Differential Regulation of Lipoprotein and Hepatitis C Virus Secretion by Rab1b

Secretory cells produce diverse cargoes, yet how they regulate concomitant secretory traffic remains insufficiently explored. Rab GTPases control intracellular vesicular transport. To map secretion pathways, we generated a library of lentivirus-expressed dominant-negative Rab mutants and used it in a large-scale screen to identify regulators of hepatic lipoprotein secretion. We identified several candidate pathways, including those mediated by Rab11 and Rab8. Surprisingly, inhibition of Rab1b, the major regulator of transport from the endoplasmic reticulum to the Golgi, differently affected the secretion of the very-low-density lipoprotein components ApoE and ApoB100, despite their final association on mature secreted lipoprotein particles. Since hepatitis C virus (HCV) incorporates ApoE and ApoB100 into its virus particle, we also investigated infectious HCV secretion and show that its regulation by Rab1b mirrors that of ApoB100. These observations reveal differential regulation of hepatocyte secretion by Rab1b and advance our understanding of lipoprotein assembly and lipoprotein and HCV secretion

The postbinding activity of scavenger receptor class B type I mediates initiation of hepatitis C virus infection and viral dissemination.

International audienceUNLABELLED: Scavenger receptor class B type I (SR-BI) is a high-density lipoprotein (HDL) receptor highly expressed in the liver and modulating HDL metabolism. Hepatitis C virus (HCV) is able to directly interact with SR-BI and requires this receptor to efficiently enter into hepatocytes to establish productive infection. A complex interplay between lipoproteins, SR-BI and HCV envelope glycoproteins has been reported to take place during this process. SR-BI has been demonstrated to act during binding and postbinding steps of HCV entry. Although the SR-BI determinants involved in HCV binding have been partially characterized, the postbinding function of SR-BI remains largely unknown. To uncover the mechanistic role of SR-BI in viral initiation and dissemination, we generated a novel class of anti-SR-BI monoclonal antibodies that interfere with postbinding steps during the HCV entry process without interfering with HCV particle binding to the target cell surface. Using the novel class of antibodies and cell lines expressing murine and human SR-BI, we demonstrate that the postbinding function of SR-BI is of key impact for both initiation of HCV infection and viral dissemination. Interestingly, this postbinding function of SR-BI appears to be unrelated to HDL interaction but to be directly linked to its lipid transfer function. CONCLUSION: Taken together, our results uncover a crucial role of the SR-BI postbinding function for initiation and maintenance of viral HCV infection that does not require receptor-E2/HDL interactions. The dissection of the molecular mechanisms of SR-BI-mediated HCV entry opens a novel perspective for the design of entry inhibitors interfering specifically with the proviral function of SR-BI

Receptor Complementation and Mutagenesis Reveal SR-BI as an Essential HCV Entry Factor and Functionally Imply Its Intra- and Extra-Cellular Domains

HCV entry into cells is a multi-step and slow process. It is believed that the initial capture of HCV particles by glycosaminoglycans and/or lipoprotein receptors is followed by coordinated interactions with the scavenger receptor class B type I (SR-BI), a major receptor of high-density lipoprotein (HDL), the CD81 tetraspanin, and the tight junction protein Claudin-1, ultimately leading to uptake and cellular penetration of HCV via low-pH endosomes. Several reports have indicated that HDL promotes HCV entry through interaction with SR-BI. This pathway remains largely elusive, although it was shown that HDL neither associates with HCV particles nor modulates HCV binding to SR-BI. In contrast to CD81 and Claudin-1, the importance of SR-BI has only been addressed indirectly because of lack of cells in which functional complementation assays with mutant receptors could be performed. Here we identified for the first time two cell types that supported HCVpp and HCVcc entry upon ectopic SR-BI expression. Remarkably, the undetectable expression of SR-BI in rat hepatoma cells allowed unambiguous investigation of human SR-BI functions during HCV entry. By expressing different SR-BI mutants in either cell line, our results revealed features of SR-BI intracellular domains that influence HCV infectivity without affecting receptor binding and stimulation of HCV entry induced by HDL/SR-BI interaction. Conversely, we identified positions of SR-BI ectodomain that, by altering HCV binding, inhibit entry. Finally, we characterized alternative ectodomain determinants that, by reducing SR-BI cholesterol uptake and efflux functions, abolish HDL-mediated infection-enhancement. Altogether, we demonstrate that SR-BI is an essential HCV entry factor. Moreover, our results highlight specific SR-BI determinants required during HCV entry and physiological lipid transfer functions hijacked by HCV to favor infection

