Mechanisms of Action of Carbapenem Resistance

Aurilio, Caterina; Sansone, Pasquale; Barbarisi, Manlio; Pota, Vincenzo; Giaccari, Luca Gregorio; Coppolino, Francesco; Barbarisi, Alfonso; Passavanti, Maria Beatrice; Pace, Maria Caterina

doi:10.3390/antibiotics11030421

Cited by 79 publications

(57 citation statements)

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“…It bind to the bacterial cell wall and inhibits growth. It also results in damage to the cell wall, which frequently leads to cell lysis and death [ 13 , 72 , 73 ]. Carbapenem resistance may be caused by different mechanisms, one of them being inducible overexpression of chromosomal cephalosporinases combined with porin loss [ 74 , 75 ].…”

Section: Discussionmentioning

confidence: 99%

Antimicrobial resistance among GLASS pathogens in Morocco: an epidemiological scoping review

et al. 2022

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Background Monitoring of antimicrobial resistance (AMR) is of great importance due to the frequency of strains becoming increasingly resistant to antibiotics. This review, using a public health focused approach, which aims to understand and describe the current status of AMR in Morocco in relation to WHO priority pathogens and treatment guidelines. Methods PubMed, ScienceDirect and Google Scholar Databases and grey literature are searched published articles on antimicrobial drug resistance data for GLASS priority pathogens isolated from Morocco between January 2011 and December 2021. Articles are screened using strict inclusion/exclusion criteria. AMR data is extracted with medians and IQR of resistance rates. Results Forty-nine articles are included in the final analysis. The most reported bacterium is Escherichia coli with median resistance rates of 90.9%, 64.0%, and 56.0%, for amoxicillin, amoxicillin-clavulanic acid, and co-trimoxazole, respectively. Colistin had the lowest median resistance with 0.1%. A median resistance of 63.0% is calculated for amoxicillin-clavulanic acid in Klebsiella pneumonia. Imipenem resistance with a median of 74.5% is reported for Acinetobacter baumannii. AMR data for Streptococcus pneumonie does not exceed 50.0% as a median. Conclusions Whilst resistance rates are high for most of GLASS pathogens, there are deficient data to draw vigorous conclusions about the current status AMR in Morocco. The recently join to the GLASS system surveillance will begin to address this data gap.

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Section: Discussionmentioning

confidence: 99%

Antimicrobial resistance among GLASS pathogens in Morocco: an epidemiological scoping review

et al. 2022

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“…Carbapenem is one of the last-resort β-lactam antibiotics for the treatment of serious bacterial infections that caused by gram-negative bacteria such as Acinetobacter baumannii, Pseudomonas aeruginosa, and Klebsiella pneumonia. Nevertheless, multiple molecular mechanisms that confer bacterial resistance phenotype become the major Fang et al 10.3389/fmicb.2022.996834 barrier to the clinical application of the drug (Kelly et al, 2017;Aurilio et al, 2022). As one of such mechanisms, metalloβ-lactamases (MBLs), can directly degrade β-lactam ring of the carbapenem and most other β-lactam antibiotics, through their zinc dependent catalytic active center (Abbas, 2021).…”

Section: Introductionmentioning

confidence: 99%

Identification and characterization of a novel metallo β-lactamase, SZM-1, in Shenzhen Bay, South China

Fang

Liu

et al. 2022

Front. Microbiol.

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Metallo β-Lactamases (MBLs) degrade most clinical β-lactam antibiotics, especially Carbapenem, posing a huge threat to global health. Studies on environmental MBLs are important for risk assessment of the MBLs transmission among connected habitats, and between environment and human. Here, we described a novel metallo β-Lactamases, named SZM-1 (Shenzhen metallo-β-lactamase), from an Arenimonas metagenome-assembled genome recovered from the river sediment in the Shenzhen Bay area, south China. Phylogenetic analysis, primary sequence comparison, structural modeling suggested that the SZM-1 belongs to B1 MBL family, likely harboring a typical di-zinc catalytic center. Furthermore, the gene encoding the MBLs was cloned into Escherichia coli TOP10 for Carba NP test and antimicrobial susceptibility test. The results indicated that the SZM-1 had carbapenemase activity, and conferred the carrier to increased resistance toward carbapenems. Taken together, our results raise alarms about the emergence and spread of the SZM-1, and suggest further surveillance, especially in hospital settings and clinical isolates, to determine whether blaSZM–1 is a mobilizable antibiotic resistance.

