about
Impaired adenosine-mediated angiogenesis in preeclampsia: potential implications for fetal programmingAdenosine-activated mast cells induce IgE synthesis by B lymphocytes: an A2B-mediated process involving Th2 cytokines IL-4 and IL-13 with implications for asthmaRole of TGF-β signaling in generation of CD39+CD73+ myeloid cells in tumorsAdenosine receptors in regulation of dendritic cell differentiation and functionAttenuation of chronic pulmonary inflammation in A2B adenosine receptor knockout mice.Role of adenosine A2B receptor signaling in contribution of cardiac mesenchymal stem-like cells to myocardial scar formation.Effect of A2B adenosine receptor gene ablation on proinflammatory adenosine signaling in mast cellsAnti-remodeling and anti-fibrotic effects of the neuregulin-1β glial growth factor 2 in a large animal model of heart failureAdenosinergic regulation of the expansion and immunosuppressive activity of CD11b+Gr1+ cells.Role of A2B adenosine receptors in regulation of paracrine functions of stem cell antigen 1-positive cardiac stromal cells.Expression of adenosine receptors in monocytes from patients with bronchial asthma.Wnt10b Gain-of-Function Improves Cardiac Repair by Arteriole Formation and Attenuation of Fibrosis.Host A(2B) adenosine receptors promote carcinoma growthRole of JunB in adenosine A2B receptor-mediated vascular endothelial growth factor production.Adenosine receptors in wound healing, fibrosis and angiogenesis.Extracellular nucleotide regulation and signaling in cardiac fibrosis.Prostaglandin E-prostanoid-3 receptor activation of cyclic AMP response element-mediated gene transcription.Pharmacological characterization of adenosine A2B receptors: studies in human mast cells co-expressing A2A and A2B adenosine receptor subtypes.Prostanoid receptor with a novel pharmacological profile in human erythroleukemia cells.Adenosine A2B receptors on cardiac stem cell antigen (Sca)-1-positive stromal cells play a protective role in myocardial infarction.Effect of A2B adenosine receptor gene ablation on adenosine-dependent regulation of proinflammatory cytokines.Inhibition of human mast cell activation with the novel selective adenosine A(2B) receptor antagonist 3-isobutyl-8-pyrrolidinoxanthine (IPDX)(2).A(2B) adenosine receptors increase cytokine release by bronchial smooth muscle cells.Increased Number of Circulating CD8/CD26 T Cells in the Blood of Duchenne Muscular Dystrophy Patients Is Associated with Augmented Binding of Adenosine Deaminase and Higher Muscular Strength Scores.ERBB signaling attenuates proinflammatory activation of nonclassical monocytes.Cross-talk between G(s)- and G(q)-coupled pathways in regulation of interleukin-4 by A(2B) adenosine receptors in human mast cells.[Effect of calcium ions on the interaction of troponin C with rabbit skeletal muscle troponin I and troponin T immobilized on polyvinyl chloride]Role of cyclic AMP in adenosine inhibition of intracellular calcium rise in human platelets. Comparison of adenosine effects on thrombin- and epinephrine-induced platelet stimulation[Mechanism of action of adenosine on intracellular calcium and platelet aggregation]Adenosine inhibits the rise in intracellular calcium and platelet aggregation