Your search keyword '"David Wentworth"' showing total 5 results

1. Microbiome disturbance and resilience dynamics of the upper respiratory tract during influenza A virus infection

Author

Drishti Kaul, Raveen Rathnasinghe, Marcela Ferres, Gene S. Tan, Aldo Barrera, Brett E. Pickett, Barbara A. Methe, Suman R. Das, Isolda Budnik, Rebecca A. Halpin, David Wentworth, Mirco Schmolke, Ignacio Mena, Randy A. Albrecht, Indresh Singh, Karen E. Nelson, Adolfo García-Sastre, Chris L. Dupont, and Rafael A. Medina

Subjects

Science

Abstract

Influenza A virus (IAV) infection can be exacerbated by bacterial co-infections but the effect of IAV on the upper respiratory tract (URT) microbiome remains unclear. Here, the authors compare the dynamics of the UTR microbiome in IAV-infected ferrets and humans, finding similar trends at the ecosystem and individual taxon level in both hosts.

Published

2020

2. Author Correction: Microbiome disturbance and resilience dynamics of the upper respiratory tract during influenza A virus infection

Author

Drishti Kaul, Raveen Rathnasinghe, Marcela Ferres, Gene S. Tan, Aldo Barrera, Brett E. Pickett, Barbara A. Methe, Suman R. Das, Isolda Budnik, Rebecca A. Halpin, David Wentworth, Mirco Schmolke, Ignacio Mena, Randy A. Albrecht, Indresh Singh, Karen E. Nelson, Adolfo García-Sastre, Chris L. Dupont, and Rafael A. Medina

Subjects

Science

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

3. Standardized metadata for human pathogen/vector genomic sequences.

Author

Vivien G Dugan, Scott J Emrich, Gloria I Giraldo-Calderón, Omar S Harb, Ruchi M Newman, Brett E Pickett, Lynn M Schriml, Timothy B Stockwell, Christian J Stoeckert, Dan E Sullivan, Indresh Singh, Doyle V Ward, Alison Yao, Jie Zheng, Tanya Barrett, Bruce Birren, Lauren Brinkac, Vincent M Bruno, Elizabet Caler, Sinéad Chapman, Frank H Collins, Christina A Cuomo, Valentina Di Francesco, Scott Durkin, Mark Eppinger, Michael Feldgarden, Claire Fraser, W Florian Fricke, Maria Giovanni, Matthew R Henn, Erin Hine, Julie Dunning Hotopp, Ilene Karsch-Mizrachi, Jessica C Kissinger, Eun Mi Lee, Punam Mathur, Emmanuel F Mongodin, Cheryl I Murphy, Garry Myers, Daniel E Neafsey, Karen E Nelson, William C Nierman, Julia Puzak, David Rasko, David S Roos, Lisa Sadzewicz, Joana C Silva, Bruno Sobral, R Burke Squires, Rick L Stevens, Luke Tallon, Herve Tettelin, David Wentworth, Owen White, Rebecca Will, Jennifer Wortman, Yun Zhang, and Richard H Scheuermann

Subjects

Medicine, Science

Abstract

High throughput sequencing has accelerated the determination of genome sequences for thousands of human infectious disease pathogens and dozens of their vectors. The scale and scope of these data are enabling genotype-phenotype association studies to identify genetic determinants of pathogen virulence and drug/insecticide resistance, and phylogenetic studies to track the origin and spread of disease outbreaks. To maximize the utility of genomic sequences for these purposes, it is essential that metadata about the pathogen/vector isolate characteristics be collected and made available in organized, clear, and consistent formats. Here we report the development of the GSCID/BRC Project and Sample Application Standard, developed by representatives of the Genome Sequencing Centers for Infectious Diseases (GSCIDs), the Bioinformatics Resource Centers (BRCs) for Infectious Diseases, and the U.S. National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health (NIH), informed by interactions with numerous collaborating scientists. It includes mapping to terms from other data standards initiatives, including the Genomic Standards Consortium's minimal information (MIxS) and NCBI's BioSample/BioProjects checklists and the Ontology for Biomedical Investigations (OBI). The standard includes data fields about characteristics of the organism or environmental source of the specimen, spatial-temporal information about the specimen isolation event, phenotypic characteristics of the pathogen/vector isolated, and project leadership and support. By modeling metadata fields into an ontology-based semantic framework and reusing existing ontologies and minimum information checklists, the application standard can be extended to support additional project-specific data fields and integrated with other data represented with comparable standards. The use of this metadata standard by all ongoing and future GSCID sequencing projects will provide a consistent representation of these data in the BRC resources and other repositories that leverage these data, allowing investigators to identify relevant genomic sequences and perform comparative genomics analyses that are both statistically meaningful and biologically relevant.

