Molecular cloning and expression of genetic determinants for the iron uptake system mediated by the Vibrio anguillarum plasmid pJM1.

AUTOR(ES)

Tolmasky, M E

RESUMO

Plasmid pJM1 from an invasive strain of Vibrio anguillarum encodes an iron uptake system which mediates the biosynthesis of a siderophore and a membrane receptor for the iron-siderophore complex. This system has been associated with the ability of V. anguillarum to cause hemorrhagic septicemic disease in marine fish. Recombinant derivatives containing essential regions of the pJM1-mediated iron uptake system cloned into cosmid vector pVK102 were introduced into low-virulence iron uptake-deficient V. anguillarum strains by using a trifactor mating procedure with helper plasmid pRK2013. Three recombinant clones, pJHC-T7, pJHC-T11, and pJHC-T2612, possessed genetic determinants for receptor activity. Production of receptor activity was correlated in all three cases with the presence of OM2, an 86-kilodalton outer membrane protein which was induced under iron-limiting conditions. Two of the clones, pJHC-T7 and pJHC-T2612, also coded for the production of siderophore activity, although at a much lower level than the wild type. Strains harboring either of these two clones were still unable to grow under iron-limiting conditions. This inability was overcome only when other indigenous pJM1 derivatives were present in the cells in addition to the recombinant cosmids. This restoration of high siderophore production and ability to grow under iron-limiting conditions was achieved even when the indigenous plasmids possessed lesions in genes involved in siderophore activity or in both siderophore and receptor production. Thus, another function mediated by plasmid pJM1, possibly a transacting factor, may play a role in the regulation of siderophore production. Results of experimental infections demonstrated that restoration of the ability to grow under conditions of iron limitations by introduction of an recombinant clone into one of the low-virulence V. anguillarum strains was correlated with an increase in bacterial pathogenicity.

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