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2. The low-density lipoprotein receptor and apolipoprotein E associated with CCHFV particles mediate CCHFV entry into cells

Author

Ritter, Maureen, Canus, Lola, Gautam, Anupriya, Vallet, Thomas, Zhong, Li, Lalande, Alexandre, Boson, Bertrand, Gandhi, Apoorv, Bodoirat, Sergueï, Burlaud-Gaillard, Julien, Freitas, Natalia, Roingeard, Philippe, Barr, John N., Lotteau, Vincent, Legros, Vincent, Mathieu, Cyrille, Cosset, François-Loïc, and Denolly, Solène

Published
2024
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3. The low-density lipoprotein receptor and apolipoprotein E associated with CCHFV particles mediate CCHFV entry into cells

Author

Maureen Ritter, Lola Canus, Anupriya Gautam, Thomas Vallet, Li Zhong, Alexandre Lalande, Bertrand Boson, Apoorv Gandhi, Sergueï Bodoirat, Julien Burlaud-Gaillard, Natalia Freitas, Philippe Roingeard, John N. Barr, Vincent Lotteau, Vincent Legros, Cyrille Mathieu, François-Loïc Cosset, and Solène Denolly

Subjects
Science
Abstract

Abstract The Crimean-Congo hemorrhagic fever virus (CCHFV) is an emerging pathogen of the Orthonairovirus genus that can cause severe and often lethal hemorrhagic diseases in humans. CCHFV has a broad tropism and can infect a variety of species and tissues. Here, by using gene silencing, blocking antibodies or soluble receptor fragments, we identify the low-density lipoprotein receptor (LDL-R) as a CCHFV entry factor. The LDL-R facilitates binding of CCHFV particles but does not allow entry of Hazara virus (HAZV), another member of the genus. In addition, we show that apolipoprotein E (apoE), an exchangeable protein that mediates LDL/LDL-R interaction, is incorporated on CCHFV particles, though not on HAZV particles, and enhances their specific infectivity by promoting an LDL-R dependent entry. Finally, we show that molecules that decrease LDL-R from the surface of target cells could inhibit CCHFV infection. Our study highlights that CCHFV takes advantage of a lipoprotein receptor and recruits its natural ligand to promote entry into cells.

Published
2024
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5. Optimized protocol for 3D epithelial cultures supporting human papillomavirus replication

Author

Marta Laganà, Gabriela Cuesta Margolles, Agnieszka Jaracz-Ros, Françoise Mercier-Nomé, Philippe Roingeard, Paul F. Lambert, Géraldine Schlecht-Louf, and Françoise Bachelerie

Subjects
Cell Biology, Cell culture, Microbiology, Organoids, Science (General), Q1-390
Abstract

Summary: Human papillomaviruses (HPVs) are commensal viruses with pathogenic potential. Their life cycle requires the proliferation and differentiation of keratinocytes (KCs) to form pluristratified epithelia. Based on the original organotypic epithelial raft cultures protocol, we provide an updated workflow to optimally generate pluristratified human epithelia supporting the complete HPV replicative life cycle, here called 3D full-thickness epithelial cultures (3Deps). We describe steps for HPV genome preparation, KC transfection, and dermal equivalent preparation. We then detail procedures for 3Deps culture, harvesting, and analysis. : Publisher’s note: Undertaking any experimental protocol requires adherence to local institutional guidelines for laboratory safety and ethics.

Published
2024
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6. HTLV-1 biofilm polarization maintained by tetraspanin CD82 is required for efficient viral transmission

Author

Coline Arone, Samuel Martial, Julien Burlaud-Gaillard, Maria-Isabel Thoulouze, Philippe Roingeard, Hélène Dutartre, and Delphine Muriaux

Subjects
HTLV-1, Gag, viral biofilms, cell-to-cell viral transmission, tetraspanins, CD82, Microbiology, QR1-502
Abstract

ABSTRACTThe human T-lymphotropic virus type 1 (HTLV-1) is an oncogenic retrovirus whose transmission relies primarily on cell-to-cell contacts as cell-free viruses are poorly infectious. Among the intercellular transmission routes described, HTLV-1 biofilms are adhesive structures polarized at the cell surface that confine virions in a protective environment, which is believed to promote their simultaneous delivery during infection. Here, we show that several tetraspanins are enriched in HTLV-1 biofilms and incorporated into the viral envelope. However, we report that only the tetraspanin CD82 interacts with HTLV-1 Gag proteins which initiates their polarization into viral biofilms. Also, we demonstrate that CD82 maintains HTLV-1 biofilm polarization and favors viral transmission, as its silencing induces a complete reorganization of viral clusters at the cell surface and reduces the ability of infected T-cells to transmit the virus. Our results highlight the crucial role of CD82 and its glycosylation state in the architectural organization of HTLV-1 biofilms and their subsequent transfer through intercellular contacts.IMPORTANCEIn the early stages of infection, human T-lymphotropic virus type 1 (HTLV-1) dissemination within its host is believed to rely mostly on cell-to-cell contacts. Past studies unveiled a novel mechanism of HTLV-1 intercellular transmission based on the remodeling of the host-cell extracellular matrix and the generation of cell-surface viral assemblies whose structure, composition, and function resemble bacterial biofilms. These polarized aggregates of infectious virions, identified as viral biofilms, allow the bulk delivery of viruses to target cells and may help to protect virions from immune attacks. However, viral biofilms’ molecular and functional description is still in its infancy, although it is crucial to fully decipher retrovirus pathogenesis. Here, we explore the function of cellular tetraspanins (CD9, CD81, CD82) that we detect inside HTLV-1 particles within biofilms. Our results demonstrate specific roles for CD82 in the cell-surface distribution and intercellular transmission of HTLV-1 biofilms, which we document as two essential parameters for efficient viral transmission. At last, our findings indicate that N-glycosylation of cell-surface molecules, including CD82, is required for the polarization of HTLV-1 biofilms and for the efficient transmission of HTLV-1 between T-lymphocytes.

