Cécile Baronti

Publications (11)54.8 Total impact

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  Available from: fichier-pdf.fr

  Article: In vitro antiviral activity of arbidol against Chikungunya virus and characteristics of a selected resistant mutant.

  Ilenia Delogu, Boris Pastorino, Cécile Baronti, Antoine Nougairède, Emilie Bonnet, Xavier de Lamballerie
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  ABSTRACT: Arbidol (ARB) is an antiviral drug originally licensed in Russia for use against influenza and other respiratory viral infections. Although a broad-spectrum antiviral activity has been reported for this drug, there is until now no data regarding its effects against alphavirus infection. Here, the in vitro antiviral effect of ARB on Chikungunya virus (CHIKV) replication was investigated and this compound was found to present potent inhibitory activity against the virus propagated onto immortalized Vero cells or primary human fibroblasts (MRC-5 lung cells) (IC(50)<10μg/ml). A CHIKV resistant mutant was then selected and adapted to growth in the presence of 30μg/ml ARB in MRC5 cells; its complete sequence analysis revealed a single amino acid substitution (G407R) localized in the E2 envelope protein. To confirm the G407R role in the molecular mechanism of ARB resistance, a CHIKV infectious clone harboring the same substitution was engineered, tested, and was found to display a similar level of resistance. Finally, our results demonstrated the effective in vitro antiviral activity of ARB against CHIKV and gave some tracks to understand the molecular basis of ARB activity.
  Antiviral research 03/2011; 90(3):99-107. · 3.61 Impact Factor
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  Available from: Helene Norder

  Article: Picornavirus non-structural proteins as targets for new anti-virals with broad activity.

  Heléne Norder, Armando M De Palma, Barbara Selisko, Lionel Costenaro, Nicolas Papageorgiou, Carme Arnan, Bruno Coutard, Violaine Lantez, Xavier De Lamballerie, Cécile Baronti, Maria Solà, Jinzhi Tan, Johan Neyts, Bruno Canard, Miquel Coll, Alexander E Gorbalenya, Rolf Hilgenfeld
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  ABSTRACT: Picornaviridae is one of the largest viral families and is composed of 14 genera, six of which include human pathogens. The best known picornaviruses are enteroviruses (including polio, PV, and rhinoviruses), foot-and-mouth disease virus (FMDV), and hepatitis A virus (HAV). Although infections often are mild, certain strains may cause pandemic outbreaks accompanied with meningitis and/or paralysis. Vaccines are available for PV, HAV and FMDV. When the oral vaccines are given to immunocompromised individuals, they may be chronically infected, and remain secretors of vaccine-derived variants of virus for years. There is no effective prophylaxis available for these or other picornaviruses. So far, only the 3C protease from viruses in three genera has been fully characterized as an anti-viral target, whereas the mode of action of compounds targeting other non-structural proteins have remained largely unaddressed. Within the EU-supported FP6 project-VIZIER (Comparative Structural Genomics of Viral Enzymes Involved in Replication), the non-structural proteins were studied to identify conserved binding sites for broadly reactive anti-virals. The putative 2C helicase from echovirus-30 was shown to form ring-shaped hexamers typical for DNA-encoded SF3 helicases, and to possess ATPase activity. Hexamer formation of 2C from enterovirus 76 was in vitro shown to be dependent on the 44 N-terminal residues. Crystal structures of three enterovirus 3C proteases were solved and shown to be similar to those of other picornaviruses. A new binding site of VPg to the bottom of the thumb domain of CV-B3 3D polymerase was identified as a potential target. Broad anti-enterovirus compounds against 2C and 3A proteins were also identified, including thiazolobenzimidazoles (active against 2C) and TTP-8307 (targeting 3A). There is a need for more potent inhibitors against PV and other picornaviruses, which are potential silent reservoirs for re-emerging PV-like disease.
  Antiviral research 01/2011; 89(3):204-18. · 3.61 Impact Factor
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  Available from: Remi Charrel

  Article: Comparative production analysis of three phlebovirus nucleoproteins under denaturing or non-denaturing conditions for crystallographic studies.