Published

2014

4. Innate immune response of human alveolar macrophages during influenza A infection.

Author

Jieru Wang, Mrinalini P Nikrad, Emily A Travanty, Bin Zhou, Tzulip Phang, Bifeng Gao, Taylor Alford, Yoko Ito, Piruz Nahreini, Kevan Hartshorn, David Wentworth, Charles A Dinarello, and Robert J Mason

Subjects

Medicine, Science

Abstract

Alveolar macrophages (AM) are one of the key cell types for initiating inflammatory and immune responses to influenza virus in the lung. However, the genome-wide changes in response to influenza infection in AM have not been defined. We performed gene profiling of human AM in response to H1N1 influenza A virus PR/8 using Affymetrix HG-U133 Plus 2.0 chips and verified the changes at both mRNA and protein levels by real-time RT-PCR and ELISA. We confirmed the response with a contemporary H3N2 influenza virus A/New York/238/2005 (NY/238). To understand the local cellular response, we also evaluated the impact of paracrine factors on virus-induced chemokine and cytokine secretion. In addition, we investigated the changes in the expression of macrophage receptors and uptake of pathogens after PR/8 infection. Although macrophages fail to release a large amount of infectious virus, we observed a robust induction of type I and type III interferons and several cytokines and chemokines following influenza infection. CXCL9, 10, and 11 were the most highly induced chemokines by influenza infection. UV-inactivation abolished virus-induced cytokine and chemokine response, with the exception of CXCL10. The contemporary influenza virus NY/238 infection of AM induced a similar response as PR/8. Inhibition of TNF and/or IL-1β activity significantly decreased the secretion of the proinflammatory chemokines CCL5 and CXCL8 by over 50%. PR/8 infection also significantly decreased mRNA levels of macrophage receptors including C-type lectin domain family 7 member A (CLEC7A), macrophage scavenger receptor 1 (MSR1), and CD36, and reduced uptake of zymosan. In conclusion, influenza infection induced an extensive proinflammatory response in human AM. Targeting local components of innate immune response might provide a strategy for controlling influenza A infection-induced proinflammatory response in vivo.

Published

2012

5. Decreased serologic response in vaccinated military recruits during 2011 correspond to genetic drift in concurrent circulating pandemic A/H1N1 viruses.

Author

Dennis J Faix, Anthony W Hawksworth, Christopher A Myers, Christian J Hansen, Ryan G Ortiguerra, Rebecca Halpin, David Wentworth, Laura A Pacha, Erica G Schwartz, Shawn M S Garcia, Angelia A Eick-Cost, Christopher D Clagett, Surender Khurana, Hana Golding, and Patrick J Blair

Subjects

Medicine, Science

Abstract

Population-based febrile respiratory illness surveillance conducted by the Department of Defense contributes to an estimate of vaccine effectiveness. Between January and March 2011, 64 cases of 2009 A/H1N1 (pH1N1), including one fatality, were confirmed in immunized recruits at Fort Jackson, South Carolina, suggesting insufficient efficacy for the pH1N1 component of the live attenuated influenza vaccine (LAIV).To test serologic protection, serum samples were collected at least 30 days post-vaccination from recruits at Fort Jackson (LAIV), Parris Island (LAIV and trivalent inactivated vaccine [TIV]) at Cape May, New Jersey (TIV) and responses measured against pre-vaccination sera. A subset of 78 LAIV and 64 TIV sera pairs from recruits who reported neither influenza vaccination in the prior year nor fever during training were tested by microneutralization (MN) and hemagglutination inhibition (HI) assays. MN results demonstrated that seroconversion in paired sera was greater in those who received TIV versus LAIV (74% and 37%). Additionally, the fold change associated with TIV vaccination was significantly different between circulating (2011) versus the vaccine strain (2009) of pH1N1 viruses (ANOVA p value = 0.0006). HI analyses revealed similar trends. Surface plasmon resonance (SPR) analysis revealed that the quantity, IgG/IgM ratios, and affinity of anti-HA antibodies were significantly greater in TIV vaccinees. Finally, sequence analysis of the HA1 gene in concurrent circulating 2011 pH1N1 isolates from Fort Jackson exhibited modest amino acid divergence from the vaccine strain.Among military recruits in 2011, serum antibody response differed by vaccine type (LAIV vs. TIV) and pH1N1 virus year (2009 vs. 2011). We hypothesize that antigen drift in circulating pH1N1 viruses contributed to reduce vaccine effectiveness at Fort Jackson. Our findings have wider implications regarding vaccine protection from circulating pH1N1 viruses in 2011-2012.

Published

2012