Ce. Chambers et Pa. Sokol, COMPARISON OF SIDEROPHORE PRODUCTION AND UTILIZATION IN PATHOGENIC AND ENVIRONMENTAL ISOLATES OF YERSINIA-ENTEROCOLITICA, Journal of clinical microbiology, 32(1), 1994, pp. 32-39
Yersinia enterocolitica strains of serotypes lethal to mice have been
reported previously to produce an endogenous siderophore. In this stud
y, an ethyl acetate-extractable siderophore was characterized and give
n the name yersiniophore. Yersiniophore was produced by 16 of 16 human
isolates of serotypes O:4, O:4,32, O:8, O:21, and one nonhuman isolat
e of serotype O:21. It was.not produced by isolates of serotype O:3, O
:5, or O:9. One strain of Yersinia pseudotuberculosis produced yersini
ophore, but strains of Yersinia kristensenii, Yersinia frederiksenii,
and Yersinia intermedia did not produce or utilize yersiniophore. Food
and water isolates of Y. produced a water-soluble siderophore but not
yersiniophore. Sixty-two strains of Y. enterocolitica including 42 is
olates from human infections, 2 animal isolates, and 18 water and food
isolates were examined for utilization of yersiniophore, the water-so
luble siderophore, and ferrioxamine. Yersiniophore promoted growth rat
e, iron binding, and uptake in 17 of 62 strains, all of which produced
yersiniophore. Ten of 17 food and water isolates and one human isolat
e were capable of utilizing the water-soluble siderophore. Utilization
studies suggest that at least one additional water-soluble siderophor
e may be produced. Ferrioxamine promoted the growth of 60 of 62 strain
s examined; however, only the 17 strains which produced yersiniophore
actively accumulated [Fe-59]ferrioxamine. Yersiniophore production and
utilization may be important in clinical infections since all human s
trains belonging to serotype O:8 produced yersinophore. The water-solu
ble siderophore was not detected in human isolates.