Safety and efficacy of fluoxetine on functional outcome after acute stroke (AFFINITY): a randomised, double-blind, placebo-controlled trial

Background Trials of fluoxetine for recovery after stroke report conflicting results. The Assessment oF FluoxetINe In sTroke recoverY (AFFINITY) trial aimed to show if daily oral fluoxetine for 6 months after stroke improves functional outcome in an ethnically diverse population. Methods AFFINITY was a randomised, parallel-group, double-blind, placebo-controlled trial done in 43 hospital stroke units in Australia (n=29), New Zealand (four), and Vietnam (ten). Eligible patients were adults (aged ≥18 years) with a clinical diagnosis of acute stroke in the previous 2–15 days, brain imaging consistent with ischaemic or haemorrhagic stroke, and a persisting neurological deficit that produced a modified Rankin Scale (mRS) score of 1 or more. Patients were randomly assigned 1:1 via a web-based system using a minimisation algorithm to once daily, oral fluoxetine 20 mg capsules or matching placebo for 6 months. Patients, carers, investigators, and outcome assessors were masked to the treatment allocation. The primary outcome was functional status, measured by the mRS, at 6 months. The primary analysis was an ordinal logistic regression of the mRS at 6 months, adjusted for minimisation variables. Primary and safety analyses were done according to the patient's treatment allocation. The trial is registered with the Australian New Zealand Clinical Trials Registry, ACTRN12611000774921. Findings Between Jan 11, 2013, and June 30, 2019, 1280 patients were recruited in Australia (n=532), New Zealand (n=42), and Vietnam (n=706), of whom 642 were randomly assigned to fluoxetine and 638 were randomly assigned to placebo. Mean duration of trial treatment was 167 days (SD 48·1). At 6 months, mRS data were available in 624 (97%) patients in the fluoxetine group and 632 (99%) in the placebo group. The distribution of mRS categories was similar in the fluoxetine and placebo groups (adjusted common odds ratio 0·94, 95% CI 0·76–1·15; p=0·53). Compared with patients in the placebo group, patients in the fluoxetine group had more falls (20 [3%] vs seven [1%]; p=0·018), bone fractures (19 [3%] vs six [1%]; p=0·014), and epileptic seizures (ten [2%] vs two [<1%]; p=0·038) at 6 months. Interpretation Oral fluoxetine 20 mg daily for 6 months after acute stroke did not improve functional outcome and increased the risk of falls, bone fractures, and epileptic seizures. These results do not support the use of fluoxetine to improve functional outcome after stroke

Die Induktion von CD4+ CD25+ regulatorischen T-Zellen durch transmembrane Hüllproteine von Retroviren