Published
2023
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7. A nuclear export signal within the structural Gag protein is required for prototype foamy virus replication

Author

Coiffic Audrey, Giron Marie-Lou, Paris Joris, Tobaly-Tapiero Joelle, Renault Noémie, Roingeard Philippe, and Saïb Ali

Subjects
Immunologic diseases. Allergy, RC581-607
Abstract

Abstract Background The Gag polyproteins play distinct roles during the replication cycle of retroviruses, hijacking many cellular machineries to fulfill them. In the case of the prototype foamy virus (PFV), Gag structural proteins undergo transient nuclear trafficking after their synthesis, returning back to the cytoplasm for capsid assembly and virus egress. The functional role of this nuclear stage as well as the molecular mechanism(s) responsible for Gag nuclear export are not understood. Results We have identified a leptomycin B (LMB)-sensitive nuclear export sequence (NES) within the N-terminus of PFV Gag that is absolutely required for the completion of late stages of virus replication. Point mutations of conserved residues within this motif lead to nuclear redistribution of Gag, preventing subsequent virus egress. We have shown that a NES-defective PFV Gag acts as a dominant negative mutant by sequestrating its wild-type counterpart in the nucleus. Trans-complementation experiments with the heterologous NES of HIV-1 Rev allow the cytoplasmic redistribution of FV Gag, but fail to restore infectivity. Conclusions PFV Gag-Gag interactions are finely tuned in the cytoplasm to regulate their functions, capsid assembly, and virus release. In the nucleus, we have shown Gag-Gag interactions which could be involved in the nuclear export of Gag and viral RNA. We propose that nuclear export of unspliced and partially spliced PFV RNAs relies on two complementary mechanisms, which take place successively during the replication cycle.

Published
2011
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8. Centrosomal pre-integration latency of HIV-1 in quiescent cells

Author

Emiliani Stéphane, Roingeard Philippe, Tobaly-Tapiero Joëlle, Giron Marie-Lou, Clave Emmanuel, Lehmann-Che Jacqueline, Zamborlini Alessia, Toubert Antoine, de Thé Hugues, and Saïb Ali

Subjects
Immunologic diseases. Allergy, RC581-607
Abstract

Abstract Human immunodeficiency virus type 1 (HIV-1) efficiently replicates in dividing and non-dividing cells. However, HIV-1 infection is blocked at an early post-entry step in quiescent CD4+ T cells in vitro. The molecular basis of this restriction is still poorly understood. Here, we show that in quiescent cells, incoming HIV-1 sub-viral complexes concentrate and stably reside at the centrosome for several weeks. Upon cell activation, viral replication resumes leading to viral gene expression. Thus, HIV-1 can persist in quiescent cells as a stable, centrosome-associated, pre-integration intermediate.

Published
2007
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9. The envelope protein of Zika virus interacts with apolipoprotein E early in the infectious cycle and this interaction is conserved on the secreted viral particles

Author

Yannick Tréguier, Jade Cochard, Julien Burlaud-Gaillard, Roxane Lemoine, Philippe Chouteau, Philippe Roingeard, Jean-Christophe Meunier, and Marianne Maquart

Subjects
Zika virus, Apolipoprotein E, Arbovirus, Virus/cell interaction, Flaviviridae, Electron microscopy, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Zika virus (ZIKV), a member of the Flaviviridae family, has caused massive outbreaks of infection in tropical areas over the last decade and has now begun spreading to temperate countries. Little is currently known about the specific host factors involved in the intracellular life cycle of ZIKV. Flaviviridae viruses interact closely with host-cell lipid metabolism and associated secretory pathways. Another Flaviviridae, hepatitis C virus, is highly dependent on apolipoprotein E (ApoE) for the completion of its infectious cycle. We therefore investigated whether ZIKV also interacted with this protein. Methods ZIKV infections were performed on both liver and microglia derived cell lines in order to proceed to colocalization analysis and immunoprecipitation assays of ApoE and Zika envelope glycoprotein (Zika E). Transmission electron microscopy combined to immunogold labeling was also performed on the infected cells and related supernatant to study the association of ApoE and Zika E protein in the virus-induced membrane rearrangements and secreted particles, respectively. Finally, the potential of neutralization of anti-ApoE antibodies on ZIKV particles was studied. Result We demonstrated an interaction between ApoE and the Zika E protein. This specific interaction was observed in virus-induced host-cell membrane rearrangements, but also on newly formed intracellular particles. The partial neutralizing effect of anti-ApoE antibody and the immunogold labeling of the two proteins on secreted virions indicates that this interaction is conserved during ZIKV intracellular trafficking and release. Conclusions These data suggest that another member of the Flaviviridae also interacts with ApoE, indicating that this could be a common mechanism for the viruses from this family.

Published
2022
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10. Reprogramming of connexin landscape fosters fast gap junction intercellular communication in human papillomavirus-infected epithelia

Author

Carmen Gallego, Agnieszka Jaracz-Ros, Marta Laganà, Françoise Mercier-Nomé, Séverine Domenichini, Amos Fumagalli, Philippe Roingeard, Michael Herfs, Guillaume Pidoux, Françoise Bachelerie, and Géraldine Schlecht-Louf

Subjects
human papillomavirus (HPV), viral replication, connexin, gap junction intercellular communication (GJIC), 3D epithelial cell culture, fluorescence loss in photobleaching (FLIP), Microbiology, QR1-502
Abstract

Human papillomaviruses (HPVs) are highly prevalent commensal viruses that require epithelial stratification to complete their replicative cycle. While HPV infections are most often asymptomatic, certain HPV types can cause lesions, that are usually benign. In rare cases, these infections may progress to non-replicative viral cycles associated with high HPV oncogene expression promoting cell transformation, and eventually cancer when not cleared by host responses. While the consequences of HPV-induced transformation on keratinocytes have been extensively explored, the impact of viral replication on epithelial homeostasis remains largely unexplored. Gap junction intercellular communication (GJIC) is critical for stratified epithelium integrity and function. This process is ensured by a family of proteins named connexins (Cxs), including 8 isoforms that are expressed in stratified squamous epithelia. GJIC was reported to be impaired in HPV-transformed cells, which was attributed to the decreased expression of the Cx43 isoform. However, it remains unknown whether and how HPV replication might impact on the expression of Cx isoforms and GJIC in stratified squamous epithelia. To address this question, we have used 3D-epithelial cell cultures (3D-EpCs), the only model supporting the productive HPV life cycle. We report a transcriptional downregulation of most epithelial Cx isoforms except Cx45 in HPV-replicating epithelia. At the protein level, HPV replication results in a reduction of Cx43 expression while that of Cx45 increases and displays a topological shift toward the cell membrane. To quantify GJIC, we pioneered quantitative gap-fluorescence loss in photobleaching (FLIP) assay in 3D-EpCs, which allowed us to show that the reprogramming of Cx landscape in response to HPV replication translates into accelerated GJIC in living epithelia. Supporting the pathophysiological relevance of our observations, the HPV-associated Cx43 and Cx45 expression pattern was confirmed in human cervical biopsies harboring HPV. In conclusion, the reprogramming of Cx expression and distribution in HPV-replicating epithelia fosters accelerated GJIC, which may participate in epithelial homeostasis and host immunosurveillance.