produced by thrombin: evidence that both effects are coupled to adenylate cyclaseCalmodulin and troponin C as targets for drug actionMetofenazate as a more selective calmodulin inhibitor than trifluoperazine[Phorbol ester blocks the coupling of GTP-binding protein with receptor-controlled calcium channels][Effect of frenolone on the contractile function of papillary muscles][Effect of neurotropic drugs on calmodulin and troponin C-dependent processes][The use of pharmacological preparations for the study of calmodulin interaction with enzymes]Characterization of adenosine receptors in human erythroleukemia cells and platelets: further evidence for heterogeneity of adenosine A2 receptor subtypes[Effect of calmodulin inhibitor trifluoperazine on calcium activation of phosphorylase in glycosomes of rabbit skeletal muscles]Adenosine receptor activation induces vascular endothelial growth factor in human retinal endothelial cellsCyclic AMP and protein kinase A stimulate Cdc42: role of A(2) adenosine receptors in human mast cells
P50
Q27024603-DC1BE114-4EF7-4807-9386-29AE7B28BB03Q28266003-2CCD4B43-7397-4F3A-9A16-87562901F8ACQ28393883-F35A7892-EB80-4A1E-A358-FFB6AE8A9902Q28586835-CF34F720-39AA-4F8E-9602-A712C7F1675BQ33868549-4A005791-C82B-4150-A8B7-A3D8BCA56877Q34123206-AA498B56-CAA8-4049-9303-313A4CFE471AQ34779773-D1AAE125-1572-4000-ADA9-F40F05FBE9C6Q35070764-77760568-2BB6-4EB3-B5F2-EC8D0DA59A9CQ35566772-8AC8EC53-0F4F-482B-95EF-9D4A4A77037CQ35996708-569E136D-93BE-45F9-815B-AB1998EF5D79Q36021197-75B87DCD-C04A-4CDA-9BA1-B02D06AFF3C6Q36144944-32D7334C-063C-4867-9D98-01ECEF72E70BQ36840284-01E5E328-C690-4B28-B0DE-1ACBB83A1FABQ37405416-CB6A6580-77C3-4E23-8BA1-7EB2BCE8AEDAQ37565195-5B57B02A-408E-443C-B726-9B3966356B86Q38739550-2446F1B1-51A3-4B34-979C-163524875486Q40965881-370222B6-F660-4A64-BDD4-9693F520F7AFQ41056524-35DB9E79-B5A6-42AC-B82D-14998ED5EBC1Q41081928-C00D07F3-EB83-486C-BA0C-A0992A94FEB4Q41976027-BCD6202D-BED4-4416-9930-F636B5D50B86Q42520869-2742B697-3366-497A-B7F0-04D6609D8B66Q43797306-20E00596-57E9-4706-A8EB-CC91C1845648Q44509573-1DB98170-2B52-45D7-9A9A-1E3272F8A20CQ49220622-30BBBCAC-3189-4934-87EC-A36AA1EA2E27Q51123571-745D5B36-6DE9-416B-916E-E79B3CE7AB51Q53622261-A62C3113-03BB-4415-A4B0-5E3E2747E664Q54360539-93C571B0-9C84-460F-B10A-5F16273B7FB3Q67492346-4BF65645-B2F3-4E57-B62F-D8EAF4173C03Q68277469-089082CD-FBE0-4094-BF4A-F5478B4685DFQ68828719-796C2B02-6969-4F2A-AF93-92A7F9E6AEDAQ69018104-C22110B6-D43F-4782-9008-CB698D53A6F6Q69018172-7B192C01-9AD5-4794-A19D-C9ACD4DF8F7DQ69360701-F8838AA9-B573-4B24-82E1-5696F80D089AQ69699842-8AC03210-2396-4FFF-BE65-EFE1B121D6E1Q69869792-9A87EDBF-C324-40B9-B1A7-188BF8E09655Q70185017-6088BDF6-9C0E-4131-B14F-48BC425C8D06Q70462241-49E718E4-98AD-4625-A5D6-A6F7956E5605Q70595260-34453494-8F10-424C-ABF5-EF99D29E612DQ73082820-402D1A0F-E019-4A2E-BB48-DD8BAC2FBC21Q73097904-ACCB4F56-F229-4112-82E6-A09762FF8FB8
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Igor Feoktistov
@ast
Igor Feoktistov
@en
Igor Feoktistov
@es
Igor Feoktistov
@nl
type
label
Igor Feoktistov
@ast
Igor Feoktistov
@en
Igor Feoktistov
@es
Igor Feoktistov
@nl
prefLabel
Igor Feoktistov
@ast
Igor Feoktistov
@en
Igor Feoktistov
@es
Igor Feoktistov
@nl
P108
P106
P21
P31
P496
0000-0001-5611-7732