Retrovirale Infektionen sowie retroviral bedingte Tumorentwicklungen sind häufig begleitet von schweren, meist lethal verlaufenden Immunsuppressionen. Bisher ist der Mechanismus der induzierten Immundysfunktion allerdings weitgehend ungeklärt. Aufgrund des hohen Konservierungsgrades der an dem Fusionsprozess beteiligten transmembranen Hüllproteine liegt es nahe, dass diese eine distinkte Rolle bei der induzierten Fehlfunktion des Immunsystems spielen und tatsächlich konnten erste Hinweise erbracht werden, dass die retroviralen TMProteine immunsuppressive Wirkungen in vitro haben. Anfang des letzten Jahrzehnts wurde eine neue Population an suppressiv aktiven T-Zellen identifiziert, die so genannten CD4+CD25+Foxp3+ regulatorischen T-Zellen, für die eine Beteiligung an retroviral bedingten Immundysfunktionen nachgewiesen werden konnte. Um den Mechanismus der Immunsuppression zu untersuchen, wurden unterschiedliche retrovirale Proteine hergestellt und auf ihr Potential, regulatorische T-Zellen in vitro zu induzieren, überprüft, um so Rückschlüsse auf in vivo Funktionen während einer Infektion bzw. der Tumorigenese ziehen zu können. Exemplarisch für ein Gammaretrovirus wurde eine mittels Saccharose-Gradienten separierte PERV-Präparation hergestellt, welche in der Lage war, in vitro die IL-10 Sekretion von humanen PBMCs zu stimulieren und eine Erhöhung in der CD4+CD25+FoxP3+ Population zu induzieren. Um diese Wirkungen zu spezifizieren, wurde das TM-Protein von HERV-K erstmals rekombinant in einem eukaryotischen Expressionssystem endotoxinfrei hergestellt und ebenso in vitro untersucht. Dieses zeigte im Vergleich zur Virus-Präparation höhere, dosisabhängige Tregspezifische Wirkungen, wie eine starke IL-10 Sekretion, einen Anstieg in der CD4+CD25+FoxP3+ Population und eine Induktion weiterer antiinflammatorischer Zytokine wie IL-6 und TGF-β humaner PBMCs sowie eine Inhibition der Mitogen-induzierten Proliferation muriner Lymphozyten. Die TM-Proteine verschiedener Retroviren enthalten einen hochkonservierten Bereich, für den, unabhängig von den restlichen viralen Proteinen, immunsuppressive Eigenschaften nachgewiesen werden konnten, die so genannte ISU-Domäne. Diese wurde synthetisch mittels Kopplung hergestellt und darauf überprüft, ob sie gesondert in der Lage ist, regulatorische T-Zellen zu induzieren. Ein Heteropolymer, synthetisiert aus Monomeren der ISUDomänen von HIV und MuLV, hat, analog zu den Untersuchungen der Viruspräparation und des TM-Proteins, in vitro konzentrationsabhängig die IL-10 Sekretion humaner PBMCs, eine geringe Erhöhung in der CD4+CD25+FoxP3+ Population, sowie eine Inhibition der Proliferation muriner Lymphozyten induziert. Durch den Nachweis, dass die TM-Proteine von Retroviren in vitro Tregs induzieren können, wurde ein erster Hinweis auf eine in vivo Induktion und somit ein Beitrag zum Verständnis der Immunpathogenese während einer retroviralen Infektion bzw. einer endogen retroviral bedingten Tumorentwicklung erbracht

Le « Scavenger Récepteur B1 » est un facteur multifonctionnel de l'entrée cellulaire pour le virus de l'hépatite C

