In a clinical isolate of Serratia marcescens different states of low and high resistance to different beta-lactam antibiotics considered to be beta-lactamase-stable, viz. cefotaxime, ceftizoxime, ceftazidime, aztreonam, cefoxitin and imipenem, were found to be connected with the presence of constitutively overproduced, chromosomally encoded beta-lactamase at concentrations in the bacterial periplasm of 0.4 and 0.9 mM, respectively. All the antibiotics were degraded by the beta-lactamase. However, kinetic constants varied widely: k(m) from 92 to 0.012 microM and k(cat) from 3.4 to 2x10(-4)s(-1). The relative contributions to resistance by the functioning of periplasmic beta-lactamase, resynthesis of this enzyme, and limitation of antibiotic penetration by the bacterial outer membrane were analysed by computer simulations according to steady-state and non-steady-state models of interactions in the periplasm. Results for cefotaxime, ceftizomime, ceftazidime, aztreonam and latamoxef revealed overproduced beta-lactamase as the sole cause of the state of low resistance while antibiotic permeability was the same as in non-resistant S. marcescens strains. In contrast, high resistance was due to beta-lactamase action and decreased permeability of antibiotics. For resistance to aztreonam, only, immobilization of the antibiotic as covalent acyl-enzyme by newly synthesized beta-lactamase was essential. For cefoxitin, ampicillin and imipenem the analyses indicated that additional resistance factors may play a role, e.g. induction of beta-lactamase.
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