Published
2023
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12. A human monoclonal antibody against HBsAg for the prevention and treatment of chronic HBV and HDV infection

Author

Rani Burm, Freya Van Houtte, Lieven Verhoye, Ahmed Atef Mesalam, Sandra Ciesek, Philippe Roingeard, Heiner Wedemeyer, Geert Leroux-Roels, and Philip Meuleman

Subjects
Viral hepatitis, hepatitis B, hepatitis D, human monoclonal antibody, hepatitis B surface antigen, prevention, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Background & Aims: Elimination of chronic HBV/HDV infection remains a major global health challenge. Targeting excessive hepatitis B surface antigen (HBsAg) release may provide an interesting window of opportunity to break immune tolerance and to achieve a functional cure using additional antivirals. Methods: We evaluated a HBsAg-specific human monoclonal antibody, as part of either a prophylactic or therapeutic strategy, against HBV/HDV infection in cell culture models and in human-liver chimeric mice. To assess prophylactic efficacy, mice were passively immunized prior to infection with HBV or HBV/HDV (coinfection and superinfection setting). Therapeutic efficacy was assessed in HBV and HBV/HDV-coinfected mice receiving 4 weeks of treatment. Viral parameters (HBV DNA, HDV RNA and HBsAg) were assessed in mouse plasma. Results: The antibody could effectively prevent HBV/HDV infection in a dose-dependent manner with IC50 values of ∼3.5 ng/ml. Passive immunization showed complete protection of mice from both HBV and HBV/HDV coinfection. Moreover, HDV superinfection was either completely prevented or at least attenuated in HBV-infected mice. Finally, antibody treatment in mice with established HBV/HDV infection resulted in a significant decline in viremia and a concomitant drop in on-treatment HBsAg, with a moderate viral rebound following treatment cessation. Conclusion: We present data on a valuable antibody candidate that could complement other antivirals in strategies aimed at achieving functional cure of chronic HBV and HDV infection. Impact and implications: Patients chronically infected with HBV may eventually develop liver cancer and are at great risk of being superinfected with HDV, which worsens and accelerates disease progression. Unfortunately, current treatments can rarely eliminate both viruses from chronically infected patients. In this study, we present data on a novel antibody that is able to prevent chronic HBV/HDV infection in a mouse model with a humanized liver. Moreover, antibody treatment of HBV/HDV-infected mice strongly diminishes viral loads during therapy. This antibody is a valuable candidate for further clinical development.

Published
2023
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15. The endocytic recycling compartment serves as a viral factory for hepatitis E virus

Author

Bentaleb, Cyrine, Hervouet, Kévin, Montpellier, Claire, Camuzet, Charline, Ferrié, Martin, Burlaud-Gaillard, Julien, Bressanelli, Stéphane, Metzger, Karoline, Werkmeister, Elisabeth, Ankavay, Maliki, Janampa, Nancy Leon, Marlet, Julien, Roux, Julien, Deffaud, Clarence, Goffard, Anne, Rouillé, Yves, Dubuisson, Jean, Roingeard, Philippe, Aliouat-Denis, Cécile-Marie, and Cocquerel, Laurence

Published
2022
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16. Broadly neutralizing anti-HIV-1 antibodies tether viral particles at the surface of infected cells

Author

Jérémy Dufloo, Cyril Planchais, Stéphane Frémont, Valérie Lorin, Florence Guivel-Benhassine, Karl Stefic, Nicoletta Casartelli, Arnaud Echard, Philippe Roingeard, Hugo Mouquet, Olivier Schwartz, and Timothée Bruel

Subjects
Science
Abstract

Broadly neutralizing antibodies (bNAbs) neutralize HIV-1 and exert Fc-dependent activities against infected cells. Here, Dufloo et al. show that bNAbs also block HIV-1 release by trapping viral particles at the surface of infected cells.

Published
2022
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17. A Proteomics-Based Approach Identifies the NEDD4 Adaptor NDFIP2 as an Important Regulator of Ifitm3 Levels

Author

Federico Marziali, Yuxin Song, Xuan-Nhi Nguyen, Lucid Belmudes, Julien Burlaud-Gaillard, Philippe Roingeard, Yohann Couté, and Andrea Cimarelli

Subjects
IFITM3, virus, NEDD4, NDFIP2, interferon, Microbiology, QR1-502
Abstract

IFITMs are a family of highly related interferon-induced transmembrane proteins that interfere with the processes of fusion between viral and cellular membranes and are thus endowed with broad antiviral properties. A number of studies have shown how the antiviral potency of IFITMs is highly dependent on their steady-state levels, their intracellular distribution and a complex pattern of post-translational modifications, parameters that are overall tributary of a number of cellular partners. In an effort to identify additional protein partners involved in the biology of IFITMs, we devised a proteomics-based approach based on the piggyback incorporation of IFITM3 partners into extracellular vesicles. MS analysis of the proteome of vesicles bearing or not bearing IFITM3 identified the NDFIP2 protein adaptor protein as an important regulator of IFITM3 levels. NDFIP2 is a membrane-anchored adaptor protein of the E3 ubiquitin ligases of the NEDD4 family that have already been found to be involved in IFITM3 regulation. We show here that NDFIP2 acts as a recruitment factor for both IFITM3 and NEDD4 and mediates their distribution in lysosomal vesicles. The genetic inactivation and overexpression of NDFIP2 drive, respectively, lower and higher levels of IFITM3 accumulation in the cell, overall suggesting that NDFIP2 locally competes with IFITM3 for NEDD4 binding. Given that NDFIP2 is itself tightly regulated and highly responsive to external cues, our study sheds light on a novel and likely dynamic layer of regulation of IFITM3.

