Your search keyword '"Berthenet E"' showing total 2 results

1. A GWAS on Helicobacter pylori strains points to genetic variants associated with gastric cancer risk.

Author

Berthenet E, Yahara K, Thorell K, Pascoe B, Meric G, Mikhail JM, Engstrand L, Enroth H, Burette A, Megraud F, Varon C, Atherton JC, Smith S, Wilkinson TS, Hitchings MD, Falush D, and Sheppard SK

Subjects

Gastritis etiology, Humans, Metaplasia etiology, Polymorphism, Single Nucleotide, Risk, Stomach Neoplasms epidemiology, Virulence Factors genetics, Genetic Variation, Genome, Bacterial, Genome-Wide Association Study, Helicobacter pylori genetics, Stomach Neoplasms microbiology

Abstract

Background: Helicobacter pylori are stomach-dwelling bacteria that are present in about 50% of the global population. Infection is asymptomatic in most cases, but it has been associated with gastritis, gastric ulcers and gastric cancer. Epidemiological evidence shows that progression to cancer depends upon the host and pathogen factors, but questions remain about why cancer phenotypes develop in a minority of infected people. Here, we use comparative genomics approaches to understand how genetic variation amongst bacterial strains influences disease progression., Results: We performed a genome-wide association study (GWAS) on 173 H. pylori isolates from the European population (hpEurope) with known disease aetiology, including 49 from individuals with gastric cancer. We identified SNPs and genes that differed in frequency between isolates from patients with gastric cancer and those with gastritis. The gastric cancer phenotype was associated with the presence of babA and genes in the cag pathogenicity island, one of the major virulence determinants of H. pylori, as well as non-synonymous variations in several less well-studied genes. We devised a simple risk score based on the risk level of associated elements present, which has the potential to identify strains that are likely to cause cancer but will require refinement and validation., Conclusion: There are a number of challenges to applying GWAS to bacterial infections, including the difficulty of obtaining matched controls, multiple strain colonization and the possibility that causative strains may not be present when disease is detected. Our results demonstrate that bacterial factors have a sufficiently strong influence on disease progression that even a small-scale GWAS can identify them. Therefore, H. pylori GWAS can elucidate mechanistic pathways to disease and guide clinical treatment options, including for asymptomatic carriers.

Published

2018

2. Recent "omics" advances in Helicobacter pylori.

Author

Berthenet E, Sheppard S, and Vale FF

Subjects

Evolution, Molecular, Genes, Bacterial, Helicobacter pylori pathogenicity, Helicobacter pylori physiology, Humans, Interspersed Repetitive Sequences, Genome, Bacterial, Helicobacter pylori genetics, Sequence Analysis, DNA, Transcriptome

Abstract

The development of high-throughput whole genome sequencing (WGS) technologies is changing the face of microbiology, facilitating the comparison of large numbers of genomes from different lineages of a same organism. Our aim was to review the main advances on Helicobacter pylori "omics" and to understand how this is improving our knowledge of the biology, diversity and pathogenesis of H. pylori. Since the first H. pylori isolate was sequenced in 1997, 510 genomes have been deposited in the NCBI archive, providing a basis for improved understanding of the epidemiology and evolution of this important pathogen. This review focuses on works published between April 2015 and March 2016. Helicobacter "omics" is already making an impact and is a growing research field. Ultimately these advances will be translated into a routine clinical laboratory setting in order to improve public health., (© 2016 John Wiley & Sons Ltd.)

Published

2016