothelial cells (HUVEC) which had been cultured with varying concentration of TNF (1-1000 U/ml) for 4 h, and recorded adhesion and migration by videomicroscopy. The number of adherent neutrophils increased with increasing TNF up to 5 U/ml, but changed little at higher concentrations. Interestingly, rolling adhesion at first predominated, but an increasing proportion of adherent cells became immobilised and migrated through the HUVEC monolayer over the complete TNF range. Immobilisation was inhibited by treating neutrophils with antibody against CD18, so that the major change in adhesive behaviour at higher levels of TNF occurred because the surface of the HUVEC presented agent(s) able to activate neutrophil beta 2-integrins. It was also evident that the selectins initiating capture of flowing neutrophils varied with concentration of TNF. At 100 U/ml TNF, both E-selectin and P-selectin supported capture and rolling adhesion, and antibody blockade of both receptors was required to inhibit adhesion. At lower dose (10 U/ml TNF), stable adhesion was blocked by antibody against E-selectin, although short-lived attachments could still be seen which were inhibited by antibody against P-selectin. Expression of sclectins increased with increasing concentration of TNF, judging from surface ELISA and reduction in the velocity of rolling adherent cells. Thus the efficiency of capture, the selectins mediating capture and the proportion of captured cells immobilised and migrating all depend on the concentration of TNF to which endothelial cells are exposed. These results suggest a model in which highly localised and efficient migration of neutrophils is achieved if a concentration gradient of TNF exists around an inflammatory locus.     

Lymphocyte adhesion molecules in autoimmune rheumatic diseases: basic issues and clinical expectations

Lymphocyte adhesion molecules are of crucial importance in (auto)immune and inflammatory responses in two ways: on the one hand they mediate the interactions between lymphocytes and vascular endothelial cells during extravasation and homing, and allow local retention by aiding adhesion to extracellular matrix components, and on the other they increase T cell-antigen presenting cell contact and deliver the necessary signals for effective T-helper and T-cytotoxic cell function. Aberrations in adhesive interaction between members of the three major families of adhesion molecules, namely between selectins and their carbohydrate ligands, integrins and their ligands, and between members of the immunoglobulin superfamily, may participate in a vicious circle ending in organ damage. Findings regarding the overexpression of a number of adhesion molecules in patients with autoimmune rheumatic diseases, which is induced at the sites of inflammation and autoimmune injury, probably as a result of cell activation, exposure to cytokines or other soluble mediators, are summarized in the present review. Specific aberrations in adhesion molecule expression confined to one particular disease have not yet been described. Increased levels of soluble forms of various adhesion molecules that have been found in the serum of these patients reflect cell activation and may have physiological in vivo effects by interfering with cell-cell interactions. Although circulating adhesion molecule measurements lack specificity, longitudinal studies may establish their clinical value in the monitoring or the prognosis of patients. Modulation of adhesion mechanisms is likely to play an important role in the treatment of autoimmune rheumatic diseases in the near future. Indeed, preliminary results in patients with long-standing, refractory RA treated with a monoclonal antibody to intercellular adhesion molecule-1 are promising. However, much more has to be learned regarding the function and significance of adhesion molecules in order to successfully apply research findings to the clinical setting.     

Ectopic expression of carbohydrate antigens that determine the metastatic potential of human colorectal carcinoma

