Gil H. Choi scite author profile

Objective. To identify and characterize a fully human antibody directed against B lymphocyte stimulator (BLyS), a tumor necrosis factor-related cytokine that plays a critical role in the regulation of B cell maturation and development. Elevated levels of BLyS have been implicated in the pathogenesis of autoimmune diseases.Methods. A human phage display library was screened for antibodies against human BLyS. A human monoclonal antibody, LymphoStat-B, specific for human BLyS was obtained from the library screening and subsequent affinity optimization mutagenesis. The antibody was tested for inhibition of human BLyS in vitro and in an in vivo murine model. Additionally, the consequences of BLyS inhibition were tested in vivo by administration of LymphoStat-B to cynomolgus monkeys.Results. LymphoStat-B bound with high affinity to human BLyS and inhibited the binding of BLyS to its

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Hypovirulence of Chestnut Blight Fungus Conferred by an Infectious Viral cDNA

Choi

Nuss

1992

Science

330

248

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Strains of the chestnut blight fungus Cryphonectria parasitica that contain viral double-stranded RNAs often exhibit reduced virulence. Such hypovirulent strains act as biocontrol agents by virtue of their ability to convert virulent strains to hypovirulence after anastomosis. Transformation of virulent C. parasitica strains with a full-length complementary DNA copy of a hypovirulence-associated viral RNA conferred the complete hypovirulence phenotype. Cytoplasmic double-stranded RNA was resurrected from the chromosomally integrated complementary DNA copy and was able to convert compatible virulent strains to hypovirulence. These results establish viral double-stranded RNA as the casual agent of hypovirulence and demonstrate the feasibility of engineering hypovirulent fungal strains.

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Use of a Whole Genome Approach To Identify Vaccine Molecules Affording Protection against Streptococcus pneumoniae Infection

Wizemann¹,

Heinrichs²,

Adamou³

et al. 2001

Infect Immun

335

223

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Microbial targets for protective humoral immunity are typically surface-localized proteins and contain common sequence motifs related to their secretion or surface binding. Exploiting the whole genome sequence of the human bacterial pathogen Streptococcus pneumoniae, we identified 130 open reading frames encoding proteins with secretion motifs or similarity to predicted virulence factors. Mice were immunized with 108 of these proteins, and 6 conferred protection against disseminated S. pneumoniae infection. Flow cytometry confirmed the surface localization of several of these targets. Each of the six protective antigens showed broad strain distribution and immunogenicity during human infection. Our results validate the use of a genomic approach for the identification of novel microbial targets that elicit a protective immune response. These new antigens may play a role in the development of improved vaccines against S. pneumoniae.Streptococcus pneumoniae (the pneumococcus) is the leading cause of bacterial sepsis, pneumonia, meningitis, and otitis media in young children in the United States. Annually, 7,000,000 middle-ear infections are ascribed to this organism (4). The vaccines in current use are formulations of capsular carbohydrate from the 23 serotypes responsible for 85 to 90% of infections in the United States, but these vaccines are poorly efficacious in infants and the elderly, the populations that are most at risk (1). A heptavalent-capsular-carbohydrate vaccine conjugated to the protein carrier CRM197 has been shown to be well tolerated and efficacious against invasive disease caused by the seven vaccine serotype strains (3) and has recently been approved for use in young children. However, this type of vaccine has several potential limitations, including serotype replacement by strains that are not represented (14).The advent of whole-genome sequencing of microbes, including microbial pathogens, has revolutionized the methods by which these organisms are studied and has heightened expectations regarding the ability to predict potential targets for antimicrobial agents and vaccines (2,12,20). We combined sequence scanning for prediction of surface-localized proteins with an animal model which allowed us to directly screen proteins for vaccine efficacy to identify novel vaccine candidates from the genome sequence of S. pneumoniae. Here we describe the use of a clinically relevant animal model for the evaluation of the vaccine efficacy of proteins identified from the genome sequence of pneumococcus. This approach was validated by the discovery of five previously unidentified genes whose products induced immune responses that protected mice from pneumococcal infection. Similar sequence scanning methods were recently used to identify potential vaccine candidates from the genomic sequence of the gram-negative pathogen Neisseria meningitidis (21) predicted by in vitro correlates of vaccine effectiveness. Here we expand upon the use of genomics to directly demonstrate vaccine efficacy in an animal model for...