L’entrée cellulaire du virus de l’Hépatite C (VHC) est un processus complexe qui met en jeu plusieurs facteurs cellulaires. L’un d’eux est un récepteur des lipoprotéines, le « Scavenger Récepteur B1 » (SR-BI). SR-BI a initialement été proposé comme récepteur viral de par son interaction avec la glycoprotéine (GP) E2 du VHC. L’importance de SR-BI pour l’entrée cellulaire du VHC n’était, jusqu’alors suggérée que par des preuves indirectes. En outre, les mécanismes par lesquels SR-BI permet l’entrée du VHC restent peu connus. Néanmoins, grâce à l’identification de cellules hépatiques présentant un très faible niveau d’expression - non détectable - de ce récepteur et devenant susceptibles à l’infection par le VHC par l’expression ectopique de SR-BI, nous avons clairement démontré que SR-BI est indispensable pour l’entrée du VHC. Afin d’étudier le rôle de SR-BI dans l’entrée cellulaire du VHC, qui présente une singulière hétérogénéité en terme de propriétés biochimiques et de composition en protéines cellulaires intégrées à la surface des particules virales, celles-ci ont été séparées par centrifugation analytique en gradient de densité. Nous avons ainsi défini trois fonctions de SR-BI permettant l’entrée de sous-populations du VHC. D’un part, une fonction d’attachement, correspondant à la capture des particules de densités intermédiaires à la surface cellulaire. Cet attachement résulte de l’interaction entre SR-BI et des composants des lipoprotéines présents à la surface des particules virales, sans mettre en jeu d’interaction avec les GP virales. D’autre part, nous avons défini une fonction d’accès, requise pour toutes les sous-populations du VHC. Cette fonction, elle aussi indépendante de l’interaction directe entre la GP E2 et SR-BI, requiert la fonction physiologique de transfert de lipides de SR-BI. En effet, le blocage de cette fonction de transfert à l’aide de molécules inhibitrices ou par insertion de mutations invalidantes de SR-BI réduit significativement l’entrée du VHC. Enfin, nous avons mis en évidence une troisième fonction, appelée fonction de stimulation, nécessitant l’interaction de la GP E2 et SR-BI, ainsi que la fonction de transfert lipidique deSR-BI et qui, par ailleurs, est régulée par des composants des lipoprotéines. Par l’analyse fonctionnelle de mutants, nous avons défini des déterminants viraux, dans la région HVR1 à l’extrémité N-terminale de la GP E2, et cellulaires, dans la partie N-terminale de SR-BI, critiques pour l’interaction entre E2 et SR-BI et, par conséquent, régulent la fonction destimulation. En conclusion, nous avons démontré que le VHC exploite SR-BI de diverses façons et via des interactions à la fois avec des composants viraux et cellulaires incorporés dans les particules du VHC et ainsi permet l’entrée de particules virales très hétérogènes.Hepatitis C virus (HCV), which is characterised by its highly heterogeneous biophysical properties, is thought to enter the cell in a slow and multistep manner involving several cell surface molecules. One of these cellular molecules is the Scavenger Receptor B1 (SR-BI), which was identified as an HCV receptor due to its interaction with the HCV glycoprotein E2.Until now, the exact usage of SR-BI by HCV and SR-BI mediated mechanism during cell entry remained unknown. In order to understand SR-BI functions during HCV cell entry, we wanted to study (1) the relevance of HCV E2 binding to SR-BI, (2) the implication of the physiological function of SR-BI itself and (3) how SR-BI mediates cell entry of heterogeneous HCV particles. Owing to the identification of two cell lines that express very low levels of endogenous SRBI, receptor complementation assays revealed, that the ectopic expression of SR-BI is indispensible for HCV entry. Accordingly, we showed for the first time, that SR-BI is an essential HCV entry factor. In order to study HCVcc populations that differ in biophysical properties and host protein composition, we separated them by density gradient analysis and assigned three different SR-BI functions to entry of particular HCV sub-populations. First, an attachment function, that leads to the initial capture of HCV particles of intermediate densities to the cell surface. This attachment function is mediated by an interaction between SR-BI and lipoprotein components on the viral particles but not by the viral glycoproteins. Second, we defined an access function, which is important for all different HCV sub-populations. This access function is also not dependent on the interaction between HCV E2 and SR-BI but involves the physiological function of the receptor. Blocking the lipid transfer function of SRBI upon either mutation or by a specific inhibitor abrogated strongly HCV entry. Finally we defined a third function of SR-BI, that we call enhancement function. This function is triggered upon E2-SR-BI interaction, is dependent on lipoprotein components and involves the lipid transfer function of SR-BI. Upon functional mutagenesis studies, we identified as critical determinants HVR1 (Hypervariable Region 1) residues in E2 and the N-terminus of SR-BI, allowing E2-SR-BI interaction and consequently the implementation of the enhancement function. In conclusion we demonstrate that SR-BI is an unparalled virus entry factor. Its usage by HCV to enter the cell is manifold and intriguingly, owing to the heterogeneous nature of HCV particles, involves different viral components exploiting different aspects of SR-BI