Highly malignant and metastatic tumor cells are thought to arise within primary tumors and become predominant during cancer progression. We demonstrated, by the analysis of > 500 surgical specimens, that colorectal carcinomas with increased metastatic potential were characterized by an increased expression of sialyl-Le(x) antigens expressed on mucins. The biological role of sialyl-Le(x) antigens expressed on mucins produced by colon carcinoma cells has been investigated using variant cell lines selected for their expression of this antigen. KM12-HX and KM12-LX, high and low expresser variant cells, differed in their metastatic potential in nude mice after intrasplenic injection. KM12-HX cells contain higher levels of polyA+mRNA for alpha(1-3/4) fucosyltransferase than KM12-LX cells. Sialyl-Le(x) antigenic carbohydrate chains were attached to mucins as well as glycoproteins with various M(r). KM12-HX cells adhered more strongly than KM12-LX cells to human umbilical vein endothelial cells treated with tumor necrosis factor-alpha and to mouse hepatic sinusoidal endothelial cells. We have retrospectively evaluated post-operative survival of colon carcinoma patients for their sialyl-Le(x) antigen levels in the primary tumors according to the percentage of stained cells by specific antibodies. The adjusted survival rate of the patients with high levels of sialyl-Le(x) antigen in their primary tumors was much lower due to recurrence and metastasis than that of the patients with tumors containing low levels of sialyl-Le(x) antigen. The results suggested that sialyl-Le(x) antigen has a potential to be used as a predictive marker for colorectal cancer metastasis.     

Selection of human ovarian carcinoma cells with high dissemination potential by repeated passage of the cells in vivo into nude mice, and involvement of Le(x)-determinant in the dissemination potential

Cells of the human tumor cell line RMG-1, derived from a clear-cell adenocarcinoma of the ovary, were injected intraperitoneally into nude mice, and the cells obtained from the tumor nodules in the mesenterium were found to form a larger number of, and larger-sized, tumor nodules than the original RMG-1 cells. The RMG-1-h cells, transferred into culture from the tumor nodules after a 4th in vivo passage, showed a dissemination potential as high as that of cells disseminating directly from the tissues, and exceedingly higher than that of RMG-1 cells. To assess the molecular bases of the different biological properties of RMG-1 and RMG-1-h cells, we compared the content and expression of various carbohydrate antigens in both cells. The chromosomal profile of RMG-1-h cells revealed their human origin and was identical to that of the original RMG-1 cells. In contrast to the broad histogram for the Le(x)-bearing cells among RMG-1 cells in flow cytometry, the weakly and moderately positive cells toward anti-Le(x) antibody were found to be eliminated from the histogram for the RMG-1-h cells, resulting in the enrichment of cells strongly expressing Le(x), which may account for the high dissemination potential. In addition, the adhesion of RMG-1 cells to mesothelial cells was found to be significantly inhibited by pretreatment of the cells with anti-Le(x) antibody, indicating Le(x)-mediated cell-to-cell interaction between ovarian cancer cells and mesothelial cells. By TLC-immunostaining, two Le(x)-glycolipids, III3Fuc alpha-nLc4Cer and V3Fuc alpha-nLc6Cer were detected in both RMG-1 and RMG-1-h cells, and their total concentrations were not significantly different from each other. However, the hydrophobic moieties of Le(x)-glycolipids in RMG-1-h cells were different from those in RMG-1 cells, suggesting that a difference in the structure of the hydrophobic moieties of Le(x) is partly involved in the enhanced reactivity of RMG-1-h cells toward anti-Le(x) antibody. Thus, the high dissemination potential of ovarian cancer cells was shown to be mediated by the Le(x)-determinant and the Le(x)-bearing cells are enriched by repeated in vivo passage of the cells into nude mice.     

Expression of T lymphocyte adhesion molecules: regulation during antigen-induced T cell activation and differentiation

The pattern of lymphocyte traffic and migration in vivo is a composite of constitutive recirculation and transient changes induced by interaction with antigen. Naive T lymphocytes in their basal, unstimulated state continuously recirculate throughout the entire host, poised to react to specific antigens that they are programmed to recognize. After interaction with antigen, T cell traffic changes, first with the trapping of reactive cells in antigen-containing lymphoid tissue. Subsequently, the effector cells responding to antigen, accompanied by nonspecific T cells and monocytes, traffic in large numbers to sites of antigen localization, resulting in the localized inflammatory response. Then, as the immune response wanes, memory T cells develop, many of which exhibit still different routes of recirculation. The traffic and tissue localization of leukocytes is regulated by a series of cell surface adhesion molecules that recognize specific ligands on endothelial cells and in the extracellular matrix. Modulation of the expression of these adhesion molecules results in the changes in T cell traffic that are characteristic of each stage of T cell differentiation. Thus, during T cell activation and differentiation, the down-regulation of adhesion receptors specific for lymphoid tissue endothelium and up-regulation of integrins facilitate the targeting of effector cells to sites of inflammation. Subsequent changes in adhesion receptors regulate the traffic of the antigen-specific memory cells. T cell adhesion molecule expression is therefore regulated as a function of the stage of activation and differentiation and, in addition, is influenced by cytokines and the local lymphoid microenvironment.     

