| scholarly article | Q13442814 |
| P50 | author | Jaap Jan Zwaginga | Q47657092 |
| P2093 | author name string | Jaap Jan Zwaginga | |
| Andy I M Hoepelman | |||
| Frank E J Coenjaerts | |||
| Pauline M Ellerbroek | |||
| Floor Wolbers | |||
| P2860 | cites work | E-selectin and intercellular adhesion molecule-1 are released by activated human endothelial cells in vitro | Q24541880 |
| L-selectin from human, but not from mouse neutrophils binds directly to E-selectin | Q24681588 | ||
| Lipopolysaccharide-coated erythrocytes activate human neutrophils via CD14 while subsequent binding is through CD11b/CD18 | Q28646105 | ||
| Culture of human endothelial cells derived from umbilical veins. Identification by morphologic and immunologic criteria | Q29616614 | ||
| Importance of E-selectin for firm leukocyte adhesion in vivo | Q30472480 | ||
| Mobility of human neutrophils in response to Cryptococcus neoformans cells, culture filtrate antigen, and individual components of the antigen. | Q33616470 | ||
| Neutrophil migration during endotoxemia. | Q33690159 | ||
| Cell adhesion molecules in the pathogenesis of and host defence against microbial infection | Q33850097 | ||
| Mechanisms for induction of L-selectin loss from T lymphocytes by a cryptococcal polysaccharide, glucuronoxylomannan. | Q33999974 | ||
| Pathogenic yeasts Cryptococcus neoformans and Candida albicans produce immunomodulatory prostaglandins | Q34007207 | ||
| Adhesion through L-selectin requires a threshold hydrodynamic shear | Q34369202 | ||
| Intravascular cryptococcal culture filtrate (CneF) and its major component, glucuronoxylomannan, are potent inhibitors of leukocyte accumulation. | Q35390183 | ||
| Effects of the two varieties of Cryptococcus neoformans cells and culture filtrate antigens on neutrophil locomotion | Q35423201 | ||
| Adherence to and damage of endothelial cells by Cryptococcus neoformans in vitro: role of the capsule | Q35449775 | ||
| Candida albicans stimulates cytokine production and leukocyte adhesion molecule expression by endothelial cells. | Q35504978 | ||
| Purified capsular polysaccharide of Cryptococcus neoformans induces interleukin-10 secretion by human monocytes | Q35507864 | ||
| Capsular polysaccharide of Cryptococcus neoformans induces proinflammatory cytokine release by human neutrophils | Q35508763 | ||
| Cryptococcus neoformans and cryptococcal glucuronoxylomannan, galactoxylomannan, and mannoprotein induce different levels of tumor necrosis factor alpha in human peripheral blood mononuclear cells | Q35534083 | ||
| Cryptococcal polysaccharides bind to CD18 on human neutrophils | Q35567072 | ||
| IL-6 and IL-8 production from cultured human endothelial cells stimulated by infection with Rickettsia conorii via a cell-associated IL-1 alpha-dependent pathway | Q35768648 | ||
| Reduction of inflammation, tissue damage, and mortality in bacterial meningitis in rabbits treated with monoclonal antibodies against adhesion-promoting receptors of leukocytes | Q36356813 | ||
| Facilitated isolation, purification, and analysis of glucuronoxylomannan of Cryptococcus neoformans | Q36958708 | ||
| Cryptococcal polysaccharides induce L-selectin shedding and tumor necrosis factor receptor loss from the surface of human neutrophils | Q37351685 | ||
| Stimulation of the adherence of neutrophils to umbilical vein endothelium by human recombinant tumor necrosis factor | Q37558444 | ||
| Structure and function of the leukocyte adhesion molecules CD11/CD18. | Q37580454 | ||
| Signal transduction pathways activated in endothelial cells following infection with Chlamydia pneumoniae. | Q37878639 | ||
| The three members of the selectin receptor family recognize a common carbohydrate epitope, the sialyl Lewis(x) oligosaccharide | Q38329123 | ||
| Infection of endothelial cells with Trypanosoma cruzi activates NF-kappaB and induces vascular adhesion molecule expression. | Q39512381 | ||
