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  2. Group 1 beta-lactamases of Aeromonas caviae and their resistance to beta-lactam antibiotics

Group 1 beta-lactamases of Aeromonas caviae and their resistance to beta-lactam antibiotics

  • Can J Microbiol. 2003 Mar;49(3):207-15. doi: 10.1139/w03-030.
P A Lupiola-Gómez 1 Z González-Lama M T Tejedor-Junco M González-Martín J L Martín-Barrasa
Affiliations

Affiliation

  • 1 Departamento de Microbiología, Facultad de Veterinaria, Universidad de Las Palmas de Gran Canaria, P.O. Box 550, 35080 Las Palmas de Gran Canaria, Canary Islands, Spain.
Abstract

The contribution of beta-lactamase production to beta-lactam Antibiotic resistance was examined in an Aeromonas caviae mutant strain, selected in vitro by cefotaxime and derived from a wild-type strain isolated in our laboratory from crude sewage. Both strains produced beta-lactamase. The mutant strain (AC7m) produced beta-lactamase constitutively, in contrast to the parental strain (AC7), which was inducible by cefoxitin. AC7m was regarded as a mutant from AC7, which over-expressed beta-lactamase. The mutant strain showed a remarkable reduction in sensitivity to most of the Beta-lactam Antibiotics tested, such as (i) aminopenicillins and their combinations with clavulanic acid and sulbactam, (ii) carboxypenicillins, (iii) ureidopenicillins, and (iv) cephalosporins. This strain remained susceptible to ceftazidime, imipenem, and aztreonam. Isoelectric focusing of sonic extracts revealed that both strains AC7 and AC7m shared a common major beta-lactamase band at pI 6.5. The plasmid DNA assays showed that the beta-lactamases expressed by each A. caviae strain were chromosomally encoded. Based on substrate and inhibitor profiles determined in sonic extracts for AC7 and AC7m, the enzymes displayed on isoelectric focusing at pI 6.5 were assigned to chromosomal Group 1 beta-lactamases. Imipenem would therefore be the appropriate choice for therapy of infections caused by A. caviae beta-lactamase over-expressing mutants.

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