Binding of human immunodeficiency virus type 1 to immature dendritic cells can occur independently of DC-SIGN and mannose binding C-type lectin receptors via a cholesterol-dependent pathway.
about
Syndecan-3 is a dendritic cell-specific attachment receptor for HIV-1DC-SIGN and CLEC-2 mediate human immunodeficiency virus type 1 capture by plateletsTrans-dominant cellular inhibition of DC-SIGN-mediated HIV-1 transmissionCD169-dependent cell-associated HIV-1 transmission: a driver of virus disseminationDendritic Cells in HIV-1 and HCV Infection: Can They Help Win the Battle?Molecular mechanisms of HIV immune evasion of the innate immune response in myeloid cellsCD169-mediated trafficking of HIV to plasma membrane invaginations in dendritic cells attenuates efficacy of anti-gp120 broadly neutralizing antibodiesDC-SIGN increases the affinity of HIV-1 envelope glycoprotein interaction with CD4.Maturation of blood-derived dendritic cells enhances human immunodeficiency virus type 1 capture and transmission.Leukocyte-specific protein 1 interacts with DC-SIGN and mediates transport of HIV to the proteasome in dendritic cells.The achilles heel of the trojan horse model of HIV-1 trans-infectionHIV and mature dendritic cells: Trojan exosomes riding the Trojan horse?PPARgamma and LXR signaling inhibit dendritic cell-mediated HIV-1 capture and trans-infectionBinding and transfer of human immunodeficiency virus by DC-SIGN+ cells in human rectal mucosa.Covert human immunodeficiency virus replication in dendritic cells and in DC-SIGN-expressing cells promotes long-term transmission to lymphocytesUterine epithelial cell regulation of DC-SIGN expression inhibits transmitted/founder HIV-1 trans infection by immature dendritic cellsAssociation of MRC-1 and IL-28B with the treatment outcome of hepatitis C: a case control studyGlycosphingolipid-functionalized nanoparticles recapitulate CD169-dependent HIV-1 uptake and trafficking in dendritic cellsSugar-binding proteins potently inhibit dendritic cell human immunodeficiency virus type 1 (HIV-1) infection and dendritic-cell-directed HIV-1 transfer.DC-specific ICAM-3-grabbing nonintegrin mediates internalization of HIV-1 into human podocytes.Variation in the biological properties of HIV-1 R5 envelopes: implications of envelope structure, transmission and pathogenesis.HIV-1 Nef enhances dendritic cell-mediated viral transmission to CD4+ T cells and promotes T-cell activation.Immature dendritic cell-derived exosomes can mediate HIV-1 trans infectionPhenotypic properties of transmitted founder HIV-1Dendritic cell-specific intercellular adhesion molecule 3-grabbing nonintegrin/CD209 is abundant on macrophages in the normal human lymph node and is not required for dendritic cell stimulation of the mixed leukocyte reaction.Dendritic-cell interactions with HIV: infection and viral dissemination.Attachment and fusion inhibitors potently prevent dendritic cell-driven HIV infectionCapture and transfer of HIV-1 particles by mature dendritic cells converges with the exosome-dissemination pathwayDendritic cells in progression and pathology of HIV infection.Interferon-inducible mechanism of dendritic cell-mediated HIV-1 dissemination is dependent on Siglec-1/CD169.Role of lipid rafts in liver health and diseaseHIV-1 capture and transmission by dendritic cells: the role of viral glycolipids and the cellular receptor Siglec-1CD4 coexpression regulates DC-SIGN-mediated transmission of human immunodeficiency virus type 1Dendritic cell-mediated trans-enhancement of human immunodeficiency virus type 1 infectivity is independent of DC-SIGNInitial events in establishing vaginal entry and infection by human immunodeficiency virus type-1.Activated CD34-derived Langerhans cells mediate transinfection with human immunodeficiency virusFunctionally distinct transmission of human immunodeficiency virus type 1 mediated by immature and mature dendritic cellsHIV-1 incorporation of host-cell-derived glycosphingolipid GM3 allows for capture by mature dendritic cells.SAMMA, a mandelic acid condensation polymer, inhibits dendritic cell-mediated HIV transmission.Dendritic cells are less susceptible to human immunodeficiency virus type 2 (HIV-2) infection than to HIV-1 infection.