| Soluble polysaccharides of Cryptococcus neoformans | Q39644905 | ||
| Ability of bacteria associated with chronic inflammatory disease to stimulate E-selectin expression and promote neutrophil adhesion | Q39821679 | ||
| Expression of adhesion molecules on human granulocytes after stimulation with Helicobacter pylori membrane proteins: comparison with membrane proteins from other bacteria. | Q39822361 | ||
| Interleukin-6 production by human monocytes stimulated with Cryptococcus neoformans components. | Q39830210 | ||
| Production of tumor necrosis factor alpha in human leukocytes stimulated by Cryptococcus neoformans | Q39860295 | ||
| Selectins. | Q40388550 | ||
| Leukocyte-endothelial adhesion molecules | Q40392834 | ||
| Helicobacter pylori induces interleukin-8 expression in endothelial cells and the signal pathway is protein tyrosine kinase dependent | Q41076833 | ||
| Borrelia burgdorferi activates nuclear factor-kappa B and is a potent inducer of chemokine and adhesion molecule gene expression in endothelial cells and fibroblasts. | Q41118980 | ||
| Endothelial-leukocyte adhesion molecule 1 stimulates the adhesive activity of leukocyte integrin CR3 (CD11b/CD18, Mac-1, alpha m beta 2) on human neutrophils | Q41138980 | ||
| Cytokine-regulated expression of E-selectin, intercellular adhesion molecule-1 (ICAM-1), and vascular cell adhesion molecule-1 (VCAM-1) in human microvascular endothelial cells | Q41207988 | ||
| The P-selectin glycoprotein ligand functions as a common human leukocyte ligand for P- and E-selectins | Q41346155 | ||
| Enhancement of HIV type 1 infectivity in vitro by capsular polysaccharide of Cryptococcus neoformans and Haemophilus influenzae. | Q41445814 | ||
| Leucocyte endothelial cell adhesion: a study comparing human umbilical vein endothelial cells and the endothelial cell line EA-hy-926. | Q41530192 | ||
| Identification of a glycoprotein ligand for E-selectin on mouse myeloid cells | Q41564745 | ||
| Leukocyte adhesion: CD11/CD18 integrins and intercellular adhesion molecules | Q41612529 | ||
| Antibodies against human neutrophil LECAM-1 (LAM-1/Leu-8/DREG-56 antigen) and endothelial cell ELAM-1 inhibit a common CD18-independent adhesion pathway in vitro | Q41672543 | ||
| What makes Cryptococcus neoformans a pathogen? | Q41695186 | ||
| Transient adhesion of neutrophils to endothelium | Q42939605 | ||
| Prognostic factors in cryptococcal meningitis. A study in 111 cases | Q44221435 | ||
| Cytokine profiles in cerebrospinal fluid of human immunodeficiency virus-infected patients with cryptococcal meningitis: no leukocytosis despite high interleukin-8 levels. University of Zimbabwe Meningitis Group | Q45759101 | ||
| Endothelial-leukocyte adhesion molecule-1-dependent and leukocyte (CD11/CD18)-dependent mechanisms contribute to polymorphonuclear leukocyte adhesion to cytokine-activated human vascular endothelium | Q45865181 | ||
| Neutrophil and monocyte adherence to and migration across monolayers of cytokine-activated endothelial cells: the contribution of CD18, ELAM-1, and VLA-4 | Q46582301 | ||
| Listeriolysin O-dependent activation of endothelial cells during infection with Listeria monocytogenes: activation of NF-kappa B and upregulation of adhesion molecules and chemokines. | Q48233251 | ||
| Cryptococcal glucuronoxylomannan induces interleukin (IL)-8 production by human microglia but inhibits neutrophil migration toward IL-8. | Q48570393 | ||
| Cytokine-activated human endothelial monolayers support enhanced neutrophil transmigration via a mechanism involving both endothelial-leukocyte adhesion molecule-1 and intercellular adhesion molecule-1 | Q67681256 | ||
| Role of endothelial leukocyte adhesion molecule-1 and platelet-activating factor in neutrophil adherence to IL-1-prestimulated endothelial cells. Endothelial leukocyte adhesion molecule-1-mediated CD18 activation | Q67697151 | ||