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A single Argonaute gene is required for induction of RNA silencing antiviral defense and promotes viral RNA recombination

Sun

Choi

Nuss

2009

Proc. Natl. Acad. Sci. U.S.A.

143

191

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Dicer gene dcl2, required for the RNA silencing antiviral defense response in the chestnut blight fungus Cryphonectria parasitica, is inducible upon mycovirus infection and promotes viral RNA recombination. We now report that the antiviral defense response requires only one of the four C. parasitica Argonaute-like protein genes, agl2. The agl2 gene is required for the virus-induced increase in dcl2 transcript accumulation. Agl2 and dcl2 transcripts accumulated to much higher levels in response to hairpin RNA production or infection by a mutant CHV1-EP713 hypovirus lacking the suppressor of RNA silencing p29 than to wild-type CHV1-EP713. Similar results were obtained for an agl2-promoter/EGFP-reporter construct, indicating that p29-mediated repression of agl2 transcript accumulation is promoter-dependent. Significantly, the agl2 deletion mutant exhibited stable maintenance of non-viral sequences in recombinant hypovirus RNA virus vectors and the absence of hypovirus-defective interfering (DI) RNA production. These results establish a key role for an Argonaute gene in the induction of an RNA silencing antiviral defense response and the promotion of viral RNA recombination. They also provide evidence for a mechanism by which a virus-encoded RNA silencing suppressor represses the transcriptional induction of an RNA silencing component.Cryphonectria parasitica ͉ mycovirus ͉ defective interfering RNA ͉ silencing suppressor ͉ RNA virus vector A n RNA-based antiviral defense response, related to RNA interference (1), serves as a key component of the innate immunity repertoire in plants, invertebrates, and fungi (2, 3). Common elements of this response across Kingdoms include the action of conserved ribonucleases: members of the Dicer-like and Argonaute-like protein families (4). Dicer nucleases recognize viral double-stranded (ds) and structured RNAs and use the associated RNase III-type activity to process these RNAs into small RNAs of 21-24 nts in length, termed virus-derived small (vs) RNAs. The vsRNAs are incorporated into an effector complex with the aid of an Argonaute family protein. One strand of the vsRNA is removed and the remaining guide strand then targets the effector complex to the cognate viral RNA, which is cleaved, or sliced, by the Argonaute-associated RNase H-like activity.Four Dicer proteins drive the RNA silencing pathways in the model plant, Arabidopsis thaliana (5). All four Dicers have been implicated in antiviral RNA silencing (3, 6-8). Studies with Drosophila melanogaster (9, 10) and with mosquitoes (11) have identified a role for Dicer-2, the Dicer involved in siRNA production, in insect antiviral defense. The contribution to antiviral defense of the second Dicer, Dicer-1, remains unclear due to its essential role in microRNA processing and development (12).Antiviral RNA silencing has been demonstrated in the filamentous Ascomycete fungi Cryphonectria parasitica, the chestnut blight fungus (13), and Aspergillus nidulans (14). Only one of the two C. parasitica Dicer genes, dcl2, was shown to be...

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Gil H. Choi

Generation and characterization of LymphoStat‐B, a human monoclonal antibody that antagonizes the bioactivities of B lymphocyte stimulator

Hypovirulence of Chestnut Blight Fungus Conferred by an Infectious Viral cDNA

Use of a Whole Genome Approach To Identify Vaccine Molecules Affording Protection against Streptococcus pneumoniae Infection

A single Argonaute gene is required for induction of RNA silencing antiviral defense and promotes viral RNA recombination

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