Published
2023
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18. Incorporation of apolipoprotein E into HBV–HCV subviral envelope particles to improve the hepatitis vaccine strategy

Author

Elsa Gomez-Escobar, Julien Burlaud-Gaillard, Clara Visdeloup, Adeline Ribeiro E. Silva, Pauline Coutant, Philippe Roingeard, and Elodie Beaumont

Subjects
Medicine, Science
Abstract

Abstract Hepatitis C is a major threat to public health for which an effective treatment is available, but a prophylactic vaccine is still needed to control this disease. We designed a vaccine based on chimeric HBV–HCV envelope proteins forming subviral particles (SVPs) that induce neutralizing antibodies against HCV in vitro. Here, we aimed to increase the neutralizing potential of those antibodies, by using HBV–HCV SVPs bearing apolipoprotein E (apoE). These particles were produced by cultured stable mammalian cell clones, purified and characterized. We found that apoE was able to interact with both chimeric HBV–HCV (E1-S and E2-S) proteins, and with the wild-type HBV S protein. ApoE was also detected on the surface of purified SVPs and improved the folding of HCV envelope proteins, but its presence lowered the incorporation of E2-S protein. Immunization of New Zealand rabbits resulted in similar anti-S responses for all rabbits, whereas anti-E1/-E2 antibody titers varied according to the presence or absence of apoE. Regarding the neutralizing potential of these anti-E1/-E2 antibodies, it was higher in rabbits immunized with apoE-bearing particles. In conclusion, the association of apoE with HCV envelope proteins may be a good strategy for improving HCV vaccines based on viral envelope proteins.

Published
2021
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19. Human Claudin-Derived Peptides Block the Membrane Fusion Process of Zika Virus and Are Broad Flavivirus Inhibitors

Author

Jim Zoladek, Julien Burlaud-Gaillard, Maxime Chazal, Sophie Desgraupes, Patricia Jeannin, Antoine Gessain, Nathalie Pardigon, Mathieu Hubert, Philippe Roingeard, Nolwenn Jouvenet, and Philippe V. Afonso

Subjects
antimicrobial peptides, claudin, flavivirus, Zika, Microbiology, QR1-502
Abstract

ABSTRACT Zika virus (ZIKV) is a mosquito-borne flavivirus that emerged in the Pacific islands in 2007 and spread to the Americas in 2015. The infection remains asymptomatic in most cases but can be associated with severe neurological disorders. Despite massive efforts, no specific drug or vaccine against ZIKV infection is available to date. Claudins are tight-junction proteins that favor the entry of several flaviviruses, including ZIKV. In this study, we identified two peptides derived from the N-terminal sequences of claudin-7 and claudin-1, named CL7.1 and CL1.1, respectively, that inhibited ZIKV infection in a panel of human cell lines. Using cell-to-cell fusion assays, we demonstrated that these peptides blocked the ZIKV E-mediated membrane fusion. A comparison of the antiviral efficacy of CL1.1 and CL7.1 pointed to the importance of the peptide amphipathicity. Electron microscopic analysis revealed that CL1.1 altered the ultrastructure of the viral particles likely by binding the virus lipid envelope. However, amphipathicity could not fully explain the antiviral activity of CL1.1. In silico docking simulations suggested that CL1.1 may also interact with the E protein, near its stem region. Overall, our data suggested that claudin-derived peptides inhibition may be linked to simultaneous interaction with the E protein and the viral lipid envelope. Finally, we found that CL1.1 also blocked infection by yellow fever and Japanese encephalitis viruses but not by HIV-1 or SARS-CoV-2. Our results provide a basis for the future development of therapeutics against a wide range of endemic and emerging flaviviruses. IMPORTANCE Zika virus (ZIKV) is a flavivirus transmitted by mosquito bites that have spread to the Pacific Islands and the Americas over the past decade. The infection remains asymptomatic in most cases but can cause severe neurological disorders. ZIKV is a major public health threat in areas of endemicity, and there is currently no specific antiviral drug or vaccine available. We identified two antiviral peptides deriving from the N-terminal sequences of claudin-7 and claudin-1 with the latter being the most effective. These peptides block the envelope-mediated membrane fusion. Our data suggested that the inhibition was likely achieved by simultaneously interacting with the viral lipid envelope and the E protein. The peptides also inhibited other flaviviruses. These results could provide the basis for the development of therapies that might target a wide array of flaviviruses from current epidemics and possibly future emergences.

Published
2022
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22. Current Hepatitis C Vaccine Candidates Based on the Induction of Neutralizing Antibodies

Author

Elsa Gomez-Escobar, Philippe Roingeard, and Elodie Beaumont

Subjects
hepatitis C virus, vaccine development, neutralizing antibodies, envelope glycoproteins, Microbiology, QR1-502
Abstract

The introduction of direct-acting antivirals (DAAs) has revolutionized hepatitis C treatment. Short courses of treatment with these drugs are highly beneficial to patients, eliminating hepatitis C virus (HCV) without adverse effects. However, this outstanding success is tempered by the continuing difficulty of eradicating the virus worldwide. Thus, access to an effective vaccine against HCV is strongly needed to reduce the burden of the disease and contribute to the elimination of viral hepatitis. The recent failure of a T-cell vaccine based on the use of viral vectors expressing the HCV non-structural protein sequences to prevent chronic hepatitis C in drug users has pointed out that the induction of neutralizing antibodies (NAbs) will be essential in future vaccine candidates. To induce NAbs, vaccines must contain the main target of this type of antibody, the HCV envelope glycoproteins (E1 and E2). In this review, we summarize the structural regions in E1 and E2 proteins that are targeted by NAbs and how these proteins are presented in the vaccine candidates currently under development.

Published
2023
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23. FHL1 is a key player of chikungunya virus tropism and pathogenesis

Author

Meertens, Laurent, Hafirassou, Mohamed Lamine, Couderc, Thérèse, Bonnet-Madin, Lucie, Kril, Vasiliya, Kümmerer, Beate M., Labeau, Athena, Brugier, Alexis, Simon-Loriere, Etienne, Burlaud-Gaillard, Julien, Doyen, Cécile, Pezzi, Laura, Goupil, Thibaud, Rafasse, Sophia, Vidalain, Pierre-Olivier, Legout, Anne Bertrand, Gueneau, Lucie, Juntas-Morales, Raul, Yaou, Rabah Ben, Bonne, Gisèle, de Lamballerie, Xavier, Benkirane, Monsef, Roingeard, Philippe, Delaugerre, Constance, Lecuit, Marc, and Amara, Ali

Subjects
Chikungunya, Four and a Half LIM domains 1 Tropism, Pathogenesis, Virus infection, Biology (General), QH301-705.5
Abstract

Chikungunya is an infectious disease caused by the chikungunya virus (CHIKV), an alphavirus transmitted to humans by Aedes mosquitoes, and for which there is no licensed vaccine nor antiviral treatments. By using a loss-of-function genetic screen, we have recently identified the FHL1 protein as an essential host factor for CHIKV tropism and pathogenesis. FHL1 is highly expressed in muscles cells and fibroblasts, the main CHIKV-target cells. FHL1 interacts with the viral protein nsP3 and plays a critical role in CHIKV genome amplification. Experiments in vivo performed in FHL1-deficient mice have shown that these animals are resistant to infection and do not develop muscular lesions. Altogether these observations, published in the journal Nature [1], show that FHL1 is a key host factor for CHIKV pathogenesis and identify the interaction between FHL1 and nsP3 as a promising target for the development of new antiviral strategies.

