UMLS:C0001511 - FACTA Search

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

Adhesion of neutrophil to the endothelium and subsequent transmigration has been reported to contribute to progression of focal ischemia. Hypothermia has been known to attenuate ischemic insult through various mechanisms of action. The authors evaluated the effect of hypothermia on expression of intercellular adhesion molecule-1 (ICAM-1) protein and on transmigration of neutrophil with immunohistochemical method. Transient focal ischemia model in rats was employed, and animals received 2 h of either normothermic or hypothermic ischemia. To confirm the effectiveness of hypothermia on neuroprotection, cortical infarct area was compared between the two groups. Our results demonstrated that hypothermia reduced both the number of microvessels expressing ICAM-1 and that of neutrophils migrating into ischemic tissue. Comparison of cortical infarct area showed persistent protective effect. This study indicates that reduction of ICAM-1 expression and subsequent reduction of migrating neutrophil in hypothermia can contribute to attenuation of ischemic damage.
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PMID:Intra-ischemic hypothermia attenuates intercellular adhesion molecule-1 (ICAM-1) and migration of neutrophil. 1121 Apr 24

Hemorrhagic shock (HS) and resuscitation can be seen as a global body ischemia-reperfusion (I/R) injury characterized by neutrophil infiltration and organ damage. Liver dysfunction occurs early after HS. Adhesion molecules are needed for the first steps ofneutrophil migration. Thus, the purpose of this study was to investigate the role of L-selectin in the liver after uncontrolled HS and resuscitation. Forty-eight Sprague Dawley rats were subjected to uncontrolled HS and resuscitation. Animals were divided into three groups: sham, uncontrolled HS and resuscitation, and uncontrolled HS and resuscitation with anti-L-selectin treatment. At 6 we evaluated liver injury tests, liver tissue myeloperoxidase (MPO), and liver histology. Survival was followed for 3 days and compared between groups. Statistical analysis included Fisher's exact test and one-way analysis of variance. Survival significantly increased from 30% in the control group to 60% in the treated group (p < .05). Hepatocellular and structural injury as well as neutrophil infiltration was significantly decreased in treated animals (p < .05). Thus, blockade of L-selectin resulted in decreased hepatocellular injury and increased survival in our model of uncontrolled HS. Selectins may be important therapeutic targets for blockade in the treatment of HS.
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PMID:L-selectin blockade and liver function in rats after uncontrolled hemorrhagic shock. 1129 62

Evidence shows that leukocyte recruitment into inflamed liver sinusoids does not require selectins, with one notable exception: ischemia-reperfusion (I/R). We used intravital microscopy to directly visualize the liver microcirculation during I/R and localized endotoxemia (liver superfused with lipopolysaccharide). General anti-selectin therapy (fucoidan) or anti-adhesion therapy with an antithrombin inhibitor (hirudin) was also used. Many neutrophils rolled and adhered in postsinusoidal vessels and sequestered in the sinusoids during I/R and local endotoxin superfusion. Although fucoidan blocked rolling in both forms of inflammation, leukocyte recruitment into sinusoids was only blocked in I/R. Adhesion was also inhibited in postischemic sinusoids with a second anti-adhesive agent (hirudin). Because liver I/R inevitably induces ischemia upstream in the intestine, anti-selectin therapy may prevent intestinal injury, which could prevent downstream liver inflammation. To test this hypothesis, we completely removed the intestine and rerouted blood flow from the superior mesenteric artery to the superior mesenteric vein. I/R was induced in the liver microcirculation, and many leukocytes rolled and adhered in postsinusoidal venules and adhered in sinusoids. Although fucoidan significantly reduced the rolling in postsinusoidal vessels, adhesion persisted in the sinusoids. Our data suggest that anti-adhesion therapy is effective in liver I/R in the sinusoids and postsinusoidal venules, perhaps in part due to its beneficial effect on the intestine.
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PMID:Molecular mechanisms of leukocyte recruitment in postischemic liver microcirculation. 1206 1

