The Intraviral Protein Interaction Network of Hepatitis C Virus

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Leukocyte recirculation between blood and lymphoid tissues is required for the generation and maintenance of immune responses against pathogens and is crucially controlled by the L-selectin (CD62L) leukocyte homing receptor. CD62L has adhesion and signaling functions and initiates the capture and rolling on the vascular endothelium of cells entering peripheral lymph nodes. This study reveals that CD62L is strongly downregulated on primary CD4؉ T lymphocytes upon infection with human immunodeficiency virus type 1 (HIV-1). Reduced cell surface CD62L expression was attributable to the Nef and Vpu viral proteins and not due to increased shedding via matrix metalloproteases. Both Nef and Vpu associated with and sequestered CD62L in perinuclear compartments, thereby impeding CD62L transport to the plasma membrane. In addition, Nef decreased total CD62L protein levels. Importantly, infection with wild-type, but not Nef-and Vpu-deficient, HIV-1 inhibited the capacity of primary CD4؉ T lymphocytes to adhere to immobilized fibronectin in response to CD62L ligation. Moreover, HIV-1 infection impaired the signaling pathways and costimulatory signals triggered in primary CD4؉ T cells by CD62L ligation. We propose that HIV-1 dysregulates CD62L expression to interfere with the trafficking and activation of infected T cells. Altogether, this novel HIV-1 function could contribute to virus dissemination and evasion of host immune responses. Effective immune surveillance is dependent on the constitutive recirculation of lymphocytes through anatomically dispersed secondary organs. To gain entry to the peripheral lymph nodes (PLNs), lymphocytes must bind and traverse high endothelial venules (HEVs) through a multistep process that is initiated by the interaction of the lectin-like receptor L-selectin (CD62L) on the surfaces of lymphocytes with glycoproteins expressed by HEVs (e.g., CD34 and GlyCAM-1) (1). CD62L knockout mouse models demonstrated that CD62L plays an essential role in leukocyte homing to lymphoid tissues and sites of inflammation (2), as well as in the generation of T cell responses (3). Engagement of CD62L supports the capture of T lymphocytes from the bloodstream, followed by their rolling along HEVs. Upon binding its ligands, CD62L also initiates a number of events, including activation of signaling cascades, rearrangement of the actin cytoskeleton, and enhancement of integrin binding to components of the extracellular matrix expressed by HEVs, which is a prerequisite for T cell arrest and transmigration (4). In addition, CD62L cross talks with the T cell receptor (TCR), since triggering of CD62L provides a costimulatory signal for lymphocyte activation via the TCR (5) and TCR activation enhances the binding activity of CD62L (6).Upon antigen (Ag) stimulation of T cells, the ectodomain of CD62L is cleaved by activated matrix metalloproteases (MMPs) and released in a soluble form (sCD62L), thus allowing reentry into circulation of T cells with helper and effector functions (7). Shedding of CD62L has importa...

Section: Facs-fretmentioning

confidence: 96%

HIV-1 Nef and Vpu Interfere with L-Selectin (CD62L) Cell Surface Expression To Inhibit Adhesion and Signaling in Infected CD4⁺T Lymphocytes

Vassena

Giuliani

Koppensteiner

et al. 2015

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“…Recently, it has been proposed that the cellular Ewing sarcoma breakpoint region 1 (EWSR1) protein is important for regulation of the switch from translation to replication by binding to the cis-acting replication element of HCV (14). Furthermore, transport of HCV Core toward LDs by the enzyme diacylglycerol acyltransferase-1 (DGAT1) is crucial for production of newly formed virions (15, 16), and the NS2 protein, together with p7, might be a major player in coordinating assembly (11,17,18).How HCV is released from infected cells is still under debate.HCV was found to associate with constituents of very-low-density lipoproteins (VLDL), such as , and proteins of the VLDL secretory pathway, including the transcription factor hepatocyte nuclear factor 4 (HNF4) (22). Thus, it has been assumed that HCV budding, maturation, and release might intersect the VLDL secretion pathway (13), but a precise model is still lacking and a recent study suggested that HCV release is independent of the VLDL route (23).…”

