about
Identification of human CD93 as the phagocytic C1q receptor (C1qRp) by expression cloningNo evidence for dualism in function and receptors: PD-L2/B7-DC is an inhibitory regulator of human T cell activationTumor-associated macrophages express lymphatic endothelial growth factors and are related to peritumoral lymphangiogenesisGeneration and biological activities of oxidized phospholipidsCharacterization of CDw92 as a member of the choline transporter-like protein family regulated specifically on dendritic cellsB7-H1 (programmed death-1 ligand) on dendritic cells is involved in the induction and maintenance of T cell anergy.Molecular characterization of human 4Ig-B7-H3, a member of the B7 family with four Ig-like domains.A reversible gene trap collection empowers haploid genetics in human cells.Human rhinoviruses induce IL-35-producing Treg via induction of B7-H1 (CD274) and sialoadhesin (CD169) on DC.Cross-priming of cytotoxic T cells promoted by apoptosis-inducing tumor cell reactive antibodies?Proteome signatures of inflammatory activated primary human peripheral blood mononuclear cells.The soluble cytoplasmic tail of CD45 (ct-CD45) in human plasma contributes to keep T cells in a quiescent state.Anti-endotoxic activity and structural basis for human MD-2·TLR4 antagonism of tetraacylated lipid A mimetics based on βGlcN(1↔1)αGlcN scaffold.Establishment and characterization of a primary and a metastatic melanoma cell line from Grey horses.Engagement of distinct epitopes on CD43 induces different co-stimulatory pathways in human T cells.Cytoplasmic proteome and secretome profiles of differently stimulated human dendritic cells.Identification of the scavenger receptors SREC-I, Cla-1 (SR-BI), and SR-AI as cellular receptors for Tamm-Horsfall protein.Towards a standardized human proteome database: quantitative proteome profiling of living cells.Monomorphic molecules function as additional recognition structures on haptenated target cells for HLA-A1-restricted, hapten-specific CTL.Human major group rhinoviruses downmodulate the accessory function of monocytes by inducing IL-10.Expression and regulation of Schlafen (SLFN) family members in primary human monocytes, monocyte-derived dendritic cells and T cells.Expression of LA45 reactive beta 2-microglobulin free HLA class I alpha-chains on activated T-cells is regulated by internalization, constitutive and protein kinase C inducible release.Development of αGlcN(1↔1)αMan-based lipid A mimetics as a novel class of potent Toll-like receptor 4 agonists.Identification of bone morphogenetic protein 7 (BMP7) as an instructive factor for human epidermal Langerhans cell differentiationThe capacity of the TNF family members 4-1BBL, OX40L, CD70, GITRL, CD30L and LIGHT to costimulate human T cellsNeutrophil granulocyte-committed cells can be driven to acquire dendritic cell characteristics.Calcium ionophore: a single reagent for the differentiation of primary human acute myelogenous leukaemia cells towards dendritic cells.MHC class II antigen signaling induces homotypic and heterotypic cluster formation of human mature monocyte derived dendritic cells in the absence of cell death.The cytoplasmic tail of CD45 is released from activated phagocytes and can act as an inhibitory messenger for T cells.STAT1 is a sex-specific tumor suppressor in colitis-associated colorectal cancer.Evaluation of Prognostic Immune Signatures in Patients