Neutrophil adhesion to coronary endothelium is a key event for cardiac reperfusion injury. Adhesion is proposed to be a multi-step event, consisting of selectin-mediated rolling, chemotactic activation, and subsequent integrin-mediated firm attachment. However, it is not clear whether this sequence also occurs in the coronary circulation with its unique hemodynamic properties (turbulent flow, flow reversal). We have studied neutrophil adhesion in the coronary system of isolated perfused guinea pig hearts under basal and reperfusion conditions (15 min global ischemia). Adhesion was manipulated by an anti-CD18 antibody (blocking firm adhesion) and fucoidin (reducing rolling). Neutrophil behavior during coronary passage was assessed by measurement of CD11b expression, forward scatter (FSC, indicating polarization), and sideward scatter (SSC, measure for granularity) via flow cytometry. Adhesion rose from 21 % (basal) to 35 % after ischemia. Anti-CD18 decreased adhesion to 11 % and 14 %, respectively; fucoidin altered only the postischemic increase (23 %). CD11b was unchanged by passage through the non-ischemic coronaries, but rose postischemically (139 % increase). CD18 blockade did not reduce the postischemic rise of CD11b, while fucoidin was inhibitory (24 % increase). FSC did not differ between controls and ischemic hearts in any group, while SSC decreased most in postischemic hearts after CD18 blockade. Blockade of rolling and of firm attachment both reduce neutrophil retention, while only inhibition of rolling reduces intracoronary activation. Thus, rolling seems to be mandatory for endothelial-leukocyte communication in the coronary system.
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PMID:Selectin-mediated rolling of neutrophils is essential for their activation and retention in the reperfused coronary system. 1220 Jun 35

The aim of this study was to quantify the expression of E-selectin, intercellular cell adhesion molecule-1 (ICAM-1), and vascular cell adhesion molecule-1 (VCAM-1) in human umbilical vascular endothelial cells (HUVECs) exposed to anoxia/reoxygenation (A/R) in the presence or absence of an inflammatory context (0.1 IU/ml tumor necrosis factor-alpha [TNF-alpha]) and to investigate the effects of two different NADPH inhibitors, apocynin and diphenyleneiodonium (DPI), on the expression of the endothelial cell adhesion molecules. Confluent HUVECs were exposed to anoxia for 3 hours (100% N2), followed by a reoxygenation period of 4 hours. TNF-alpha at 0.1 IU/ml was added to the medium either under normoxic conditions for 7 hours (TNF-alpha) or just before the start of anoxia (A/R + TNF-alpha). Levels of E-selectin, VCAM-1, and ICAM-1 were quantified using specific monoclonal antibodies revealed by an alkaline phosphatase-labeled goat F(ab)'2 fragment against mouse IgG antibody and the fluorescent substrate Attophos. Adhesion experiments were also performed using calcein-labeled U937 leukocytes. HUVECs submitted to A/R overexpressed E-selectin but not VCAM-1 or ICAM-1, whereas TNF-alpha at 0.1 IU/ ml increased the expression of all three adhesion molecules. In endothelial cells subjected to A/R in the presence of TNF-alpha, a synergistic increase of E-selectin expression and a synergistic adhesion of U937 cells was noted. The NADPH oxidase inhibitors apocynin and DPI both decreased significantly the U937 adhesion and the E-selectin overexpression on HUVECs submitted to A/R, TNF-alpha, or A/R + TNF-alpha. These results suggest that E-selectin expression is implicated in the leukocyte adhesion to HUVECs caused by A/R in the presence or absence of an inflammatory context. NADPH oxidase appears to participate in the E-selectin overexpression on HUVECs subjected either to A/R and/or TNF-alpha, suggesting a major role of this enzyme in the ischemia/reperfusion syndrome.
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PMID:Effect of NADPH oxidase inhibition on E-selectin expression induced by concomitant anoxia/reoxygenation and TNF-alpha. 1257 57

