Glycosylated Antibiotics: New Promising Bacterial Efflux Pumps Inhibitors

Kamaz, Zahraa Ali and Umar, Haruna Isiyaku and Doshi, Parth and Suri, Praveenya (2024) Glycosylated Antibiotics: New Promising Bacterial Efflux Pumps Inhibitors. Microbiology Research Journal International, 34 (3). pp. 48-59. ISSN 2456-7043

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Abstract

Antimicrobial resistance is considered a major concern problem; bacteria have evolved mechanisms to overcome antibiotics’ action through evolutionary process. One main resistance mechanism that bacteria developed is the pumping of the antibiotics out of bacterial cells by transmembrane transporter proteins known as efflux pumps. To overcome bacterial resistance guided by efflux pumps, efflux pumps inhibitors (EPIs) are small molecules that obstruct efflux pumps binding sites and its structural assembly leading to disability in the efflux pumps normal function, new EPIs which under the current study are created by modifying the chemical structure of most common antibiotics including Ampicillin, Penicillin, Chloramphenicol, Ciprofloxacin and Tetracycline, such antibiotics are modified by adding N-acetyl glucose amine moiety to acceptor OH group of the respective antibiotic, the newly modified antibiotics are glycosylated EPIs. To test the effectiveness of the new EPIs in inhibiting AcrB-TolC and MexA-OprM efflux pumps functions, ADME properties for all of glycosylated antibiotics have been measured through applying Lipinski’s role of 5, docking and simulation studies have been included as well. Docked glycosylated tetracycline has given the highest binding energy in the active sites of both pumps, with -9.4 against AcrB and -8.8 against MexA. The simulation study has confirmed the binding of the glycosylated tetracycline in the active sites of both pumps, as well as its stability during the biological dynamicity of both pumps (opening and closing channels). The results validation requires a long simulation time about 50 ns or more which was un applicable due to cost limitation, however, the newly glycosylated antibiotics have promising results that might make it eligible as drug candidates to overcome bacterial resistance.

Item Type: Article
Subjects: European Scholar > Biological Science
Depositing User: Managing Editor
Date Deposited: 06 Apr 2024 06:51
Last Modified: 06 Apr 2024 06:51
URI: http://article.publish4promo.com/id/eprint/3337

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