BACKGROUND: Helicobacter (H.) suis causes gastritis and decreased weight gain in pigs. It is also the most prevalent non-Helicobacter pylori Helicobacter species in humans with gastric disease. H. suis is extremely fastidious, and so far, biphasic culture conditions were essential for isolation and culture, making it impossible to obtain single colonies. Hence, cultures obtained from an individual animal may contain multiple H. suis strains, which is undesirable for experiments aiming for instance at investigating H. suis strain differences. MATERIALS AND METHODS: Pure cultures of H. suis were established by growing bacteria as colonies on 1% brucella agar plates, followed by purification and enrichment by biphasic subculture. Characteristics of these single colony-derived strains were compared with those of their parent strains using multilocus sequence typing (MLST) and by studying bacterium-host interactions using a gastric epithelial cell line and Mongolian gerbil model. RESULTS: The purification/enrichment procedure required a nonstop culture of several weeks. For 4 of 17 H. suis strains, MLST revealed differences between parental and single colony-derived strains. For three of four single colony-derived strains tested, the cell death-inducing capacity was higher than for the parental strain. One single colony-derived strain lost its capacity to colonize Mongolian gerbils. For the four other strains tested, colonization capacity and histopathologic changes were similar to what has been described when using strains with only a history of limited biphasic culture. CONCLUSIONS: A method was developed to obtain single colony-derived H. suis strains, but this procedure may affect the bacterial genotype and phenotype.
BACKGROUND:Helicobacter (H.) suis causes gastritis and decreased weight gain in pigs. It is also the most prevalent non-Helicobacter pyloriHelicobacter species in humans with gastric disease. H. suis is extremely fastidious, and so far, biphasic culture conditions were essential for isolation and culture, making it impossible to obtain single colonies. Hence, cultures obtained from an individual animal may contain multiple H. suis strains, which is undesirable for experiments aiming for instance at investigating H. suis strain differences. MATERIALS AND METHODS: Pure cultures of H. suis were established by growing bacteria as colonies on 1% brucella agar plates, followed by purification and enrichment by biphasic subculture. Characteristics of these single colony-derived strains were compared with those of their parent strains using multilocus sequence typing (MLST) and by studying bacterium-host interactions using a gastric epithelial cell line and Mongolian gerbil model. RESULTS: The purification/enrichment procedure required a nonstop culture of several weeks. For 4 of 17 H. suis strains, MLST revealed differences between parental and single colony-derived strains. For three of four single colony-derived strains tested, the cell death-inducing capacity was higher than for the parental strain. One single colony-derived strain lost its capacity to colonize Mongolian gerbils. For the four other strains tested, colonization capacity and histopathologic changes were similar to what has been described when using strains with only a history of limited biphasic culture. CONCLUSIONS: A method was developed to obtain single colony-derived H. suis strains, but this procedure may affect the bacterial genotype and phenotype.
Authors: Bram Flahou; Mirko Rossi; Jaco Bakker; Jan Am Langermans; Edwin Heuvelman; Jay V Solnick; Miriam E Martin; Jani O'Rourke; Le Duc Ngoan; Nguyen Xuan Hoa; Masahiko Nakamura; Anders Øverby; Hidenori Matsui; Hiroyoshi Ota; Takehisa Matsumoto; Dennis L Foss; Laurice A Kopta; Oladipo Omotosho; Maria Pia Franciosini; Patrizia Casagrande Proietti; Aizhen Guo; Han Liu; Gabriela Borilova; Ana Paula Bracarense; Sara K Lindén; Sofie De Bruyckere; Guangzhi Zhang; Chloë De Witte; Annemieke Smet; Frank Pasmans; Richard Ducatelle; Jukka Corander; Freddy Haesebrouck Journal: ISME J Date: 2017-09-08 Impact factor: 10.302
Authors: Ellen De Bruyne; Richard Ducatelle; Dennis Foss; Margaret Sanchez; Myrthe Joosten; Guangzhi Zhang; Annemieke Smet; Frank Pasmans; Freddy Haesebrouck; Bram Flahou Journal: Sci Rep Date: 2016-02-02 Impact factor: 4.379