In contrast to the heart or brain, the kidney can completely recover from an ischemic or toxic insult that results in cell death. During recovery from ischemia/reperfusion injury, surviving tubular epithelial cells dedifferentiate and proliferate, eventually replacing the irreversibly injured tubular epithelial cells and restoring tubular integrity. Repair of the kidney parallels kidney organogenesis in the high rate of DNA synthesis and apoptosis and in patterns of gene expression. As has been shown by proliferating cell nuclear antigen and 5-bromo 2'-deoxyuridine labeling studies and, in unpublished studies, by counting mitotic spindles identified by labeling with antitubulin antibody, the proliferative response is rapid and extensive, involving many of the remaining cells of the proximal tubule. This extensive proliferative capacity is interpreted to reflect the intrinsic ability of the surviving epithelial cell to adapt to the loss of adjacent cells by dedifferentiating and proliferating. Adhesion molecules likely play important roles in the regulation of renal epithelial cell migration, proliferation, and differentiation, as do cytokines and chemokines. Better understanding of all of the characteristics resulting in dedifferentiation and proliferation of the proximal tubule epithelial cell and cell-cell and cell-matrix interactions important for this repair function will lead to novel approaches to therapies designed to facilitate the processes of recovery in humans.
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PMID:Dedifferentiation and proliferation of surviving epithelial cells in acute renal failure. 1276 Dec 40

Adhesion molecules contribute to ischemia-reperfusion injury by increasing the endothelial adhesion and extravasation of leukocytes. Scientific evidence suggests that presurgical treatment with dehydroepiandrosterone may protect the microvasculature against this damage, but the exact mechanism is not known. The purpose of this study was to investigate the effects of presurgical dehydroepiandrosterone treatment on microcirculatory hemodynamic parameters and the expression of adhesion molecules in a rat cremaster muscle flap model. Twenty male rats were randomly assigned to three experimental groups. In group I (n = 5), the muscle flaps did not receive presurgical treatment. In group II (n = 6), propylene glycol (30 mg/kg), the vehicle for dehydroepiandrosterone, was injected intravenously before ischemia was induced. In group III (n = 9), dehydroepiandrosterone (30 mg/kg) was injected intravenously before ischemia was induced. All flaps were subjected to 6 hours of ischemia and 90 minutes of reperfusion. Microcirculatory variables (functional capillary density, red blood cell velocity in the main flap arteriole, and numbers of rolling, sticking, and transmigrating leukocytes), blood levels of three adhesion molecules (L-selectin, Mac-1 integrin, and CD44), and the numbers of leukocytes expressing those molecules were analyzed. Analysis of the microcirculatory parameters revealed that dehydroepiandrosterone treatment before ischemia had significant preservative effects on the red blood cell velocity and functional capillary density 30 and 90 minutes after reperfusion, compared with the control and vehicle-treated groups. Leukocyte-endothelial cell interactions were also affected by dehydroepiandrosterone treatment, as reflected by significant decreases in the numbers of sticking and transmigrating leukocytes 30 and 90 minutes after reperfusion. In dehydroepiandrosterone-treated animals, leukocytes exhibited lower levels of expression of adhesion molecules after the onset of ischemia, compared with the control groups. In this study, intravenous dehydroepiandrosterone administration reduced the activation of leukocytes and improved red blood cell velocity and capillary perfusion in the muscle flap microcirculation during ischemia-reperfusion injury. This protective effect was most likely the result of delayed expression of Mac-1 integrin, L-selectin, and CD44 molecules on leukocytes.
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PMID:Dehydroepiandrosterone protects the microcirculation of muscle flaps from ischemia-reperfusion injury by reducing the expression of adhesion molecules. 1279 71

Sickle cell anemia is a disease caused by production of abnormal hemoglobin, which binds with other abnormal hemoglobin molecules within the red blood cell to cause rigid deformation of the cell. This deformation impairs the ability of the cell to pass through small vascular channels. Sludging and congestion of vascular beds may result, followed by tissue ischemia and infarction. Liver injury can be caused by the adherence of deformed or hemolyzed erythrocytes to hepatic vascular endothelium. Adhesion of large numbers of hemolyzed red blood cells to hepatic macrophages, or occlusion of hepatic sinusoids by fragmented red cells, can also result in injury of the liver. Chronic intrahepatic cholestasis is an uncommon complication in patients with sickle cell disease. The findings in this case suggest that therapeutic erythrocyte apheresis may benefit patients who have unusual complications of sickle cell disease, such as chronic intrahepatic cholestasis in the liver.
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PMID:Sickle cell anemia connected with chronic intrahepatic cholestasis: a case report. 1465 71

