Karim Abid scite author profile

Chronic liver disease caused by infection with hepatitis C virus (HCV) is an important global health problem that currently affects 170 million people. A major impediment in HCV research and drug development has been the lack of culture systems supporting virus production. This obstacle was recently overcome by using JFH1-based full-length genomes that allow production of viruses infectious both in vitro and in vivo. Although this improvement was important, because of the restriction to the JFH1 isolate and a single chimera consisting of J6CF and JFH1-derived sequences, broadly based comparative studies between different HCV strains were not possible. Therefore, in this study we created a series of further chimeric genomes allowing production of infectious genotype (GT) 1a, 1b, 2a, and 3a particles. With the exception of the GT3a͞JFH1 chimera, efficient virus production was obtained when the genome fragments were fused via a site located right after the first transmembrane domain of NS2. The most efficient construct is a GT2a͞2a chimera consisting of J6CF-and JFH1-derived sequences connected via this junction. This hybrid, designated Jc1, yielded infectious titers 100 -to 1,000-fold higher than the parental isolate and all other chimeras, suggesting that determinants within the structural proteins govern kinetic and efficiency of virus assembly and release. Finally, we describe an E1-specific antiserum capable of neutralizing infectivity of all HCV chimeras.cross-neutralization ͉ cell culture system ͉ infection

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Hepatocyte steatosis is a cytopathic effect of hepatitis C virus genotype 3

Rubbia‐Brandt¹,

Quadri²,

Abid³

et al. 2000

Journal of Hepatology

535

437

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The prion strain phenomenon: Molecular basis and unprecedented features

Morales

Abid

Soto

2007

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

147

144

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Prions are unconventional infectious agents responsible for transmissible spongiform encephalopathies. Compelling evidences indicate that prions are composed exclusively by a misfolded form of the prion protein (PrP(Sc)) that replicates in the absence of nucleic acids. One of the most challenging problems for the prion hypothesis is the existence of different strains of the infectious agent. Prion strains have been characterized in most of the species. Biochemical characteristics of PrP(Sc) used to identify each strain include glycosylation profile, electrophoretic mobility, protease resistance, and sedimentation. In vivo, prion strains can be differentiated by the clinical signs, incubation period after inoculation and the lesion profiles in the brain of affected animals. Sources of prion strain diversity are the inherent conformational flexibility of the prion protein, the presence of PrP polymorphisms and inter-species transmissibility. The existence of the strain phenomenon is not only a scientific challenge, but it also represents a serious risk for public health. The dynamic nature and inter-relations between strains and the potential for the generation of a large number of new prion strains is the perfect recipe for the emergence of extremely dangerous new infectious agents.

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An in vitro model of hepatitis C virus genotype 3a-associated triglycerides accumulation

Abid¹,

Pazienza²,

Gottardi³

et al. 2005

Journal of Hepatology

153

117

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Protein Misfolding Cyclic Amplification for Diagnosis and Prion Propagation Studies

Castilla¹,

Saá²,

Morales³

et al. 2006

123

107

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Diverse human disorders are thought to arise from the misfolding and aggregation of an underlying protein. Among them, prion diseases are some of the most intriguing disorders that can be transmitted by an unprecedented infectious agent, termed prion, composed mainly (if not exclusively) of the misfolded prion protein. The hallmark event in the disease is the conversion of the native prion protein into the disease-associated misfolded protein. We have recently described a novel technology to mimic the prion conversion process in vitro. This procedure, named protein misfolding cyclic amplification (PMCA), conceptually analogous to DNA amplification by polymerase chain reaction (PCR), has important applications for research and diagnosis. In this chapter we describe the rational behind PMCA and some of the many potential applications of this novel technology. We also describe in detail the technical and methodological aspects of PMCA, as well as its application in automatic and serial modes that have been developed with a view to improving disease diagnosis.

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Karim Abid

Construction and characterization of infectious intragenotypic and intergenotypic hepatitis C virus chimeras

Hepatocyte steatosis is a cytopathic effect of hepatitis C virus genotype 3

The prion strain phenomenon: Molecular basis and unprecedented features

An in vitro model of hepatitis C virus genotype 3a-associated triglycerides accumulation

Protein Misfolding Cyclic Amplification for Diagnosis and Prion Propagation Studies

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