  Violaine Lantez, Karen Dalle, Rémi Charrel, Cécile Baronti, Bruno Canard, Bruno Coutard
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  ABSTRACT: Nucleoproteins (NPs) encapsidate the Phlebovirus genomic (-)RNA. Upon recombinant expression, NPs tend to form heterogeneous oligomers impeding characterization of the encapsidation process through crystallographic studies. To overcome this problem, we set up a standard protocol in which production under both non-denaturing and denaturing/refolding conditions can be investigated and compared. The protocol was applied for three phlebovirus NPs, allowing an optimized production strategy for each of them. Remarkably, the Rift Valley fever virus NP was purified as a trimer under native conditions and yielded protein crystals whereas the refolded version could be purified as a dimer. Yields of trimeric Toscana virus NP were higher from denaturing than from native condition and lead to crystals. The production of Sandfly Fever Sicilian virus NP failed in both protocols. The comparative protocols described here should help in rationally choosing between denaturing or non-denaturing conditions, which would finally result in the most appropriate and relevant oligomerized protein species. The structure of the Rift Valley fever virus NP has been recently published using a refolded monomeric protein and we believe that the process we devised will contribute to shed light in the genome encapsidation process, a key stage in the viral life cycle.
  PLoS Neglected Tropical Diseases 01/2011; 5(1):e936. · 4.69 Impact Factor
• Article: Molecular epidemiology of yellow fever in Bolivia from 1999 to 2008.

  Cécile Baronti, Norma Janeth Velasquez Goitia, Shelley Cook, Yelin Roca, Jimmy Revollo, Jorge Vargas Flores, Xavier de Lamballerie
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  ABSTRACT: Yellow fever (YF) is a serious public health problem in Bolivia since at least the 19th century. Surprisingly, very limited information has been made available to date regarding the genetic characterisation and epidemiology of Bolivian YF virus (YFV) strains. Here, we conducted the genetic characterization of 12 human isolates of YFV collected in Bolivia between 1999 and 2008, by sequencing and analysis of two regions of the viral genome: a fragment encoding structural proteins "PrM" (premembrane and envelope) and a distal region "EMF," spanning the end of the virus genome. Our study reveals a high genetic diversity of YFV strains circulating in Bolivia during the last decade: we identified not only "Peruvian-like" genotype II viruses (related to previously characterized Bolivian strains), but also, for the fist time, "Brazilian-like" genotype I viruses. During the complete period of the study, only cases of "jungle" YF were detected (i.e., circulation of YFV via a sylvatic cycle) with no cluster of urban cases. However, the very significant spread of the Aedes aegypti mosquito across Bolivian cities threatens the country with the reappearance of an urban YFV transmission cycle and thus is required a sustained epidemiological surveillance.
  Vector borne and zoonotic diseases (Larchmont, N.Y.) 10/2010; 11(3):277-84. · 2.61 Impact Factor
• Article: The 2C putative helicase of echovirus 30 adopts a hexameric ring-shaped structure.

  Nicolas Papageorgiou, Bruno Coutard, Violaine Lantez, Eric Gautron, Olivier Chauvet, Cécile Baronti, Heléne Norder, Xavier de Lamballerie, Vasile Heresanu, Nathalie Ferté, Stéphane Veesler, Alexander E Gorbalenya, Bruno Canard
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  ABSTRACT: The 2C protein, which is an essential ATPase and one of the most conserved proteins across the Picornaviridae family, is an emerging antiviral target for which structural and functional characterization remain elusive. Based on a distant relationship to helicases of small DNA viruses, piconavirus 2C proteins have been predicted to unwind double-stranded RNAs. Here, a terminally extended variant of the 2C protein from echovirus 30 has been studied by means of enzymatic activity assays, transmission electron microscopy, atomic force microscopy and dynamic light scattering. The transmission electron-microscopy technique showed the existence of ring-shaped particles with ∼12 nm external diameter. Image analysis revealed that these particles were hexameric and resembled those formed by superfamily 3 DNA virus helicases.
  Acta crystallographica. Section D, Biological crystallography 10/2010; 66(Pt 10):1116-20. · 12.67 Impact Factor
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  Available from: insp.mx

  Article: Evolution of dengue virus in Mexico is characterized by frequent lineage replacement.

