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Genetic Diversity, Biochemical Properties, and Detection Methods of Minor Carbapenemases in Enterobacterales

Rémy A. Bonnin, Agnès B. Jousset, Cécile Emeraud, Saoussen Oueslati, Laurent Dortet, Thierry Naas

2021Frontiers in Medicine92 citationsDOIOpen Access PDF

Abstract

Gram-negative bacteria, especially Enterobacterales, have emerged as major players in antimicrobial resistance worldwide. Resistance may affect all major classes of anti-gram-negative agents, becoming multidrug resistant or even pan-drug resistant. Currently, β-lactamase-mediated resistance does not spare even the most powerful β-lactams (carbapenems), whose activity is challenged by carbapenemases. The dissemination of carbapenemases-encoding genes among Enterobacterales is a matter of concern, given the importance of carbapenems to treat nosocomial infections. Based on their amino acid sequences, carbapenemases are grouped into three major classes. Classes A and D use an active-site serine to catalyze hydrolysis, while class B (MBLs) require one or two zinc ions for their activity. The most important and clinically relevant carbapenemases are KPC, IMP/VIM/NDM, and OXA-48. However, several carbapenemases belonging to the different classes are less frequently detected. They correspond to class A (SME-, Nmc-A/IMI-, SFC-, GES-, BIC-like…), to class B (GIM, TMB, LMB…), class C (CMY-10 and ACT-28), and to class D (OXA-372). This review will address the genetic diversity, biochemical properties, and detection methods of minor acquired carbapenemases in Enterobacterales.

Topics & Concepts

BiologyEnterobacter cloacaeGram-negative bacteriaGenetic diversityGeneAntimicrobialKlebsiella pneumoniaeMicrobiologyGeneticsEscherichia coliMedicinePopulationEnvironmental healthAntibiotic Resistance in BacteriaEnterobacteriaceae and Cronobacter ResearchPharmaceutical and Antibiotic Environmental Impacts
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