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Query: UMLS:C0001511 (Adhesion)
5,955 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adhesion of parasitized red blood cells (RBCs) to vascular endothelium is thought to be a key factor in the pathology of falciparum malaria. However, quantitative analyses of the intercellular forces and of the effects of flow on adhesion have been lacking. We have characterized cytoadhesion of RBCs parasitized by the strains ITO4 (which can bind to receptors ICAM-1 or CD36) and FCR3A2 (which can bind to CD36 only) using micropipette manipulation and flow chamber techniques. Target cells were unfixed or glutaraldehyde-fixed human umbilical vein endothelial cells (HUVEC, bearing ICAM-1 only) or human amelanotic melanoma cells (C32, bearing CD36 and ICAM-1). In the static, micropipette assay, 60% to 70% of parasitized cells would adhere when tested at up to three successive sites. The percentage of cells adhering and the force required for their detachment (approximately 10(-10) N) were similar for each combination of parasite strain and adhesion target (ITO4/HUVEC, ITO4/C32, FCR3A2/C32). In the flow chamber, efficiency of initial adhesion of parasitized cells was essentially constant (at about 1%) up to a stress of 0.1 Pa, and then decreased rapidly with increasing stress. Either receptor (ICAM-1 or CD36) could immobilize flowing cells at a physiologic flow stress (0.1 Pa), but the numbers of cells adhering varied for the different combinations (ITO4/C32 greater than ITO4/HUVEC greater than FCR3A2/C32). When flow was increased in steps, adhered cells were gradually washed off but many could withstand stresses at which they would not initially adhere. The force for detachment estimated in this way was similar to the pipette value, and again, was similar for the different combinations of strains and targets. Adhesion from flow depends on the affinity between surfaces being above a critical level, and once adhesion is established, the fracture energy determines resistance to disruption of adhesion. The results show that the fracture energy is greater than the affinity (ie, that adhesion becomes stabilized after it is initially established) and that the ratio of affinity to fracture energy is different for different receptor/ligand pairs, with ICAM-1 appearing to be the more efficient immobilizing receptor. Also, static and flow-based assays of adhesion clearly differ; the affinity is less critical in the static situation, so that most parasitized cells were capable of adhering in a static assay, but fewer did so under flow. Adhesiveness varied markedly from cell to cell, both for targets and parasitized cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Rheological analysis of the adhesive interactions of red blood cells parasitized by Plasmodium falciparum. 173 18

Leukocyte-cell adhesion is a form of physical contact characterized by fast (firm) stickiness between the cells. To analyze the biology and molecular basis of this process, an adhesion-specific assay was developed: the phorbol ester-induced aggregation of human lymphocytes. This rapid and antigen-independent intercellular adhesion requires cellular metabolism, an intact cytoskeleton and extracellular divalent cations, and is mediated by preformed cell-surface proteins referred to as CAMs. Phorbol ester also induces aggregation of monocytes and granulocytes, as well as adhesion of T lymphocytes to either B cells or monocytes and of the leukocytes to vascular endothelial cells. By using the adhesion-specific assay and blocking monoclonal antibodies, several CAMs have been identified, namely the Leu-CAM family (CD11a-c/CD18) and ICAM-1 (CD54). The Leu-CAM family is composed of Leu-CAMa (CD11a/CD18), Leu-CAMb (CD11b/CD18) and Leu-CAMc (CD11c/CD18), three glycoprotein heterodimers made of a common beta-chain and distinct alpha-chains. ICAM-1 is an adhesive ligand for Leu-CAMa. Expression and use of the various CAMs is selective in different types of leukocytes. The Leu-CAMs have been purified and partially characterized. CD18, whose gene is on human chromosome 21, contains 5-6 N-linked complex-type oligosaccharides, and CD11 binds Ca++. Another adhesion pathway is mediated by CD2 and CD58. CD2, a glycoprotein selectively expressed by T cells, is a receptor for CD58, a cell-surface adhesive ligand with broad tissue distribution. Antibodies to the latter CAMs do not block the phorbol ester-induced lymphocyte aggregation. Adhesion is involved in a large variety of leukocyte functions. Anti-Leu-CAM antibodies block induction of IL-2 production and lymphocyte proliferation. Lymphocyte-mediated cytotoxicity is also inhibited. Endogenous NK and LAK cells use Leu-CAMs, ICAM-1 and CD2, and sometimes RGD receptors, to bind and kill tumor cells. Endogenous compounds such as H2O2 and LTB4 also induce Leu-CAM-dependent adhesion in monocytoid cells and granulocytes, respectively, and degranulation of the latter cells is enhanced by the adhesion process. Homologous CAMs have been identified in rabbit and mouse. In in vivo studies in the former species, anti-Leu-CAM antibodies block adhesion of leukocytes to vascular endothelium and thereby their migration into extravascular tissues. The antibodies thus inhibit granulocyte accumulation and plasma leakage in inflammatory lesions, and induce lympho- and granulocytosis, indicating that cell-adhesion contributes to the distribution of leukocytes in the body.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Leukocyte-cell adhesion: a molecular process fundamental in leukocyte physiology. 197 8

