Séverine Margeridon scite author profile

Séverine Margeridon

4Publications

72Citation Statements Received

49Citation Statements Given

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Affiliations

Inserm, Claude Bernard University Lyon 1, Institut Pasteur de la Guadeloupe

Publications

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Rolling Circle Amplification, a Powerful Tool for Genetic and Functional Studies of Complete Hepatitis B Virus Genomes from Low-Level Infections and for Directly Probing Covalently Closed Circular DNA

Margeridon

Carrouée-Durantel²,

Chemin

et al. 2008

Antimicrob Agents Chemother

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Complete characterization of the biological properties of hepatitis B virus (HBV) variants requires the generation of full-length genomes. The aim of this study was to develop new tools for the efficient full-length genome amplification of virus from samples with low viral loads. Rolling circle amplification (RCA) was used to amplify full-length HBV genomes from both sera and liver biopsy samples from chronic HBV carriers. Serum-derived relaxed circular HBV DNA could be amplified only after completion and ligation of plus-strand DNA. Covalently closed circular DNA (cccDNA) from liver biopsies could be amplified directly from as few as 13 copies, using RCA, followed by a full-length HBV PCR. Three serial liver biopsy samples were obtained from a lamivudine-resistant patient who cleared detectable serum HBV after adefovir dipivoxil was added to the lamivudine therapy and then seroconverted to anti-HBs. Only the genomes from the last biopsy specimen obtained after the emergence of lamivudine resistance contained the lamivudine resistance-associated mutations rtL180M and rtM204V ("rt" indicates reverse transcriptase domain). Defective genomes were also found in this biopsy sample. Genomes cloned from the liver biopsy specimens were transfected into HuH7 cells to study their replication competence and their susceptibility to lamivudine. RCA is a powerful tool for amplifying full-length HBV genomes and will be especially useful for the study of occult or inactive HBV infections and patients undergoing antiviral treatment. It can also be used to probe HBV cccDNA, the crucial intermediate in viral persistence and the archive of resistance mutations. Chronic hepatitis B virus (HBV) infection is widespread,with an estimated 370 million carriers worldwide (1). Despite constraints imposed by a complex genetic architecture involving overlapping genes, the virus is highly variable, with eight known genotypes designated A to H (20).The complete molecular and biological characterization of HBV variants requires the isolation of full-length genomes. This has been done classically by amplifying overlapping fragments from serum-derived relaxed circular genomes (RC-DNA) (4, 21). However, the discontinuous structure of RC-DNA means that the amplification of at least one of the fragments can be problematical. Increasing the number of PCRs ineluctably augments the probability of incorporating PCR errors, and further steps are necessary to construct a full-length HBV genome. Günther et al. have developed an elegant method for amplifying full-length HBV genomes in a one-step PCR (7). However, this method requires serum with viral loads of Ͼ10 4 copies/ml of HBV DNA. In typical chronic HBV infections, viral loads usually range from 10 6 to 10 10 copies/ml. However, for inactive carriers (individuals who are hepatitis B surface antigen positive [HBsAg ϩ ]) with minimal virus replication and for occult HBV-infected patients (HBsAg Ϫ ), serum HBV DNA levels are usually very much lower. Consequently, few occult HBV infections have been studi...

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A quasi-monoclonal anti-HBs response can lead to immune escape of ‘wild-type’ hepatitis B virus

Margeridon

Lachaux

Trépo

et al. 2005

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Hepatitis B virus (HBV) infections can be prevented or controlled by the host humoral immune response (anti-HBs) directed against the major surface antigen (HBsAg), elicited either naturally or by vaccination. A chronic HBV carrier was found to have high levels of both virus and anti-HBs. Full-length HBV genomes were amplified from the patient's serum, sequenced and cloned. The genome was 'wild-type' HBV of genotype C and serotype adr. The sequence has remained stable, with no signs of emergence of an immune-escape mutant population. To study what was recognized by the patient's serum, viral particles were 35 S-labelled and then immunoprecipitated by using the patient's serum or control sera. The patient's serum immunoprecipitated the adr HBsAg encoded by his HBV genome poorly, but efficiently recognized HBsAg of serotype ayw. When his HBV genome was modified by a point mutation to express HBsAg of serotype ayr, the patient's serum could recognize the antigen, as well as the control anti-HBs-positive serum. The patient appeared to have made a quasi-monoclonal humoral response to the y epitope. By switching to the d epitope, which requires only a point mutation, the virus could replicate, despite the high levels of anti-HBs. This study underlines the subtleties of virus-host interactions. Implications for HBV vaccination are discussed.

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Seroepidemiology of Helicobacter pylori infection in Guadeloupe

Weill

Margeridon

Broutet³

et al. 2002

Transactions of the Royal Society of Tropical Medicine and Hygi

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P0314 Persistence of Hepatitis B Infection Despite a High Level of HBS Antibodies

Margeridon

Lachaux

Trépo

et al. 2004

Journal of Pediatric Gastroenterology and Nutrition

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