Published
2021
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26. Pathology Assessments of Multiple Organs in Fatal COVID-19 in Intensive Care Unit vs. Non-intensive Care Unit Patients

Author

Yoann Zerbib, Nelly Guilain, Sébastien Eymieux, Rustem Uzbekov, Sandrine Castelain, Emmanuelle Blanchard, Catherine François, Denis Chatelain, Clément Brault, Julien Maizel, Philippe Roingeard, and Michel Slama

Subjects
lung pathology, ARDS, ICU, SARS-CoV-2, COVID-19, Medicine (General), R5-920
Abstract

PurposeThe objective of the present study was to provide a detailed histopathological description of fatal coronavirus disease 2019 (COVID 19), and compare the lesions in Intensive Care Unit (ICU) and non-ICU patients.MethodsIn this prospective study we included adult patients who died in hospital after presenting with confirmed COVID-19. Multiorgan biopsies were performed. Data generated with light microscopy, transmission electron microscopy (TEM) and RT-PCR assays were reviewed.Results20 patients were enrolled in the study and the main pulmonary finding was alveolar damage, which was focal in 11 patients and diffuse in 8 patients. Chronic fibrotic and inflammatory lesions were observed in 18 cases, with acute inflammatory lesions in 12 cases. Diffuse lesions, collapsed alveoli and dystrophic pneumocytes were more frequent in the ICU group (62.5%, vs. 25%; 63%, vs. 55%; 87.5%, vs. 54%). Acute lesions (82%, vs. 37.5%; p = 0.07) with neutrophilic alveolitis (63.6% vs. 0%, respectively; p = 0.01) were observed more frequently in the non-ICU group. Viral RNA was detected in 12 lung biopsies (60%) up to 56 days after disease upset. TEM detected viral particles in the lung and kidney biopsy samples up to 27 days after disease upset. Furthermore, abundant networks of double-membrane vesicles (DMVs, a hallmark of viral replication) were observed in proximal tubular epithelial cells.ConclusionLung injury was different in ICU and non-ICU patients. Extrapulmonary damage consisting in kidney and myocardial injury were more frequent in ICU patients. Our TEM experiments provided the first description of SARS-CoV-2-induced DMVs in kidney biopsy samples—a sign of intense viral replication in this organ.

Published
2022
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27. Storage-Induced Micro-Erythrocytes Can Be Quantified and Sorted by Flow Cytometry

Author

Mickaël Marin, Sandy Peltier, Youcef Hadjou, Sonia Georgeault, Michaël Dussiot, Camille Roussel, Olivier Hermine, Philippe Roingeard, Pierre A. Buffet, and Pascal Amireault

Subjects
red blood cell (RBC), RBC storage, RBC morphology, flow cytometry, imaging flow cytometry (IFC), RBC storage lesion, Physiology, QP1-981
Abstract

Refrigerated storage of red cell concentrates before transfusion is associated with progressive alterations of red blood cells (RBC). Small RBC (type III echinocytes, sphero-echinocytes, and spherocytes) defined as storage-induced micro-erythrocytes (SME) appear during pretransfusion storage. SME accumulate with variable intensity from donor to donor, are cleared rapidly after transfusion, and their proportion correlates with transfusion recovery. They can be rapidly and objectively quantified using imaging flow cytometry (IFC). Quantifying SME using flow cytometry would further facilitate a physiologically relevant quality control of red cell concentrates. RBC stored in blood bank conditions were stained with a carboxyfluorescein succinimidyl ester (CFSE) dye and incubated at 37°C. CFSE intensity was assessed by flow cytometry and RBC morphology evaluated by IFC. We observed the accumulation of a CFSEhigh RBC subpopulation by flow cytometry that accounted for 3.3 and 47.2% at day 3 and 42 of storage, respectively. IFC brightfield images showed that this CFSEhigh subpopulation mostly contains SME while the CFSElow subpopulation mostly contains type I and II echinocytes and discocytes. Similar numbers of SME were quantified by IFC (based on projected surface area) and by flow cytometry (based on CFSE intensity). IFC and scanning electron microscopy showed that ≥95% pure subpopulations of CFSEhigh and CFSElow RBC were obtained by flow cytometry-based sorting. SME can now be quantified using a common fluorescent dye and a standard flow cytometer. The staining protocol enables specific sorting of SME, a useful tool to further characterize this RBC subpopulation targeted for premature clearance after transfusion.

Published
2022
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29. FHL1 is a major host factor for chikungunya virus infection

Author

Meertens, Laurent, Hafirassou, Mohamed Lamine, Couderc, Thérèse, Bonnet-Madin, Lucie, Kril, Vasiliya, Kümmerer, Beate M., Labeau, Athena, Brugier, Alexis, Simon-Loriere, Etienne, Burlaud-Gaillard, Julien, Doyen, Cécile, Pezzi, Laura, Goupil, Thibaud, Rafasse, Sophia, Vidalain, Pierre-Olivier, Bertrand-Legout, Anne, Gueneau, Lucie, Juntas-Morales, Raul, Ben Yaou, Rabah, Bonne, Gisèle, de Lamballerie, Xavier, Benkirane, Monsef, Roingeard, Philippe, Delaugerre, Constance, Lecuit, Marc, and Amara, Ali

Published
2019
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30. Controlled Heat and Humidity-Based Treatment for the Reuse of Personal Protective Equipment: A Pragmatic Proof-of-Concept to Address the Mass Shortage of Surgical Masks and N95/FFP2 Respirators and to Prevent the SARS-CoV2 Transmission