Adhesion of leukocytes to the vascular endothelium is essential for the movements of cells from the bloodstream into inflammatory sites. In the present study, dermal microvascular endothelial cells (DMEC) isolated from normal porcine skin retained the capacity to adhere 51Cr-labeled porcine peripheral blood mononuclear cells (PBMC), nylon-wool-purified T cells, and isolated monocytes. Transforming growth factor-beta 1 (TGF-beta) decreased the capacities of DMEC to support the adhesion of these cells in a dose-dependent manner. Maximal inhibition was observed with a TGF-beta dose of 0.25 ng/ml and an incubation time of 6-12 h. TGF-beta did not affect the morphology of DMEC and had no adverse effect on the viability of the treated cells. The blocking effects of TGF-beta on PBMC adhesion to DMEC was neutralized by a polyclonal turkey anti-TGF-beta antiserum but not by control turkey serum. Although pretreatment of PBMC with TGF-beta decreased the capacity of these cells to adhere to normal DMEC monolayers, kinetic studies demonstrated that these effects required between 4 and 8 h incubation time. In addition, preincubation of DMEC with TGF-beta completely blocked their response to the stimulating effects of TNF-alpha, IL-1-beta, or both cytokines. Furthermore, TGF-beta also abrogated the enhanced adhesiveness of DMEC pretreated with TNF-alpha and IL-1-beta. These findings suggest that TGF-beta may play an important role in the down-regulation of inflammatory responses by decreasing vascular endothelial adhesiveness for mononuclear cells and monocytes.
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PMID:Transforming growth factor-beta regulates the adhesive interactions between mononuclear cells and microvascular endothelium. 207 32

Cerebral involvement in Plasmodium falciparum malaria is associated with sequestration of infected red blood cells and occlusion of cerebral vessels. Adhesion of infected erythrocytes along the vascular endothelium as well as binding of uninfected erythrocytes to cells infected with late-stage asexual parasites (rosetting) may be important in erythrocyte sequestration. We report that the recently discovered rosetting phenomenon shares characteristics with other human cell-cell interactions (heparin sensitivity, temperature independence, Ca2+/Mg2+ and pH dependence). Mono- and polyclonal antibodies specific for PfHRP1, a histidine-rich protein present in the membrane of P. falciparum-infected erythrocytes, disrupt rosettes but do not affect attachment of infected erythrocytes to endothelial cells. The inhibitory anti-PfHRP1 antibodies reacted with rosetting parasites in indirect immunofluorescence and with P. falciparum polypeptides of Mr 28,000 and Mr 90,000 in immunoprecipitation and immunoblotting, respectively. No inhibitory effects on erythrocyte rosetting were obtained with antibodies to related histidine-rich or other antigens of P. lophurae or P. falciparum. Whether the epitope that mediates rosetting, and is recognized by the anti-PfHRP1 antibodies, is located on PfHRP1 or on a crossreactive antigen remains to be established. The results suggest that endothelial cytoadherence and erythrocyte rosetting involve different molecular mechanisms.
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PMID:Antibodies to a histidine-rich protein (PfHRP1) disrupt spontaneously formed Plasmodium falciparum erythrocyte rosettes. 210 39

Cell-cell adhesion is controlled by many molecules found on the cell surface. In addition to the constituents of well-defined junctional structures, there are the molecules that are thought to play a role in the initial interactions of cells and that appear at precise times during development. These include the cadherins and cell adhesion molecules (CAMs). Representatives of these families of adhesion molecules have been isolated from most of the major tissues. The notable exception is the vascular endothelium. Here we report the identification of a cell surface molecule designated "endoCAM" (endothelial Cell Adhesion Molecule), which may function as an endothelial cell-cell adhesion molecule. EndoCAM is a 130-kD glycoprotein expressed on the surface of endothelial cells both in culture and in situ. It is localized to the borders of contiguous endothelial cells. It is also present on platelets and white blood cells. Antibodies against endoCAM prevent the initial formation of endothelial cell-cell contacts. Despite similarities in size and intercellular location, endoCAM does not appear to be a member of the cadherin family of adhesion receptors. The serologic and protease susceptibility characteristics of endoCAM are different from those of the known cadherins, including an endogenous endothelial cadherin. Although the precise biologic function of endoCAM has not been determined, it appears to be one of the molecules responsible for regulating endothelial cell-cell adhesion processes and may be involved in platelet and white blood cell interactions with the endothelium.
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PMID:EndoCAM: a novel endothelial cell-cell adhesion molecule. 218 47