The Transmembrane Protein of the Human Endogenous Retrovirus - K (HERV-K) Modulates Cytokine Release and Gene Expression

Numerous copies of endogenous retroviruses are present in the genome of mammals including man. Although most of them are defective, some, e.g., the human endogenous retroviruses HERV-K, were found to be expressed under certain physiological conditions. For instance, HERV-K is expressed in germ cell tumours and melanomas as well as in the placenta. Most exogenous retroviruses including the human immunodeficiency virus HIV-1 induce severe immunodeficiencies and there is increasing evidence that the transmembrane envelope (TM) proteins of these retroviruses may be involved. We show here that HERV-K particles released from a human teratocarcinoma cell line, a recombinant TM protein and a peptide corresponding to a highly conserved so-called immunosuppressive domain in the TM protein of HERV-K inhibit the proliferation of human immune cells, induce modulation of the expression of numerous cytokines, and modulate the expression of cellular genes as detected by a microarray analysis. The changes in cytokine release and gene expression induced by the TM protein of HERV-K are similar to those found previously induced by the TM protein of HIV-1. These data suggest that the mechanism of immunosuppression may be similar for different retroviruses and that the expression of the TM protein in tumours and in the placenta may suppress immune responses and thus prevent rejection of the tumour and the embryo

Le Scavenger Récepteur B1 est un facteur multifonctionnel de l'entrée cellulaire pour le virus de l'hépatite C

