Nyúl eredetű Bordetella bronchiseptica törzsek virulencia faktorainak fenotípusos vizsgálata
Megtekintés/ Megnyitás
Dátum
2017-12Szerző
Khayer, Bernadett
Görföl-Sulyok, Kinga Mária
Wehmann, Enikő
Szabó, Réka
Magyar, Tibor
Metaadat
Részletes rekordAbsztrakt
SUMMARY
Background: Bordetella bronchiseptica is a widespread pathogen bacterium
causing various respiratory diseases in mammals. Little is known about the
background of infection of rabbits by B. bronchiseptica, although both asymp tomatic carriage and clinical manifestation of the disease generate economic
losses for breeders. Moreover, rabbits as companion animals imply zoonotic risk,
as well.
Objectives: In this work, the phases of infection by B. bronchiseptica strains
were investigated.
Materials and methods: 40 B. bronchiseptica strains, isolated between 1984
and 2011 from rabbits in Hungary and other countries, were used in this study.
The reach of the host was examined by motility assay under various circum stances (LB-37; LB-24; LB+MgSO4-37; LB+MgSO4-24). Adhesion was modelled by
haemagglutination using rabbit, cattle and sheep erythrocytes, and the produc tion of adenylate cyclase-haemolysin toxin was studied by haemolysis.
Results and Discussion: Most of the strains proved to be motile under all
examined circumstances, but the greatest motility zones were measured after
incubation at 37 °C on LB agar. Only one of the strains did not agglutinate any
of the four types of erythrocytes. Rabbit erythrocytes were agglutinated by
the highest number of strains. The lowest number of reactions were seen with
cattle erythrocytes. Haemolysis was strongest on Columbia agar supplemented
with 5% sheep blood. Supplementation with 5% horse blood resulted in weaker
haemolysis. Haemolytic activity was not consistent between different passages
of any strain.
Results have shown that there are no signifi cant differences between Hungarian
and foreign B. bronchiseptica strains. However, the behaviour and virulence of
the strains is considerably infl uenced by environmental parameters.