Author

Louis Bernard, Guillaume Desoubeaux, Elsa Bodier-Montagutelli, Jeoffrey Pardessus, Déborah Brea, Laurine Allimonnier, Sébastien Eymieux, Pierre-Ivan Raynal, Virginie Vasseur, Laurent Vecellio, Ludovic Mathé, Antoine Guillon, Philippe Lanotte, Jérémie Pourchez, Paul O. Verhoeven, Stéphane Esnouf, Muriel Ferry, Nicolas Eterradossi, Yannick Blanchard, Paul Brown, Philippe Roingeard, Jean-Pierre Alcaraz, Philippe Cinquin, Mustapha Si-Tahar, and Nathalie Heuzé-Vourc'h

Subjects
SARS–CoV-2, facemask, recyclibility, surgical face masks, COVID-19, heating, Medicine (General), R5-920
Abstract

Background: The coronavirus infectious disease-2019 (COVID-19) pandemic has led to an unprecedented shortage of healthcare resources, primarily personal protective equipment like surgical masks, and N95/filtering face piece type 2 (FFP2) respirators.Objective: Reuse of surgical masks and N95/FFP2 respirators may circumvent the supply chain constraints and thus overcome mass shortage. Methods, design, setting, and measurement: Herein, we tested the effects of dry- and moist-air controlled heating treatment on structure and chemical integrity, decontamination yield, and filtration performance of surgical masks and FFP2 respirators.Results: We found that treatment in a climate chamber at 70°C during 1 h with 75% humidity rate was adequate for enabling substantial decontamination of both respiratory viruses, oropharyngeal bacteria, and model animal coronaviuses, while maintaining a satisfying filtering capacity.Limitations: Further studies are now required to confirm the feasibility of the whole process during routine practice.Conclusion: Our findings provide compelling evidence for the recycling of pre-used surgical masks and N95/FFP2 respirators in case of imminent mass shortfall.

Published
2020
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31. ELISA-Based Analysis Reveals an Anti-SARS-CoV-2 Protein Immune Response Profile Associated with Disease Severity

Author

Charline Herrscher, Sébastien Eymieux, Christophe Gaborit, Hélène Blasco, Julien Marlet, Karl Stefic, Philippe Roingeard, Leslie Grammatico-Guillon, and Christophe Hourioux

Subjects
SARS-CoV-2 antibodies, SARS-CoV-2 linear epitopes, COVID-19, disease severity, Medicine
Abstract

Since the start of the COVID-19 pandemic, many studies have investigated the humoral response to SARS-CoV-2 during infection. Studies with native viral proteins constitute a first-line approach to assessing the overall immune response, but small peptides are an accurate and valuable tool for the fine characterization of B-cell epitopes, despite the restriction of this approach to the determination of linear epitopes. In this study, we used ELISA and peptides covering a selection of structural and non-structural SARS-CoV-2 proteins to identify key epitopes eliciting a strong immune response that could serve as a biological signature of disease characteristics, such as severity, in particular. We used 213 plasma samples from a cohort of patients well-characterized clinically and biologically and followed for COVID-19 infection. We found that patients developing severe disease had higher titers of antibodies mapping to multiple specific epitopes than patients with mild to moderate disease. These data are potentially important as they could be used for immunological profiling to improve our knowledge of the quantitative and qualitative characteristics of the humoral response in relation to patient outcome.

Published
2022
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32. Differentiation-dependent susceptibility of human muscle cells to Zika virus infection.

Author

Vincent Legros, Patricia Jeannin, Julien Burlaud-Gaillard, Thibault Chaze, Quentin Giai Gianetto, Gillian Butler-Browne, Vincent Mouly, Jim Zoladek, Philippe V Afonso, Mariela-Natacha Gonzàlez, Mariette Matondo, Ingo Riederer, Philippe Roingeard, Antoine Gessain, Valérie Choumet, and Pierre-Emmanuel Ceccaldi

Subjects
Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270
Abstract

Muscle cells are potential targets of many arboviruses, such as Ross River, Dengue, Sindbis, and chikungunya viruses, that may be involved in the physiopathological course of the infection. During the recent outbreak of Zika virus (ZIKV), myalgia was one of the most frequently reported symptoms. We investigated the susceptibility of human muscle cells to ZIKV infection. Using an in vitro model of human primary myoblasts that can be differentiated into myotubes, we found that myoblasts can be productively infected by ZIKV. In contrast, myotubes were shown to be resistant to ZIKV infection, suggesting a differentiation-dependent susceptibility. Infection was accompanied by a caspase-independent cytopathic effect, associated with paraptosis-like cytoplasmic vacuolization. Proteomic profiling was performed 24h and 48h post-infection in cells infected with two different isolates. Proteome changes indicate that ZIKV infection induces an upregulation of proteins involved in the activation of the Interferon type I pathway, and a downregulation of protein synthesis. This work constitutes the first observation of primary human muscle cells susceptibility to ZIKV infection, and differentiation-dependent restriction of infection from myoblasts to myotubes. Since myoblasts constitute the reservoir of stem cells involved in reparation/regeneration in muscle tissue, the infection of muscle cells and the viral-induced alterations observed here could have consequences in ZIKV infection pathogenesis.

Published
2020
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33. Septic shock caused by Gardnerella vaginalis and Atopobium vaginae

Author

Pauline Taillandier, Camille Roingeard, Jérémy Violette, Franck-Marie Leclère, and Sébastien Faivre

Subjects
Gardnerella vaginalis, Atopobium vaginae, Bacterial vaginosis, Postoperative infection, Septic shock, Postoperative peritonitis, Infectious and parasitic diseases, RC109-216
Abstract

Although bacterial vaginosis is the most common and benign vaginal infection worldwide, some cases of severe acute infections have been described in the literature. We report the case of a 57-year-old French female who developed a life-threatening postoperative peritonitis after a total hysterectomy with adnexectomy in the context of the removal of leiomyosarcoma. The microbiological analysis of the peritoneal fluid identified Gardnerella vaginalis and Atobopium vaginae. The final diagnosis was a septic shock induced by an early onset peritonitis caused by Gardnerella vaginalis and Atobopium vaginae. The normal flora of the genital area could lead to a serious life threatening postoperative infection and should always be in the differential diagnosis.

Published
2020
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34. A comparative study of the capacity of mesenchymal stromal cell lines to form spheroids.