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“…However, over time, bacteria have developed and utilized various defensive mechanisms, allowing them to withstand the deleterious effects of β-lactam antibiotics. These mechanisms include production of β-lactam-degrading enzymes, β-lactamases, mutational alterations of their targets, DDTs, mutations hindering penetration of the drugs through the outer membrane of Gram-negative bacteria, and activation of efflux pumps transporting antibiotics from the cell back to the milieu . It was demonstrated that LDTs also can contribute to bacterial resistance to β-lactams, as they are not efficiently inhibited by the majority of these drugs, with the exception of carbapenems. ,,,− Consequently, this allows bacterial pathogens to survive in the presence of many β-lactams, as they can maintain the integrity of their cell wall by increasing formation of 3–3 cross-linked peptidoglycan, to compensate for the decrease of 4–3 cross-linked species resulting from inhibition of DDTs. , …”

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The l,d-Transpeptidase Ldt_Ab from Acinetobacter baumannii Is Poorly Inhibited by Carbapenems and Has a Unique Structural Architecture

et al. 2022

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l,d-Transpeptidases (LDTs) are enzymes that catalyze reactions essential for biogenesis of the bacterial cell wall, including formation of 3–3 cross-linked peptidoglycan. Unlike the historically well-known bacterial transpeptidases, the penicillin-binding proteins (PBPs), LDTs are resistant to inhibition by the majority of β-lactam antibiotics, with the exception of carbapenems and penems, allowing bacteria to survive in the presence of these drugs. Here we report characterization of LdtAb from the clinically important pathogen, Acinetobacter baumannii. We show that A. baumannii survives inactivation of LdtAb alone or in combination with PBP1b or PBP2, while simultaneous inactivation of LdtAb and PBP1a is lethal. Minimal inhibitory concentrations (MICs) of all 13 β-lactam antibiotics tested decreased 2- to 8-fold for the LdtAb deletion mutant, while further decreases were seen for both double mutants, with the largest, synergistic effect observed for the LdtAb + PBP2 deletion mutant. Mass spectrometry experiments showed that LdtAb forms complexes in vitro only with carbapenems. However, the acylation rate of these antibiotics is very slow, with the reaction taking longer than four hours to complete. Our X-ray crystallographic studies revealed that LdtAb has a unique structural architecture and is the only known LDT to have two different peptidoglycan-binding domains.

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Mechanisms of Action of Carbapenem Resistance

Cited by 79 publications

References 41 publications

Antimicrobial resistance among GLASS pathogens in Morocco: an epidemiological scoping review

Antimicrobial resistance among GLASS pathogens in Morocco: an epidemiological scoping review

Identification and characterization of a novel metallo β-lactamase, SZM-1, in Shenzhen Bay, South China

The l,d-Transpeptidase Ldt_Ab from Acinetobacter baumannii Is Poorly Inhibited by Carbapenems and Has a Unique Structural Architecture

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Mechanisms of Action of Carbapenem Resistance

Cited by 79 publications

References 41 publications

Antimicrobial resistance among GLASS pathogens in Morocco: an epidemiological scoping review

Antimicrobial resistance among GLASS pathogens in Morocco: an epidemiological scoping review

Identification and characterization of a novel metallo β-lactamase, SZM-1, in Shenzhen Bay, South China

The l,d-Transpeptidase LdtAb from Acinetobacter baumannii Is Poorly Inhibited by Carbapenems and Has a Unique Structural Architecture

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The l,d-Transpeptidase Ldt_Ab from Acinetobacter baumannii Is Poorly Inhibited by Carbapenems and Has a Unique Structural Architecture