| Decreased leukocyte adhesion with anti-CD18 monoclonal antibodies is mediated by receptor internalization | Q67883907 | ||
| Cryptococcal infections in patients with acquired immune deficiency syndrome | Q68887768 | ||
| Capsular polysaccharides from a parent strain and from a possible, mutant strain of Cryptococcus neoformans serotype A | Q70188107 | ||
| The course of cryptococcal capsular polysaccharide antigenemia/human cryptococcal polysaccharide elimination kinetics | Q70275337 | ||
| Shedding of the lymphocyte L-selectin adhesion molecule is inhibited by a hydroxamic acid-based protease inhibitor. Identification with an L-selectin-alkaline phosphatase reporter | Q71091595 | ||
| Preparation and properties of fluorescent polysaccharides | Q71784048 | ||
| The inhibitory effect of polymyxin B on endotoxin-induced endogenous pyrogen production | Q72959835 | ||
| Cryptococcal glucuronoxylomannan delays translocation of leukocytes across the blood-brain barrier in an animal model of acute bacterial meningitis | Q73153700 | ||
| Cryptococcus neoformans and its cell wall components induce similar cytokine profiles in human peripheral blood mononuclear cells despite differences in structure | Q73212457 | ||
| Inhibition of human endothelial cell chemokine production by the opportunistic fungal pathogen Cryptococcus neoformans | Q74027223 | ||
| Leishmania lipophosphoglycan reduces monocyte transendothelial migration: modulation of cell adhesion molecules, intercellular junctional proteins, and chemoattractants | Q74195957 | ||
| Potent inhibition of neutrophil migration by cryptococcal mannoprotein-4-induced desensitization | Q74532647 | ||
| Does the capsule component of the Cryptococcus neoformans glucuronoxylomannan impair transendothelial migration of leukocytes in patients with cryptococcal meningitis? | Q77524631 | ||
| P433 | issue | 9 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | endothelium | Q111140 |
| P304 | page(s) | 4762-4771 | |
| P577 | publication date | 2002-09-01 | |
| P1433 | published in | Infection and Immunity | Q6029193 |
| P1476 | title | Cryptococcal glucuronoxylomannan inhibits adhesion of neutrophils to stimulated endothelium in vitro by affecting both neutrophils and endothelial cells | |
| P478 | volume | 70 |
| Q92235446 | Basic principles of the virulence of Cryptococcus |
| Q37982326 | Capsular Material of Cryptococcus neoformans: Virulence and Much More. |
| Q40086468 | Capsule Enlargement in Cryptococcus neoformans Is Dependent on Mitochondrial Activity. |
| Q52580472 | Cryptococcal pathogenic mechanisms: a dangerous trip from the environment to the brain. |
| Q53818381 | Cryptococcus neoformans can form titan-like cells in vitro in response to multiple signals. |
| Q26798926 | Dancing cheek to cheek: Cryptococcus neoformans and phagocytes |
| Q44555623 | Facile syntheses of the hexasaccharide repeating unit of the exopolysaccharide from Cryptococcus neoformans serovar A. |
| Q49410181 | Masking the Pathogen: Evolutionary Strategies of Fungi and Their Bacterial Counterparts |
| Q37781066 | Mechanisms of cryptococcal virulence and persistence |
| Q35197055 | Multiple Disguises for the Same Party: The Concepts of Morphogenesis and Phenotypic Variations in Cryptococcus neoformans |
| Q47370987 | Regulated release of cryptococcal polysaccharide drives virulence and suppresses immune infiltration into the central nervous system. |
| Q45963534 | Selectin catch-bonds mechanotransduce integrin activation and neutrophil arrest on inflamed endothelium under shear flow. |
| Q37337879 | The capsule of the fungal pathogen Cryptococcus neoformans |
| Q40017271 | The extracellular adherence protein from Staphylococcus aureus inhibits neutrophil binding to endothelial cells |
| Q37672807 | The regulation of leucocyte transendothelial migration by endothelial signalling events |
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