Author

Margaux Deynoux, Nicola Sunter, Elfi Ducrocq, Hassan Dakik, Roseline Guibon, Julien Burlaud-Gaillard, Lucie Brisson, Florence Rouleux-Bonnin, Louis-Romée le Nail, Olivier Hérault, Jorge Domenech, Philippe Roingeard, Gaëlle Fromont, and Frédéric Mazurier

Subjects
Medicine, Science
Abstract

Mesenchymal stem cells (MSC)-spheroid models favor maintenance of stemness, ex vivo expansion and transplantation efficacy. Spheroids may also be considered as useful surrogate models of the hematopoietic niche. However, accessibility to primary cells, from bone marrow (BM) or adipose tissues, may limit their experimental use and the lack of consistency in methods to form spheroids may affect data interpretation. In this study, we aimed to create a simple model by examining the ability of cell lines, from human (HS-27a and HS-5) and murine (MS-5) BM origins, to form spheroids, compared to primary human MSCs (hMSCs). Our protocol efficiently allowed the spheroid formation from all cell types within 24 hours. Whilst hMSC-spheroids began to shrink after 24 hours, the size of spheroids from cell lines remained constant during three weeks. The difference was partially explained by the balance between proliferation and cell death, which could be triggered by hypoxia and induced oxidative stress. Our results demonstrate that, like hMSCs, MSC cell lines make reproductible spheroids that are easily handled. Thus, this model could help in understanding mechanisms involved in MSC functions and may provide a simple model by which to study cell interactions in the BM niche.

Published
2020
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35. The invariant arginine within the chromatin-binding motif regulates both nucleolar localization and chromatin binding of Foamy virus Gag

Author

Joris Paris, Joëlle Tobaly-Tapiero, Marie-Lou Giron, Julien Burlaud-Gaillard, Florence Buseyne, Philippe Roingeard, Pascale Lesage, Alessia Zamborlini, and Ali Saïb

Subjects
Foamy virus, Gag, Nuclear trafficking, Nucleolus, Chromatin-binding, Post-translational modification, Immunologic diseases. Allergy, RC581-607
Abstract

Abstract Background Nuclear localization of Gag is a property shared by many retroviruses and retrotransposons. The importance of this stage for retroviral replication is still unknown, but studies on the Rous Sarcoma virus indicate that Gag might select the viral RNA genome for packaging in the nucleus. In the case of Foamy viruses, genome encapsidation is mediated by Gag C-terminal domain (CTD), which harbors three clusters of glycine and arginine residues named GR boxes (GRI-III). In this study we investigated how PFV Gag subnuclear distribution might be regulated. Results We show that the isolated GRI and GRIII boxes act as nucleolar localization signals. In contrast, both the entire Gag CTD and the isolated GRII box, which contains the chromatin-binding motif, target the nucleolus exclusively upon mutation of the evolutionary conserved arginine residue at position 540 (R540), which is a key determinant of FV Gag chromatin tethering. We also provide evidence that Gag localizes in the nucleolus during FV replication and uncovered that the viral protein interacts with and is methylated by Protein Arginine Methyltransferase 1 (PRMT1) in a manner that depends on the R540 residue. Finally, we show that PRMT1 depletion by RNA interference induces the concentration of Gag C-terminus in nucleoli. Conclusion Altogether, our findings suggest that methylation by PRMT1 might finely tune the subnuclear distribution of Gag depending on the stage of the FV replication cycle. The role of this step for viral replication remains an open question.

Published
2018
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36. Organelles de réplication du virus de l’hépatite C et du SARS-CoV-2 : étonnantes similitudes et pistes pour des antiviraux de large spectre

Author

Roingeard, Philippe

Abstract

Les virus à ARN simple brin positif (ARN+) peuvent remodeler les membranes des cellules hôtes qu’ils infectent pour induire des organelles de réplication. Ces organelles viro-induites servent à isoler la réplication du génome viral des capteurs déclenchant les mécanismes de l’immunité cellulaire innée. Certains de ces virus, dont le coronavirus du syndrome respiratoire aigu sévère de type 2 (SARS-CoV-2), induisent des vésicules à double membrane (DMV) qui jouent ce rôle d’organelle de réplication virale. Comme dans le cas du virus de l’hépatite C (VHC), des pores traversant les deux membranes des DMV induites par le SRAS-CoV-2 ont été identifiés. Ces pores permettent vraisemblablement l’apport de métabolites essentiels à la réplication virale au sein d’une DMV, ainsi que l’exportation de l’ARN viral nouvellement synthétisé pour former le génome des futurs virions. On ne sait pas encore si, comme pour le VHC, des DMV à pores ouverts peuvent coexister avec des DMV entièrement scellées qui sont sans doute nécessaires au stockage de grandes quantités d’ARN viral. Cependant, de façon remarquable, des études récentes ont révélé de nombreuses similitudes dans les mécanismes de biogenèse des DMV entre ces deux virus pourtant phylogénétiquement très éloignés. La compréhension des mécanismes de formation et de fonctionnement des DMV pourrait être essentielle pour le développement de nouvelles approches antivirales de large spectre, pouvant agir sur des virus de différentes familles inducteurs de ces DMV.

Published
2024
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38. Secretory Vesicles Are the Principal Means of SARS-CoV-2 Egress

Author

Sébastien Eymieux, Rustem Uzbekov, Yves Rouillé, Emmanuelle Blanchard, Christophe Hourioux, Jean Dubuisson, Sandrine Belouzard, and Philippe Roingeard

Subjects
SARS-CoV-2, coronavirus, COVID-19, virus egress, virus release, transmission electron microscopy, Cytology, QH573-671
Abstract

The mechanisms of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) egress, similar to those of other coronaviruses, remain poorly understood. The virus buds in intracellular compartments and is therefore thought to be released by the biosynthetic secretory pathway. However, several studies have recently challenged this hypothesis. It has been suggested that coronaviruses, including SARS-CoV-2, use lysosomes for egress. In addition, a focused ion-beam scanning electron microscope (FIB/SEM) study suggested the existence of exit tunnels linking cellular compartments rich in viral particles to the extracellular space resembling those observed for the human immunodeficiency (HIV) in macrophages. Here, we analysed serial sections of Vero cells infected with SARS-CoV-2 by transmission electron microscopy (TEM). We found that SARS-CoV-2 was more likely to exit the cell in small secretory vesicles. Virus trafficking within the cells involves small vesicles, with each generally containing a single virus particle. These vesicles then fuse with the plasma membrane to release the virus into the extracellular space. This work sheds new light on the late stages of the SARS-CoV-2 infectious cycle of potential value for guiding the development of new antiviral strategies.

Published
2021
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42. Interference with the production of infectious viral particles and bimodal inhibition of replication are broadly conserved antiviral properties of IFITMs.

