Your search keyword '"Steven Huynh"' showing total 3 results

1. Campylobacter Abundance in Breastfed Infants and Identification of a New Species in the Global Enterics Multicenter Study

Author

Xiaoming Bian, Jolene M. Garber, Kerry K. Cooper, Steven Huynh, Jennifer Jones, Michael K. Mills, Daniel Rafala, Dilruba Nasrin, Karen L. Kotloff, Craig T. Parker, Sharon M. Tennant, William G. Miller, and Christine M. Szymanski

Subjects

Campylobacter, breastfeeding, GEMS, l-fucose metabolism, “Candidatus Campylobacter infans,” gut microbiome, Microbiology, QR1-502

Abstract

ABSTRACT Campylobacter jejuni is a leading cause of bacterial diarrhea worldwide and is associated with high rates of mortality and growth stunting in children inhabiting low- to middle-resource countries. To better understand the impact of breastfeeding on Campylobacter infection in infants in sub-Saharan Africa and South Asia, we examined fecal microbial compositions, bacterial isolates, and their carbohydrate metabolic pathways in Campylobacter-positive infants

Published

2020

2. Whole-Genome Sequencing-Based Characterization of 100 Listeria monocytogenes Isolates Collected from Food Processing Environments over a Four-Year Period

Author

Daniel Hurley, Laura Luque-Sastre, Craig T. Parker, Steven Huynh, Athmanya K. Eshwar, Scott V. Nguyen, Nicholas Andrews, Alexandra Moura, Edward M. Fox, Kieran Jordan, Angelika Lehner, Roger Stephan, and Séamus Fanning

Subjects

Listeria monocytogenes, foodborne pathogens, persistence, virulence, Microbiology, QR1-502

Abstract

ABSTRACT Listeria monocytogenes is frequently found in foods and processing facilities, where it can persist, creating concerns for the food industry. Its ability to survive under a wide range of environmental conditions enhances the potential for cross-contamination of the final food products, leading to possible outbreaks of listeriosis. In this study, whole-genome sequencing (WGS) was applied as a tool to characterize and track 100 L. monocytogenes isolates collected from three food processing environments. These WGS data from environmental and food isolates were analyzed to (i) assess the genomic diversity of L. monocytogenes, (ii) identify possible source(s) of contamination, cross-contamination routes, and persistence, (iii) detect absence/presence of antimicrobial resistance-encoding genes, (iv) assess virulence genotypes, and (v) explore in vivo pathogenicity of selected L. monocytogenes isolates carrying different virulence genotypes. The predominant L. monocytogenes sublineages (SLs) identified were SL101 (21%), SL9 (17%), SL121 (12%), and SL5 (12%). Benzalkonium chloride (BC) tolerance-encoding genes were found in 62% of these isolates, a value that increased to 73% among putative persistent subgroups. The most prevalent gene was emrC followed by bcrABC, qacH-Tn6188, and qacC. The L. monocytogenes major virulence factor inlA was truncated in 31% of the isolates, and only one environmental isolate (L. monocytogenes CFS086) harbored all major virulence factors, including Listeria pathogenicity island 4 (LIPI-4), which has been shown to confer hypervirulence. A zebrafish embryo infection model showed a low (3%) embryo survival rate for all putatively hypervirulent L. monocytogenes isolates assayed. Higher embryo survival rates were observed following infection with unknown virulence potential (20%) and putatively hypovirulent (53 to 83%) L. monocytogenes isolates showing predicted pathogenic phenotypes inferred from virulence genotypes. IMPORTANCE This study extends current understanding of the genetic diversity among L. monocytogenes from various food products and food processing environments. Application of WGS-based strategies facilitated tracking of this pathogen of importance to human health along the production chain while providing insights into the pathogenic potential for some of the L. monocytogenes isolates recovered. These analyses enabled the grouping of selected isolates into three putative virulence categories according to their genotypes along with informing selection for phenotypic assessment of their pathogenicity using the zebrafish embryo infection model. It has also facilitated the identification of those isolates with genes conferring tolerance to commercially used biocides. Findings from this study highlight the potential for the application of WGS as a proactive tool to support food safety controls as applied to L. monocytogenes.

Published

2019

3. Campylobacter Abundance in Breastfed Infants and Identification of a New Species in the Global Enterics Multicenter Study

Author

Christine M. Szymanski, Jennifer A. Jones, Sharon M. Tennant, Jolene M. Garber, Steven Huynh, Karen L. Kotloff, Kerry K. Cooper, Daniel Rafala, William G. Miller, Craig T. Parker, Michael K. Mills, Xiaoming Bian, and Dilruba Nasrin

Subjects

0301 basic medicine, South asia, breastfeeding, 030106 microbiology, lcsh:QR1-502, Breastfeeding, medicine.disease_cause, Campylobacter jejuni, l-fucose metabolism, Microbiology, lcsh:Microbiology, Host-Microbe Biology, 03 medical and health sciences, Environmental health, “Candidatus Campylobacter infans,” gut microbiome, medicine, Molecular Biology, Feces, High rate, biology, Campylobacter, Infant nutrition, biology.organism_classification, QR1-502, 030104 developmental biology, Multicenter study, GEMS, Research Article

Abstract

Campylobacter is the primary cause of bacterial diarrhea in the United States and can lead to the development of the postinfectious autoimmune neuropathy known as Guillain-Barré syndrome. Also, drug-resistant campylobacters are becoming a serious concern both locally and abroad. In low- and middle-income countries (LMICs), infection with Campylobacter is linked to high rates of morbidity, growth stunting, and mortality in children, and breastfeeding is important for infant nutrition, development, and protection against infectious diseases. In this study, we examined the relationship between breastfeeding and Campylobacter infection and demonstrate the increased selection for C. jejuni and C. coli strains unable to metabolize fucose. We also identify a new Campylobacter species coinfecting these infants with a high prevalence in five of the seven countries in sub-Saharan Africa and South Asia examined. These findings indicate that more detailed studies are needed in LMICs to understand the Campylobacter infection process in order to devise a strategy for eliminating this pathogenic microbe., Campylobacter jejuni is a leading cause of bacterial diarrhea worldwide and is associated with high rates of mortality and growth stunting in children inhabiting low- to middle-resource countries. To better understand the impact of breastfeeding on Campylobacter infection in infants in sub-Saharan Africa and South Asia, we examined fecal microbial compositions, bacterial isolates, and their carbohydrate metabolic pathways in Campylobacter-positive infants

Published

2020