g Haemophilus parasuis, the causative agent of Glässer's disease, is one of the early colonizers of the nasal mucosa of piglets. It is prevalent in swine herds, and lesions associated with disease are fibrinous polyserositis and bronchopneumonia. Antibiotics are commonly used in disease control, and resistance to several antibiotics has been described in H. parasuis. Prediction of H. parasuis virulence is currently limited by our scarce understanding of its pathogenicity. Some genes have been associated with H. parasuis virulence, such as lsgB and group 1 vtaA, while biofilm growth has been associated with nonvirulent strains. In this study, 86 H. parasuis nasal isolates from farms that had not had a case of disease for more than 10 years were obtained by sampling piglets at weaning. Isolates were studied by enterobacterial repetitive intergenic consensus PCR and determination of the presence of lsgB and group 1 vtaA, biofilm formation, inflammatory cell response, and resistance to antibiotics. As part of the diversity encountered, a novel 2,661-bp plasmid, named pJMA-1, bearing the bla ROB-1 -lactamase was detected in eight colonizing strains. pJMA-1 was shown to share a backbone with other small plasmids described in the Pasteurellaceae, to be 100% stable, and to have a lower biological cost than the previously described plasmid pB1000. pJMA-1 was also found in nine H. parasuis nasal strains from a separate collection, but it was not detected in isolates from the lesions of animals with Glässer's disease or in nontypeable Haemophilus influenzae isolates. Altogether, we show that commensal H. parasuis isolates represent a reservoir of -lactam resistance genes which can be transferred to pathogens or other bacteria.
Haemophilus parasuis is an early colonizer and a member of the normal microbiota of the upper respiratory tract of piglets. H. parasuis initial acquisition occurs through direct contact with the sow after birth, and the bacterium establishes colonization in the upper respiratory tract, with a maximum level of colonization occurring at about 2 months of age (1). Under certain circumstances, some strains spread to the lungs to cause pneumonia or invade systemic sites. Systemic invasion produces fibrinous polyserositis and arthritis, which are the characteristic lesions of Gläss-er's disease (2, 3).Although H. parasuis is an important swine pathogen, its hostpathogen interactions remain to be well understood. Different H. parasuis strains can be isolated from the nasal cavity of a given animal, and these nasal strains are not particularly stable, since they experience turnover during the life of the pigs (1, 4-6). Strains of H. parasuis are heterogeneous and include virulent and nonvirulent strains. It is common to find nonvirulent strains in the upper respiratory tract of healthy animals, but virulent strains can also be found (6). Different methods have been developed to differentiate H. parasuis strains. Genotyping methods include multilocus sequence typing (MLST) (7,8), partial sequence of the 60-...