Author

Kevin Tartour, Xuan-Nhi Nguyen, Romain Appourchaux, Sonia Assil, Véronique Barateau, Louis-Marie Bloyet, Julien Burlaud Gaillard, Marie-Pierre Confort, Beatriz Escudero-Perez, Henri Gruffat, Saw See Hong, Marie Moroso, Olivier Reynard, Stéphanie Reynard, Elodie Decembre, Najate Ftaich, Axel Rossi, Nannan Wu, Frédérick Arnaud, Sylvain Baize, Marlène Dreux, Denis Gerlier, Glaucia Paranhos-Baccala, Viktor Volchkov, Philippe Roingeard, and Andrea Cimarelli

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

IFITMs are broad antiviral factors that block incoming virions in endosomal vesicles, protecting target cells from infection. In the case of HIV-1, we and others reported the existence of an additional antiviral mechanism through which IFITMs lead to the production of virions of reduced infectivity. However, whether this second mechanism of inhibition is unique to HIV or extends to other viruses is currently unknown. To address this question, we have analyzed the susceptibility of a broad spectrum of viruses to the negative imprinting of the virion particles infectivity by IFITMs. The results we have gathered indicate that this second antiviral property of IFITMs extends well beyond HIV and we were able to identify viruses susceptible to the three IFITMs altogether (HIV-1, SIV, MLV, MPMV, VSV, MeV, EBOV, WNV), as well as viruses that displayed a member-specific susceptibility (EBV, DUGV), or were resistant to all IFITMs (HCV, RVFV, MOPV, AAV). The swapping of genetic elements between resistant and susceptible viruses allowed us to point to specificities in the viral mode of assembly, rather than glycoproteins as dominant factors of susceptibility. However, we also show that, contrarily to X4-, R5-tropic HIV-1 envelopes confer resistance against IFITM3, suggesting that viral receptors add an additional layer of complexity in the IFITMs-HIV interplay. Lastly, we show that the overall antiviral effects ascribed to IFITMs during spreading infections, are the result of a bimodal inhibition in which IFITMs act both by protecting target cells from incoming viruses and in driving the production of virions of reduced infectivity. Overall, our study reports for the first time that the negative imprinting of the virion particles infectivity is a conserved antiviral property of IFITMs and establishes IFITMs as a paradigm of restriction factor capable of interfering with two distinct phases of a virus life cycle.

Published
2017
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43. The Hepatitis C Virus-Induced Membranous Web in Liver Tissue

Author

Emmanuelle Blanchard and Philippe Roingeard

Subjects
virus/cell interactions, hepatitis C virus, membranous web, liver tissue, hepatocyte, Cytology, QH573-671
Abstract

Host cell membrane rearrangements induced by the hepatitis C virus (HCV) have been exclusively studied in vitro. These studies have shown that HCV induces double-membrane vesicles (DMVs), which probably serve to separate replication sites from the cytoplasmic sensors of the innate immune response. We report for the first time the observation of HCV-induced membrane rearrangements in liver biopsy specimens from patients chronically infected with HCV. Unlike observations performed in vitro, the membranous web detected in liver tissue seems essentially made of clusters of single-membrane vesicles derived from the endoplasmic reticulum and close to lipid droplets. This suggests that the DMVs could be a hallmark of laboratory-adapted HCV strains, possibly due to their ability to achieve a high level of replication. Alternatively, the concealment of viral RNA in DMVs may be part of innate immune response mechanisms particularly developed in hepatoma cell lines cultured in vitro. In any case, this constitutes the first report showing the differences in the membranous web established by HCV in vitro and in vivo.

Published
2018
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44. HCV-Mediated Apoptosis of Hepatocytes in Culture and Viral Pathogenesis.

Author

Erica Silberstein, Laura Ulitzky, Livia Alves Lima, Nicoleta Cehan, Andréa Teixeira-Carvalho, Philippe Roingeard, and Deborah R Taylor

Subjects
Medicine, Science
Abstract

Chronic Hepatitis C Virus (HCV) infection is associated with progressive liver injury and subsequent development of fibrosis and cirrhosis. The death of hepatocytes results in the release of cytokines that induce inflammatory and fibrotic responses. The mechanism of liver damage is still under investigation but both apoptosis and immune-mediated processes may play roles. By observing the changes in gene expression patterns in HCV-infected cells, both markers and the causes of HCV-associated liver injury may be elucidated. HCV genotype 1b virus from persistently infected VeroE6 cells induced a strong cytopathic effect when used to infect Huh7.5 hepatoma cells. To determine if this cytopathic effect was a result of apoptosis, ultrastructural changes were observed by electron microscopy and markers of programmed cell death were surveyed. Screening of a human PCR array demonstrated a gene expression profile that contained upregulated markers of apoptosis, including tumor necrosis factor, caspases and caspase activators, Fas, Bcl2-interacting killer (BIK) and tumor suppressor protein, p53, as a result of HCV genotype 1b infection. The genes identified in this study should provide new insights into understanding viral pathogenesis in liver cells and may possibly help to identify novel antiviral and antifibrotic targets.

Published
2016
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48. Correlative scanning-transmission electron microscopy reveals that a chimeric flavivirus is released as individual particles in secretory vesicles.

Author

Julien Burlaud-Gaillard, Caroline Sellin, Sonia Georgeault, Rustem Uzbekov, Claude Lebos, Jean-Marc Guillaume, and Philippe Roingeard

Subjects
Medicine, Science
Abstract

The intracellular morphogenesis of flaviviruses has been well described, but flavivirus release from the host cell remains poorly documented. We took advantage of the optimized production of an attenuated chimeric yellow fever/dengue virus for vaccine purposes to study this phenomenon by microscopic approaches. Scanning electron microscopy (SEM) showed the release of numerous viral particles at the cell surface through a short-lived process. For transmission electron microscopy (TEM) studies of the intracellular ultrastructure of the small number of cells releasing viral particles at a given time, we developed a new correlative microscopy method: CSEMTEM (for correlative scanning electron microscopy - transmission electron microscopy). CSEMTEM analysis suggested that chimeric flavivirus particles were released as individual particles, in small exocytosis vesicles, via a regulated secretory pathway. Our morphological findings provide new insight into interactions between flaviviruses and cells and demonstrate that CSEMTEM is a useful new method, complementary to SEM observations of biological events by intracellular TEM investigations.

Published
2014
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