Adhesion of lymphocytes to vascular endothelium is the first event in the passage of lymphocytes into a chronic inflammatory reaction. To investigate molecular mechanisms of T-EC adhesion, monoclonal antibodies (Mab) against T cell surface antigens have been tested for inhibition of binding. Baseline and phorbol ester-stimulated adhesion were strongly inhibited by either Mab 60.3 (reactive with the beta-chain of the LFA-1, OKM1, and p150,95 molecules) or by Mab TS 1/22 (specific for the alpha-chain of LFA-1). Although the increased binding of phorbol ester-stimulated lymphocytes was inhibited by anti-LFA-1 antibody, there was no increased expression of LFA-1 on phorbol ester-stimulated T cells, as determined by FACS analysis. Maximal inhibition of unstimulated and phorbol ester-stimulated T-EC adhesion was seen at Mab concentrations of 1 microgram/ml. In contrast, LPS- and IL 1-enhanced T-EC adhesion were only weakly inhibited by these antibodies. Mab 60.3 and TS 1/22 did not stain either unstimulated EC or LPS- or IL 1-stimulated EC, as measured by FACS analysis; moreover, preincubation of EC alone with these antibodies did not lead to inhibition of T-EC binding. Adhesion was not affected by Mab against the sheep erythrocyte receptor (LFA-2), a nonpolymorphic HLA class 1 framework antigen, or against LFA-3, the alpha-chain of OKM1, or the alpha-chain of p150,95. These results suggest that the mechanism of binding of lymphocytes to unstimulated endothelium differs from that to stimulated endothelium. LFA-1 appears to be an important adhesion-related molecule for binding to unstimulated endothelium. However, the increased lymphocyte adhesion to IL 1- or LPS-stimulated EC observed in these experiments appears to be relatively independent of LFA-1. The increased adhesion to stimulated EC could be due either to an increase in the avidity or the density of the EC receptor molecules ordinarily involved in unstimulated T-EC binding or to the formation of alternative receptors on the stimulated EC that are not present on unstimulated cells.
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PMID:T lymphocyte adhesion to endothelial cells: mechanisms demonstrated by anti-LFA-1 monoclonal antibodies. 242 77

Understanding the mechanisms involved in maintaining the integrity of the vascular endothelium is fundamental to studies on atherosclerosis, thrombosis, inflammation and tumor invasion. One of the essential aspects is the relationship between the endothelial cell (EC) layer and the underlying components of the basement membrane (BM). The importance of the biological role of the individual components of the BM in the promotion of EC adhesion is investigated. In this study suspensions of bovine corneal ECs (BCECs; 5 x 10(4)/ml) were used to investigate the adhesion of EC to collagen type IV and a mixture of fragments of the tetrameric molecule (IV-F, consisting of 75, 120 and 140 kD fragments), as well as collagen types I and III, coated at a 10-micrograms/ml concentration onto glass coverslips in vitro. Adhesion was quantified after 2 h of interaction by direct counting in the light microscope following fixation of the adherent cells. Collagens type IV and IV-F markedly promoted BCEC adhesion both in the presence or absence of 10 or 50% fetal calf serum, indicating that the integrity of the tetrameric molecule is not required for EC adhesion to collagen type IV, but can be replaced by high molecular weight fragments. Collagens type I and III increased EC adhesion in the absence of serum, although not in the presence of serum. Indirect evidence for a possible role of fibronectin in EC adhesion to type-IV collagen is given by the ability of the tetrapeptide (Arg-Gly-Asp-Ser (10 micrograms) to temporarily block (15-30 min) the adhesion-promoting effect of type-IV collagen. The nature of the adhesion sequences on the fragments of type-IV collagen remains to be elucidated.
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PMID:Interaction between endothelial cells and basement membrane components. In vitro studies on endothelial cell adhesion to collagen types I, III, IV and high molecular weight fragments of IV. 253 76