Alterations in the composition of the glycocalyx of venular endothelium in postcapillary venules (rat mesentery) were explored in models of inflammation and ischemia-reperfusion injury. Lectins were covalently linked to fluorescently labeled microspheres (0.1-microm diameter) or directly labeled with FITC. Adhesion of lectins specific for glucose and galactose residues of glycosaminoglycans (GAGs) and other components of the endothelial glycocalyx decreased dramatically after superfusion of the mesentery with the chemoattractant N-formylmethionyl-leucyl-phenylalanine and during reperfusion after 60-min ischemia. These reductions were significantly attenuated by superfusion with pertussis toxin (PTX), suggesting that shedding of glycocalyx was mediated by G proteins. Adhesion of microspheres linked with antibody for syndecan-1, a major proteoglycan to which GAGs are bound, revealed increased labeling as GAGs were lost and permitted greater numbers of spheres to adhere to the protein core, which was not shed. Induction of ischemia by occluding proximal microvessels for 60 min resulted in a 40% increase in galactosaminoglycans and a 15% increase in glucosaminoglycans on the endothelium, which was not inhibited by PTX. Reperfusion of vessels led to a rapid loss of GAGs that was inhibited by pretreatment with PTX, with 40% of galactosaminoglycans and 25% of glucosaminoglycans accumulated being removed by G protein-mediated shedding and the remainder freely convected away by fluid shear. We conclude that the composition of the glycocalyx results from a balance of the rate of biosynthesis of GAGs by the endothelial cell and their shedding, which may be mediated by intracellular and/or membrane-bound proteases or lyases released or activated by G protein signaling.
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PMID:Inflammation- and ischemia-induced shedding of venular glycocalyx. 1470 29

Cardiac myocyte loss, regardless of insult, can trigger compensatory myocardial remodeling leading to heart failure. Identifying mediators of cardiac myocyte survival may advance clinical efforts toward myocardial preservation. Angiopoietin-1 limits ischemia-induced cardiac injury. This benefit is ascribed to angiogenesis because the receptor, tie2, is largely endothelial-specific. We propose that direct, non-tie2 interactions of angiopoietin-1 on cardiac myocytes contribute to this cardioprotection. We found that mouse C2C12 skeletal myocytes lack tie2, yet dose-dependently adhered to angiopoietin-1 and angiopoietin-2 similarly to laminin, fibronectin, vitronectin, and more than to collagen-I, -III, and -IV. Adhesion was divalent cation-mediated (Mn2+, Ca2+, not Mg2+), blocked with EDTA/EGTA, RGD-based peptides, and select integrin subunit antibodies. Similar findings were obtained with human skeletal myocytes (HSMs) and freshly isolated rat neonatal cardiac myocytes (NCMs). Furthermore, angiopoietin-1 conferred significant survival advantage exceeding that of most cell matrices, which was not fully explained by differences in cell adhesion. Angiopoietin-1 promoted survival of serum-starved C2C12, HSM, and NCM (MTT, trypan blue) and prevented taxol-induced apoptosis (caspase-3). Immobilized and soluble angiopoietin-1 phosphorylated Akt(S473) and MAPK(p42/44), (not FAK(Y397)) in C2C12 more than in endothelial cells and more than did angiopoietin-2 or cell matrices. EDTA, RGD-based peptides, and some integrin antibodies blocked these responses. Angiopoietin-1 activated HSM and NCM Akt(S473) and MAPK(p42/44) survival pathways. We propose that this novel function contributes to developmental and cardioprotective actions of angiopoietin-1 presently attributed to vascular effects alone. Angiopoietin-1 may prove therapeutically valuable in cardiac remodeling by supporting myocyte viability and preserving pump function. The full text of this article is available online at http://circres.ahajournals.org.
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PMID:Angiopoietin-1 promotes cardiac and skeletal myocyte survival through integrins. 1569 86

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