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confidence: 99%

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confidence: 99%

“…Immunodetection was done with primary antibodies from rabbit directed against mCherry (BioVision) and mouse anti-E2 (AP-33), anti-Core (C7-50; Abcam), anti-NS3 (clone F3A6B2C3 against epitopes 1322 to 1662 of JFH-1 NS3), or anti-NS5A (2F6/G11; IBT) diluted 1:100 in 1% BSA-PBS for 2 h at room temperature. Afterwards, samples were prepared according to the protocol of the manufacturer (Duolink; Sigma-Aldrich) and as described previously (18). Spots of the fluorescent substrate were detected by confocal spinning-disc microscopy (Nikon Ti Eclipse microscope with an UltraView VoX system; PerkinElmer).…”

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confidence: 99%

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Hepatitis C Virus Is Released via a Noncanonical Secretory Route

Bayer

Banning

Bruss

et al. 2016

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We analyzed hepatitis C virus (HCV) morphogenesis using viral genomes encoding a mCherry-tagged E1 glycoprotein. HCV-E1-mCherry polyprotein expression, intracellular localization, and replication kinetics were comparable to those of untagged HCV, and E1-mCherry-tagged viral particles were assembled and released into cell culture supernatants. Expression and localization of structural E1 and nonstructural NS5A followed a temporospatial pattern with a succinct decrease in the number of replication complexes and the appearance of E1-mCherry punctae. Interaction of the structural proteins E1, Core, and E2 increased at E1-mCherry punctae in a time-dependent manner, indicating that E1-mCherry punctae represent assembled or assembling virions. E1-mCherry did not colocalize with Golgi markers. Furthermore, the bulk of viral glycoproteins within released particles revealed an EndoH-sensitive glycosylation pattern, indicating an absence of viral glycoprotein processing by the Golgi apparatus. In contrast, HCV-E1-mCherry trafficked with Rab9-positive compartments and inhibition of endosomes specifically suppressed HCV release. Our data suggest that assembled HCV particles are released via a noncanonical secretory route involving the endosomal compartment. IMPORTANCEThe goal of this study was to shed light on the poorly understood trafficking and release routes of hepatitis C virus (HCV). For this, we generated novel HCV genomes which resulted in the production of fluorescently labeled viral particles. We used live-cell microscopy and other imaging techniques to follow up on the temporal dynamics of virus particle formation and trafficking in HCV-expressing liver cells. While viral particles and viral structural protein were found in endosomal compartments, no overlap of Golgi structures could be observed. Furthermore, biochemical and inhibitor-based experiments support a HCV release route which is distinguishable from canonical Golgi-mediated secretion. Since viruses hijack cellular pathways to generate viral progeny, our results point toward the possible existence of a not-yet-described cellular secretion route. Hepatitis C virus (HCV) belongs to the Flavivirus genus and has a positive-strand RNA genome. This encodes a polyprotein which is posttranslationally cleaved into six nonstructural (NS) proteins, the ion channel p7 protein, and the structural proteins Core, E1, and E2 (1). The NS proteins reside at the outer leaflet of the endoplasmic reticulum (ER) membrane where NS4B and NS5A in particular induce membrane alterations resulting in the formation of the membranous web, which is the major site for HCV replication (2-5). Core is targeted to adjacent lipid droplets (LDs) (6, 7), which represent intracellular lipid deposits and are considered important for production of infectious particles (1,7,8). The E1 and E2 envelope proteins are incorporated into ER membranes with ectodomains facing the ER lumen (9, 10). Later, they are recruited to assembly sites via the NS2 complex (11,12). Upon recruitment of all requi...

“…While most previous studies have been conducted in the wellcharacterized HeLa cell model, providing a good rational for molecular and cell biological experiments, our goal was to clarify the roles of the different cellular proteins in cells relevant to HIV-1 infection, such as the CD4 ϩ T cell line SupT1 and primary CD4 ϩ T cells. Furthermore, we aimed to investigate binding of host cell factors with Nef by our established fluorescence-activated cell sorter (FACS)-Förster resonance energy transfer (FRET) assay, allowing detection of transient protein interactions in living cells (16,17). We utilized cyan fluorescent protein (CFP)-tagged variants of the adaptor protein subunits AP-1, AP-2, AP-2, and AP-3; the thioesterase ACOT8; ␤-COP; the ATPase V1H; and CD4 (all ligated into Clontech pECFP/EYFP vectors as described previously [16]).…”

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confidence: 99%

AP-2 Is the Crucial Clathrin Adaptor Protein for CD4 Downmodulation by HIV-1 Nef in Infected Primary CD4 ⁺ T Cells

Gondim

Wiltzer-Bach²,

Banning

et al. 2015

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