Your search keyword '"Catherine FRANCOIS"' showing total 4 results

1. Correction: Permissivity of Primary Human Hepatocytes and Different Hepatoma Cell Lines to Cell Culture Adapted Hepatitis C Virus.

Author

Francois Helle, Etienne Brochot, Carole Fournier, Véronique Descamps, Laure Izquierdo, Thomas W Hoffmann, Virginie Morel, Yves-Edouard Herpe, Abderrahmane Bengrine, Sandrine Belouzard, Czeslaw Wychowski, Jean Dubuisson, Catherine Francois, Jean-Marc Regimbeau, Sandrine Castelain, and Gilles Duverlie

Subjects

Medicine, Science

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0070809.].

Published

2019

2. Hepatitis C Virus Resistance to Carbohydrate-Binding Agents.

Author

Laure Izquierdo, Catarina Oliveira, Carole Fournier, Véronique Descamps, Virginie Morel, Jean Dubuisson, Etienne Brochot, Catherine Francois, Sandrine Castelain, Gilles Duverlie, and Francois Helle

Subjects

Medicine, Science

Abstract

Carbohydrate binding agents (CBAs), including natural lectins, are more and more considered as broad-spectrum antivirals. These molecules are able to directly inhibit many viruses such as Human Immunodeficiency Virus (HIV), Hepatitis C Virus (HCV), Dengue Virus, Ebola Virus or Severe Acute Respiratory Syndrome Coronavirus through binding to envelope protein N-glycans. In the case of HIV, it has been shown that CBAs select for mutant viruses with N-glycosylation site deletions which are more sensitive to neutralizing antibodies. In this study we aimed at evaluating the HCV resistance to CBAs in vitro. HCV was cultivated in the presence of increasing Galanthus nivalis agglutinin (GNA), Cyanovirin-N, Concanavalin-A or Griffithsin concentrations, during more than eight weeks. At the end of lectin exposure, the genome of the isolated strains was sequenced and several potential resistance mutations in the E1E2 envelope glycoproteins were identified. The effect of these mutations on viral fitness as well as on sensitivity to inhibition by lectins, soluble CD81 or the 3/11 neutralizing antibody was assessed. Surprisingly, none of these mutations, alone or in combination, conferred resistance to CBAs. In contrast, we observed that some mutants were more sensitive to 3/11 or CD81-LEL inhibition. Additionally, several mutations were identified in the Core and the non-structural proteins. Thus, our results suggest that in contrast to HIV, HCV resistance to CBAs is not directly conferred by mutations in the envelope protein genes but could occur through an indirect mechanism involving mutations in other viral proteins. Further investigations are needed to completely elucidate the underlying mechanisms.

Published

2016

3. Permissivity of primary human hepatocytes and different hepatoma cell lines to cell culture adapted hepatitis C virus.

Author

Francois Helle, Etienne Brochot, Carole Fournier, Véronique Descamps, Laure Izquierdo, Thomas W Hoffmann, Virginie Morel, Yves-Edouard Herpe, Abderrahmane Bengrine, Sandrine Belouzard, Czeslaw Wychowski, Jean Dubuisson, Catherine Francois, Jean-Marc Regimbeau, Sandrine Castelain, and Gilles Duverlie

Subjects

Medicine, Science

Abstract

Significant progress has been made in Hepatitis C virus (HCV) culture since the JFH1 strain cloning. However, developing efficient and physiologically relevant culture systems for all viral genotypes remains an important goal. In this work, we aimed at producing a high titer JFH1 derived virus to test different hepatic cells' permissivity. To this end, we performed successive infections and obtained a JFH1 derived virus reaching high titers. Six potential adaptive mutations were identified (I599V in E2, R1373Q and M1611T in NS3, S2364P and C2441S in NS5A and R2523K in NS5B) and the effect of these mutations on HCV replication and infectious particle production was investigated. This cell culture adapted virus enabled us to efficiently infect primary human hepatocytes, as demonstrated using the RFP-NLS-IPS reporter protein and intracellular HCV RNA quantification. However, the induction of a strong type III interferon response in these cells was responsible for HCV inhibition. The disruption of this innate immune response led to a strong infection enhancement and permitted the detection of viral protein expression by western blotting as well as progeny virus production. This cell culture adapted virus also enabled us to easily compare the permissivity of seven hepatoma cell lines. In particular, we demonstrated that HuH-7, HepG2-CD81, PLC/PRF/5 and Hep3B cells were permissive to HCV entry, replication and secretion even if the efficiency was very low in PLC/PRF/5 and Hep3B cells. In contrast, we did not observe any infection of SNU-182, SNU-398 and SNU-449 hepatoma cells. Using iodixanol density gradients, we also demonstrated that the density profiles of HCV particles produced by PLC/PRF/5 and Hep3B cells were different from that of HuH-7 and HepG2-CD81 derived virions. These results will help the development of a physiologically relevant culture system for HCV patient isolates.

Published

2013

4. Alginate hydrogel protects encapsulated hepatic HuH-7 cells against hepatitis C virus and other viral infections.

Author

Nhu-Mai Tran, Murielle Dufresne, François Helle, Thomas Walter Hoffmann, Catherine François, Etienne Brochot, Patrick Paullier, Cécile Legallais, Gilles Duverlie, and Sandrine Castelain

Subjects

Medicine, Science

Abstract

Cell microencapsulation in alginate hydrogel has shown interesting applications in regenerative medicine and the biomedical field through implantation of encapsulated tissue or for bioartificial organ development. Although alginate solution is known to have low antiviral activity, the same property regarding alginate gel has not yet been studied. The aim of this work is to investigate the potential protective effect of alginate encapsulation against hepatitis C virus (HCV) infection for a hepatic cell line (HuH-7) normally permissive to the virus. Our results showed that alginate hydrogel protects HuH-7 cells against HCV when the supernatant was loaded with HCV. In addition, alginate hydrogel blocked HCV particle release out of the beads when the HuH-7 cells were previously infected and encapsulated. There was evidence of interaction between the molecules of alginate hydrogel and HCV, which was dose- and incubation time-dependent. The protective efficiency of alginate hydrogel towards HCV infection was confirmed against a variety of viruses, whether or not they were enveloped. This promising interaction between an alginate matrix and viruses, whose chemical mechanisms are discussed, is of great interest for further medical therapeutic applications based on tissue engineering.

Published

2014