with Breast, Colorectal and Pancreatic Cancer Receiving Chemotherapy.Novel immune assay for quantification of plasma protective capacity against oxidized phospholipids.Knowledge-based proteome profiling: considering identified proteins to evaluate separation efficiency by 2-D PAGE.Regulation of dendritic cell differentiation and subset distribution by the zinc finger protein CTCFRhinovirus induces an anabolic reprogramming in host cell metabolism essential for viral replicationOxidized Phospholipids Negatively Regulate Dendritic Cell Maturation Induced by TLRs and CD40Reactive oxygen product formation after Fc gamma receptor-mediated neutrophil activation by monomeric mouse IgG2a: implications for the generation of first dose effects after OKT3 treatmentInduction of neutrophil homotypic adhesion via sialophorin (CD43), a surface sialoglycoprotein restricted to haemopoietic cellsMolecular and functional characteristics of dendritic cells generated from highly purified CD14+ peripheral blood monocytesGranulocyte activation via a binding site near the C-terminal region of complement receptor type 3 alpha-chain (CD11b) potentially involved in intramembrane complex formation with glycosylphosphatidylinositol-anchored Fc gamma RIIIB (CD16) molecules
P50
Q24292115-475E9AA5-63F4-4A45-B373-057106FA5118Q24613354-6310707D-FF33-4273-B6AE-3CF552F2C8DAQ24669710-A81502F7-F7CB-461F-B916-14BE790F887CQ28389691-198357E4-966F-433A-9FCB-790F7AED8092Q28610041-B2AAC536-B1F5-4132-A676-3E4CC64761E4Q30901347-206312F4-0ACB-4EB1-9A58-BC3BA239293FQ34294986-9BF4C8A9-03AB-4279-B25A-BE77C897247FQ34380363-2E50C404-1BE3-44D0-9F4B-0E6C1251B322Q34614309-548A17F4-73B2-429C-98D8-13410CC359E6Q34700652-7DF59D4D-8736-4101-8F40-FDAC9B364C0BQ36431688-89A7517A-E44B-40F5-8A78-5F09FC050EC4Q37593731-5D1769FE-1C4C-442F-9AB9-715D85B83B22Q38940685-608C4D3E-8A90-466A-BC44-C0EBDEFF63A0Q39104052-CDE19C33-2615-4559-AD59-16D8131170F9Q39620905-7454C1CF-FA92-4B12-BBF2-A4D3C1D2516DQ39863405-92E44DD7-B4F5-49DB-9360-AF58FD6B84B9Q40069493-E1906A1E-C055-4F46-BCF2-3D5BC3D6E2ABQ40547281-EDE6BEC7-046B-4C9A-87E7-E3F12C0C6884Q40785514-4C3A6ECD-F8D3-407A-AB24-5765DD0FE41EQ40851818-AC1DDE19-BE88-4654-AC41-D6B8E42A252DQ41084434-76845D79-EB0C-4F75-B749-BDA1DA728605Q41186904-0DA5E313-7454-4F19-A122-F264BE639080Q41861865-0BE9794D-F8A7-40F8-93D1-C65E93BAC965Q41910321-4DF4CD58-67CC-4B65-96FA-1E900F7CB999Q41947504-56B340C6-82FD-44DF-A505-DAB2C5CD02C5Q42971524-981329DD-47F6-4A64-B4BC-25EF754245D4Q43724334-DFF0435C-7DB8-4001-8900-63DCDC8363A9Q44523941-D305F53C-E3EA-46BA-AC5E-B3F3F6AE5A45Q46568087-8860A547-0327-4EBC-ABB4-AD59E7355D14Q50116924-B863191B-72CA-4F9B-81A1-65EF39F748B1Q51073364-A2347B44-38C3-45C3-A427-A0DB25280751Q51641936-C3A2021A-F1FE-4E1F-A3A8-4F9822116B46Q51938516-954A0FE4-54E4-4673-9F1F-8EC7D8966066Q58617311-7825CFAD-88B1-428A-B119-CE6AF62D8B76Q59357390-4CA11194-7409-4FCF-8A5B-55F4F7F6E0BCQ61900887-13D96EB8-5CF9-4447-BDD7-7B982B07DA6EQ70623849-B5F79784-0337-4B03-BA37-3D40849A4570Q71606754-7CCA2A4C-67B1-48B3-8BA7-EABDCEF95186Q71727781-2368DD80-B98D-4033-B85E-BA38711E644AQ72191722-96CAE281-72DF-4CBF-ADDC-5D09A2F7EF20
P50
description
researcher ORCID ID = 0000-0002-3304-6975
@en
wetenschapper
@nl
name
Johannes Stöckl
@ast
Johannes Stöckl
@en
Johannes Stöckl
@nl
type
label
Johannes Stöckl
@ast
Johannes Stöckl
@en
Johannes Stöckl
@nl
prefLabel
Johannes Stöckl
@ast
Johannes Stöckl
@en
Johannes Stöckl
@nl
P31
P496
0000-0002-3304-6975