  Erik Carrillo-Valenzo, Rogelio Danis-Lozano, Jorge X Velasco-Hernández, Gilma Sánchez-Burgos, Celia Alpuche, Irma López, Claudia Rosales, Cécile Baronti, Xavier de Lamballerie, Edward C Holmes, José Ramos-Castañeda
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  ABSTRACT: Both dengue fever and its more serious clinical manifestation, dengue hemorrhagic fever, represent major public health concerns in the Americas. To understand the patterns and dynamics of virus transmission in Mexico, a country characterized by a marked increase in dengue incidence in recent years, we undertook a molecular evolutionary analysis of the largest sample of Mexican strains of dengue virus compiled to date. Our E gene data set comprises sequences sampled over a period of 27 years and representing all of the Mexican states that are endemic for dengue. Our phylogenetic analysis reveals that, for each of the four dengue viruses (DENV-1 to DENV-4), there have been multiple introductions of viral lineages in Mexico, with viruses similar to those observed throughout the Americas, but there has been strikingly little co-circulation. Rather, dengue virus evolution in Mexico is typified by frequent lineage replacement, such that only a single viral lineage dominates in a specific serotype at a specific time point. Most lineage replacement events involve members of the same viral genotype, although a replacement event involving different genotypes was observed with DENV-2, and viral lineages that are new to Mexico are described for DENV-1, DENV-3 and DENV-4.
  Archives of Virology 09/2010; 155(9):1401-12. · 2.11 Impact Factor
• Article: Nonstructural NS1 proteins of several mosquito-borne Flavivirus do not inhibit TLR3 signaling.

  Cécile Baronti, Joséphine Sire, Xavier de Lamballerie, Gilles Quérat
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  ABSTRACT: Flaviviruses are single-stranded positive RNA viruses that replicate through double stranded RNA (dsRNA) intermediates. These dsRNA may be recognized as pathogen-associated molecular patterns by cellular receptors including membrane-bound Toll-like receptor 3 (TLR3) and cytosolic helicases RIG-I and MDA5. dsRNA stimulation results in signaling cascades converging to activation of interferon (IFN) regulatory factor 3 (IRF3) and to transcriptional activation of several interferon stimulated genes, including IFNss and inflammatory cytokines. There are conflicting reports concerning the ability of West Nile virus to counteract TLR3 signaling. In our analyses, transiently or stably expressed NS1 proteins from two West Nile viruses, two dengue 2 viruses and a yellow fever virus failed to inhibit TLR3 signaling in two different mammalian cell lines. Moreover, using siRNA inhibiting the helicase signalization pathway, we show that viral infection did not impede TLR3 responses to poly(I:C). We conclude that NS1 proteins from distinct mosquito-borne flaviviruses do not inhibit TLR3 signaling.
  Virology 09/2010; 404(2):319-30. · 3.35 Impact Factor
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  Available from: Remi Charrel

  Article: The N-terminal domain of the arenavirus L protein is an RNA endonuclease essential in mRNA transcription.

  Benjamin Morin, Bruno Coutard, Michaela Lelke, François Ferron, Romy Kerber, Saïd Jamal, Antoine Frangeul, Cécile Baronti, Rémi Charrel, Xavier de Lamballerie, Clemens Vonrhein, Julien Lescar, Gérard Bricogne, Stephan Günther, Bruno Canard
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  ABSTRACT: Arenaviridae synthesize viral mRNAs using short capped primers presumably acquired from cellular transcripts by a 'cap-snatching' mechanism. Here, we report the crystal structure and functional characterization of the N-terminal 196 residues (NL1) of the L protein from the prototypic arenavirus: lymphocytic choriomeningitis virus. The NL1 domain is able to bind and cleave RNA. The 2.13 Å resolution crystal structure of NL1 reveals a type II endonuclease α/β architecture similar to the N-terminal end of the influenza virus PA protein. Superimposition of both structures, mutagenesis and reverse genetics studies reveal a unique spatial arrangement of key active site residues related to the PD…(D/E)XK type II endonuclease signature sequence. We show that this endonuclease domain is conserved and active across the virus families Arenaviridae, Bunyaviridae and Orthomyxoviridae and propose that the arenavirus NL1 domain is the Arenaviridae cap-snatching endonuclease.
  PLoS Pathogens 01/2010; 6(9):e1001038. · 9.13 Impact Factor
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  Available from: Philippe Gautret