L entrée cellulaire du virus de l Hépatite C (VHC) est un processus complexe qui met en jeu plusieurs facteurs cellulaires. L un d eux est un récepteur des lipoprotéines, le Scavenger Récepteur B1 (SR-BI). SR-BI a initialement été proposé comme récepteur viral de par son interaction avec la glycoprotéine (GP) E2 du VHC. L importance de SR-BI pour l entrée cellulaire du VHC n était, jusqu alors suggérée que par des preuves indirectes. En outre, les mécanismes par lesquels SR-BI permet l entrée du VHC restent peu connus. Néanmoins, grâce à l identification de cellules hépatiques présentant un très faible niveau d expression - non détectable - de ce récepteur et devenant susceptibles à l infection par le VHC par l expression ectopique de SR-BI, nous avons clairement démontré que SR-BI est indispensable pour l entrée du VHC. Afin d étudier le rôle de SR-BI dans l entrée cellulaire du VHC, qui présente une singulière hétérogénéité en terme de propriétés biochimiques et de composition en protéines cellulaires intégrées à la surface des particules virales, celles-ci ont été séparées par centrifugation analytique en gradient de densité. Nous avons ainsi défini trois fonctions de SR-BI permettant l entrée de sous-populations du VHC. D un part, une fonction d attachement, correspondant à la capture des particules de densités intermédiaires à la surface cellulaire. Cet attachement résulte de l interaction entre SR-BI et des composants des lipoprotéines présents à la surface des particules virales, sans mettre en jeu d interaction avec les GP virales. D autre part, nous avons défini une fonction d accès, requise pour toutes les sous-populations du VHC. Cette fonction, elle aussi indépendante de l interaction directe entre la GP E2 et SR-BI, requiert la fonction physiologique de transfert de lipides de SR-BI. En effet, le blocage de cette fonction de transfert à l aide de molécules inhibitrices ou par insertion de mutations invalidantes de SR-BI réduit significativement l entrée du VHC. Enfin, nous avons mis en évidence une troisième fonction, appelée fonction de stimulation, nécessitant l interaction de la GP E2 et SR-BI, ainsi que la fonction de transfert lipidique deSR-BI et qui, par ailleurs, est régulée par des composants des lipoprotéines. Par l analyse fonctionnelle de mutants, nous avons défini des déterminants viraux, dans la région HVR1 à l extrémité N-terminale de la GP E2, et cellulaires, dans la partie N-terminale de SR-BI, critiques pour l interaction entre E2 et SR-BI et, par conséquent, régulent la fonction destimulation. En conclusion, nous avons démontré que le VHC exploite SR-BI de diverses façons et via des interactions à la fois avec des composants viraux et cellulaires incorporés dans les particules du VHC et ainsi permet l entrée de particules virales très hétérogènes.Hepatitis C virus (HCV), which is characterised by its highly heterogeneous biophysical properties, is thought to enter the cell in a slow and multistep manner involving several cell surface molecules. One of these cellular molecules is the Scavenger Receptor B1 (SR-BI), which was identified as an HCV receptor due to its interaction with the HCV glycoprotein E2.Until now, the exact usage of SR-BI by HCV and SR-BI mediated mechanism during cell entry remained unknown. In order to understand SR-BI functions during HCV cell entry, we wanted to study (1) the relevance of HCV E2 binding to SR-BI, (2) the implication of the physiological function of SR-BI itself and (3) how SR-BI mediates cell entry of heterogeneous HCV particles. Owing to the identification of two cell lines that express very low levels of endogenous SRBI, receptor complementation assays revealed, that the ectopic expression of SR-BI is indispensible for HCV entry. Accordingly, we showed for the first time, that SR-BI is an essential HCV entry factor. In order to study HCVcc populations that differ in biophysical properties and host protein composition, we separated them by density gradient analysis and assigned three different SR-BI functions to entry of particular HCV sub-populations. First, an attachment function, that leads to the initial capture of HCV particles of intermediate densities to the cell surface. This attachment function is mediated by an interaction between SR-BI and lipoprotein components on the viral particles but not by the viral glycoproteins. Second, we defined an access function, which is important for all different HCV sub-populations. This access function is also not dependent on the interaction between HCV E2 and SR-BI but involves the physiological function of the receptor. Blocking the lipid transfer function of SRBI upon either mutation or by a specific inhibitor abrogated strongly HCV entry. Finally we defined a third function of SR-BI, that we call enhancement function. This function is triggered upon E2-SR-BI interaction, is dependent on lipoprotein components and involves the lipid transfer function of SR-BI. Upon functional mutagenesis studies, we identified as critical determinants HVR1 (Hypervariable Region 1) residues in E2 and the N-terminus of SR-BI, allowing E2-SR-BI interaction and consequently the implementation of the enhancement function. In conclusion we demonstrate that SR-BI is an unparalled virus entry factor. Its usage by HCV to enter the cell is manifold and intriguingly, owing to the heterogeneous nature of HCV particles, involves different viral components exploiting different aspects of SR-BI.LYON-ENS Sciences (693872304) / SudocSudocFranceF

Scavenger receptor class B type I and the hypervariable region-1 of hepatitis C virus in cell entry and neutralisation

International audienceHepatitis C virus (HCV) infection is a leading cause of chronic liver disease worldwide and represents a major public health problem. Viral attachment and entry – the first encounter of the virus with the host cell – are major targets of neutralising immune responses. Thus, a detailed understanding of the HCV entry process offers interesting opportunities for the development of novel therapeutic strategies. Different cellular or soluble host factors mediate HCV entry, and considerable progress has been made in recent years to decipher how they induce HCV attachment, internalisation and membrane fusion. Among these factors, the scavenger receptor class B type I (SR-BI/SCARB1) is essential for HCV replication in vitro, through its interaction with the HCV E1E2 surface glycoproteins and, more particularly, the HVR1 segment located in the E2 protein. SR-BI is an interesting receptor because HCV, whose replication cycle intersects with lipoprotein metabolism, seems to exploit some aspects of its physiological functions, such as cholesterol transfer from high-density lipoprotein (HDL), during cell entry. SR-BI is also involved in neutralisation attenuation and therefore could be an important target for therapeutic intervention. Recent results suggest that it should be possible to identify inhibitors of the interaction of HCV with SR-BI that do not impair its important physiological properties, as discussed in this review