P2860
Q24670055-D1DCD0E5-BA6B-49F9-8988-AFD735CCA248Q24673797-689C1EA1-6D48-438D-B623-37D3143D5583Q24801408-074762CC-ECEC-45B3-83C3-9633A9C9BDD3Q27008186-6FD53C5B-E6EF-4CFE-BBF3-82226A6B70A2Q27010312-5AA41A63-E7CF-4367-A9EC-AB6F9DEECE06Q27022978-48DA59C4-9BA2-4B2E-A94F-4F2B400BF718Q27320842-B96E1247-D5C6-4982-A1A3-F93DC156E049Q30472149-76D44B89-EAD2-463F-93B6-5FA9E3A480C3Q30479817-5EB151B7-4257-4967-BD4C-AE1FC14AD570Q33273505-A8E0D25D-F292-4C12-B66B-854F6C47498FQ33347130-7BDCEF08-0497-4AD8-BE2B-1A794DCCBE2EQ33548656-22A5B8B7-3580-49AB-9466-F81667F9B4D8Q33628817-FD2B27DC-5110-4711-9DE2-D9E1F93537CFQ33754936-F503E3A1-CAA6-48AD-A06C-270C038E270FQ33755099-D3E52E83-D591-481F-B945-899A3AA29810Q33778508-ECB34147-481B-4BA2-BE4A-871708E1FEBDQ33903850-39690232-9287-4A21-996C-16D64807FB14Q33943688-37211FCE-9DDE-477B-AD34-9C5B712DFF61Q34092638-061E45CE-6050-4B1F-AEC5-28F1B6C8B07AQ34149635-3BBB82B9-5AB4-4EA0-A1BA-B72389C81E3BQ34170655-E074ACF4-4A4F-436F-B133-EABD6B48EF38Q34222643-FAD94B13-B6B9-48DB-AF48-D57966E1A26DQ34270884-E20097A3-2CF7-4B50-8166-65C27B4FDEA0Q34336058-2AEFE3C9-4A1D-43AD-ADD2-38518F3862B6Q34390968-ED774970-D2E2-43B3-B065-7990730609F2Q34572043-189EFD50-2322-4FF5-925F-E937BDED6225Q34574462-DDF21399-4671-4B83-AEE5-841620015750Q34599188-2873F4C7-E4DC-47D5-83C9-8718D67848F5Q34657557-278708B1-57AE-4514-8671-4C62B0071315Q34671896-ED3EC232-1E96-4532-BC7E-60B4A8FC1AFFQ35012726-B9A2504C-12BA-492F-A192-4D1638216A82Q35208189-73AA2875-4602-494A-BC7D-2ADC5D71CED6Q35784676-CB0793AB-6325-471C-A86A-C26DB7FE9BD9Q35784766-677EE071-B39A-4B0D-8C83-85E9D33DCAA3Q35830147-9FCF2EEF-C3AA-4F08-A8F2-14E143E50B40Q35914392-EC6AF999-89CB-4B8F-8CBF-ACF758380032Q35947996-4AA9D860-EED1-48F9-A54B-C704537BB1F9Q35982750-3050CC40-EA95-447B-9A9D-78BA56613B4DQ36059469-9A3BF7F5-2303-4B2B-85E9-E9B365AB80F1Q36315149-FF398F03-732A-4BB7-B5F7-D4995D3597BD
P2860
Binding of human immunodeficiency virus type 1 to immature dendritic cells can occur independently of DC-SIGN and mannose binding C-type lectin receptors via a cholesterol-dependent pathway.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on December 2003
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Binding of human immunodeficie ...... cholesterol-dependent pathway.
@en
Binding of human immunodeficie ...... cholesterol-dependent pathway.
@nl
type
label
Binding of human immunodeficie ...... cholesterol-dependent pathway.
@en
Binding of human immunodeficie ...... cholesterol-dependent pathway.
@nl
prefLabel
Binding of human immunodeficie ...... cholesterol-dependent pathway.
@en
Binding of human immunodeficie ...... cholesterol-dependent pathway.
@nl
P2093
P2860
P1433
P1476
Binding of human immunodeficie ...... cholesterol-dependent pathway.
@en
P2093
Leonidas Stamatatos
Mark Rogel
Suryaram Gummuluru
P2860
P304
12865-12874
P356
10.1128/JVI.77.23.12865-12874.2003
P407
P577
2003-12-01T00:00:00Z