  Article: Dengue virus type 3 infection in traveler returning from west Africa.

  Laetitia Ninove, Philippe Parola, Cécile Baronti, Xavier De Lamballerie, Philippe Gautret, Barbara Doudier, Rémi N Charrel
  Emerging Infectious Diseases 11/2009; 15(11):1871-2. · 6.79 Impact Factor
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  Available from: Mario Milani

  Article: Structure and functionality in flavivirus NS-proteins: perspectives for drug design.

  Michela Bollati, Karin Alvarez, René Assenberg, Cécile Baronti, Bruno Canard, Shelley Cook, Bruno Coutard, Etienne Decroly, Xavier de Lamballerie, Ernest A Gould, [......], Grégory Moureau, Johan Neyts, Raymond J Owens, Jingshan Ren, Barbara Selisko, Silvia Speroni, Holger Steuber, David I Stuart, Torsten Unge, Martino Bolognesi
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  ABSTRACT: Flaviviridae are small enveloped viruses hosting a positive-sense single-stranded RNA genome. Besides yellow fever virus, a landmark case in the history of virology, members of the Flavivirus genus, such as West Nile virus and dengue virus, are increasingly gaining attention due to their re-emergence and incidence in different areas of the world. Additional environmental and demographic considerations suggest that novel or known flaviviruses will continue to emerge in the future. Nevertheless, up to few years ago flaviviruses were considered low interest candidates for drug design. At the start of the European Union VIZIER Project, in 2004, just two crystal structures of protein domains from the flaviviral replication machinery were known. Such pioneering studies, however, indicated the flaviviral replication complex as a promising target for the development of antiviral compounds. Here we review structural and functional aspects emerging from the characterization of two main components (NS3 and NS5 proteins) of the flavivirus replication complex. Most of the reviewed results were achieved within the European Union VIZIER Project, and cover topics that span from viral genomics to structural biology and inhibition mechanisms. The ultimate aim of the reported approaches is to shed light on the design and development of antiviral drug leads.
  Antiviral research 11/2009; 87(2):125-48. · 3.61 Impact Factor
• Article: Molecular epidemiological analysis of dengue fever in Bolivia from 1998 to 2008.

  Yelin Roca, Cécile Baronti, Roberto Jimmy Revollo, Shelley Cook, Roxana Loayza, Laetitia Ninove, Roberto Torrez Fernandez, Jorge Vargas Flores, Jean-Pierre Herve, Xavier de Lamballerie
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  ABSTRACT: Dengue fever was first recognized in Bolivia in 1931. However, very limited information was available to date regarding the genetic characterization and epidemiology of Bolivian dengue virus strains. Here, we performed genetic characterization of the full-length envelope gene of 64 Bolivian isolates from 1998 to 2008 and investigated their origin and evolution to determine whether strains circulated simultaneously or alternatively, and whether or not multiple introductions of distinct viral variants had occurred during the period studied. We determined that, during the last decade, closely related viruses circulated during several consecutive years (5, 6, and 6 years for DENV-1, DENV-2, and DENV-3, respectively) and the co-circulation of two or even three serotypes was observed. Emergence of new variants (distinct from those identified during the previous episodes) was identified in the case of DENV-1 (2007 outbreak) and DENV-2 (2001 outbreak). In all cases, it is likely that the viruses originated from neighboring countries.
  Vector borne and zoonotic diseases (Larchmont, N.Y.) 07/2009; 9(3):337-44. · 2.61 Impact Factor