Adhesion to the vascular endothelium precedes or is a necessary prelude to leukocyte migration into the underlying tissue. Constitutive lymphocyte trafficking through lymphoid organs is controlled by tissue-specific interactions between molecules expressed on the surface of the lymphocyte (homing receptors) and ligands (vascular addressins) expressed on endothelial cells (HEV) within lymphoid tissues. Preliminary evidence suggests that lymphocytes may employ related but distinct interactions in their entry into some chronic sites of inflammation. Other leukocytes, such as neutrophils and monocytes, express molecules related or identical to lymphocyte homing receptors, and these molecules are exquisitely regulated by chemotactic factors and appear to be involved in the homing of these cells to inflamed tissues. In addition, inflammation in vivo induces increased endothelial cell adhesiveness for leukocytes that undoubtedly plays a key role in regulating leukocyte extravasation. Tissue- and inflammation-specific leukocyte/endothelial cell adhesion molecules constitute attractive targets for suppression or manipulation of the early stages of tissue inflammation.
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PMID:Inflammation-induced endothelial cell adhesion to lymphocytes, neutrophils, and monocytes. Role of homing receptors and other adhesion molecules. 268 62

Adhesion of human monocytes and granulocytes to vascular endothelium plays an important role in migration of these cells to inflammatory sites in tissues. A family of three human leukocyte heterodimeric surface molecules named Mo1, LFA-1, and p150,95 (LeuM5) has been shown to mediate leukocyte adhesion to confluent monolayers of human umbilical vein endothelial cells (HUVE). The relative contribution of each of the three molecules in leukocyte endothelial adhesion was studied using a variety of stimuli. Purified human granulocytes and monocytes were radiolabelled and incubated with HUVE for 45 minutes in a 37 degrees C humidified 5% CO2 incubator in the presence or absence of subunit-specific monoclonal antibodies (MAbs). Adhesion was assessed by quantitation of endothelial cell-associated radioactivity and confirmed by microscopic evaluation. MAbs directed against the alpha subunit of LFA-1 as well as to the beta subunit common to all three antigens significantly inhibited unstimulated monocyte adhesion to HUVE. Small but significant inhibiton was also observed using MAbs directed against Mo1a and p150. Phorbol myristate acetate (PMA)-induced grranulocyte adhesion to HUVE was significantly inhibited by anti-Mo1a and anti-beta, but not by anti-LFA-1a or anti-p150. When HUVE were prestimulated by recombinant IL-1, a different pattern of antigen utilization by granulocytes was observed. MAbs directed against each of the three alpha subunits as well as the common beta subunit all inhibited granulocyte adhesion to HUVE. Furthermore the effect of the three anti-alpha subunit MAbs on granulocyte-HUVE adhesion was additive. These studies show that relative contribution of Mo1, LFA-1, and p150,95 to leukocyte endothelial adhesion varies depending on the cell type and the stimulus used. These studies also reveal a novel role for p150,95 in promoting monocyte and granulocyte adhesion to HUVE.
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PMID:Relative contribution of the leukocyte molecules Mo1, LFA-1, and p150,95 (LeuM5) in adhesion of granulocytes and monocytes to vascular endothelium is tissue- and stimulus-specific. 305 60

Adhesion of lymphocytes to vascular endothelium is thought to be of importance in regulating the passage of lymphocytes from the circulation to areas of inflammation. Evidence suggests the presence of site-specific lymphocyte receptor molecules on the endothelial cell surface which can be modulated by soluble immune factors. The factors responsible for maintaining lymphocyte infiltration at tissue sites are unknown. We have examined the adherence of human peripheral blood T lymphocytes to human fibroblast monolayers in vitro and the role of interferon-gamma in enhancing adherence. Treatment of fibroblasts with interferon-gamma resulted in an increase in the number of adherent T cells in a dose- and time-dependent manner. Enhanced adhesion was noted as early as 4 hr after interferon stimulation (291 +/- 7 T cells/field vs 51 +/- 10 without IFN stimulation) and binding was further increased by lengthening the exposure time of fibroblasts to interferon up to 72 hr (475 +/- 86 T cells/field). Kinetic and inhibition experiments using monoclonal antibody to HLA-DR demonstrated that adhesion of T lymphocytes to interferon-stimulated fibroblasts proceeds by a mechanism independent of DR induction. In addition, adherence was not histocompatibility antigen-restricted, as adherence to autologous and allogeneic fibroblast monolayers was not significantly different. Nonadherent T cells, collected at the end of adhesion assays, were deficient in their capacity to bind to a second interferon-treated monolayer, suggesting the depletion of a subpopulation of T cells responsible for adhesion. Alterations of fibroblasts in vivo by immune cell-derived cytokines may be an important mechanism for the localization of lymphocytes at sites of connective tissue inflammation.
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PMID:Lymphocyte-fibroblast adhesion induced by interferon-gamma. 313 Oct 21

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