Human anaphylatoxin C4a is a potent agonist of the guinea pig but not the human C3a receptor

A critical element of lutropin bioactivity in vivo is its rapid removal from the blood by a receptor, located in hepatic endothelial cells, that recognizes the terminal sulfated carbohydrate structure SO4-4-GalNAcbeta1,4GlcNAcbeta1,2Manalpha (S4GGnM). We have previously shown that the macrophage mannose (Man)-receptor cDNA directs the synthesis of a protein that binds oligosaccharides with either terminal S4GGnM or terminal Man, at independent sites. We now show that the cysteine-rich (Cys-Rich) domain at the N terminus of the Man/S4GGnM receptor accounts for binding of oligosaccharides with terminal GalNAc-4-SO4, whereas calcium-dependent carbohydrate recognition domains (CRDs) account for binding of ligands containing terminal Man. The Cys-Rich domain is thus a previously unrecognized carbohydrate binding motif. Cys-Rich domains have been described on the three other members of the endocytic C-type lectin family of receptors. The structural relationship of these receptors to the Man/S4GGnM receptor raises the possibility that their Cys-Rich domains also bind carbohydrate moieties and contribute to their function.     

Endothelial selectins and vascular cell adhesion molecule-1 promote hematopoietic progenitor homing to bone marrow

The adhesive mechanisms allowing hematopoietic progenitor cells (HPC) homing to the bone marrow (BM) after BM transplantation are poorly understood. We investigated the role of endothelial selectins and vascular cell adhesion molecule-1 (VCAM-1) in this process. Lethally irradiated recipient mice deficient in both P-and E-selectins (P/E-/-), reconstituted with minimal numbers (相似文献   

CD8+ memory T cells (CD44high, Ly-6C+) are more sensitive than naive cells to (CD44low, Ly-6C-) to TCR/CD8 signaling in response to antigen

Memory CD8+ T cells from mice previously primed with alloantigen (alloAg) can respond in vitro to IL-2 and purified class I alloAg presented on microspheres, while no response can be detected using cells from naive mice. Similar results have been obtained using cells from OT-1 mice expressing a transgenic TCR that is specific for OVA(257-264) (SIINFEKL) peptide bound to H-2Kb. A population of resting memory cells (defined on the basis of low forward scatter and CD44high, Ly-6C+, CD25-, CD69-surface phenotype) that is present in the OT-1 mice exhibits a substantially higher sensitivity to Ag-stimulation than do naive cells (CD44low, Ly-6C-) expressing the same TCR. CD44high cells respond vigorously to H-2Kb immobilized on microspheres and pulsed with peptide, while CD44low cells respond weakly and only at high class I density and peptide concentration. The Ag-presenting surface only has ligands for TCR and CD8 (class I and peptide), thus ruling out the possibility that differences are due to ligand binding by other adhesion or costimulatory receptors that are expressed at high levels on the memory cells. Experiments using anti-TCR mAb as the stimulus and coimmobilized non-Ag class I as a ligand for CD8 suggest that the difference between naive and memory cells may be at the level of stimulation through the TCR. Thus, in addition to expressing increased levels of adhesion receptors that may enhance responses to Ag on APCs, memory CD8+ T cells appear to be intrinsically more sensitive than naive cells to stimulation through the TCR/CD8 complex.