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NorA, Tet(K), MepA, and MsrA Efflux Pumps in Staphylococcus aureus, their Inhibitors and 1,8-Naphthyridine Sulfonamides.
de Morais Oliveira-Tintino, Cícera Datiane; Muniz, Débora Feitosa; Dos Santos Barbosa, Cristina Rodrigues; Silva Pereira, Raimundo Luiz; Begnini, Iêda Maria; Rebelo, Ricardo Andrade; da Silva, Luiz Everson; Mireski, Sandro Lucio; Nasato, Michele Caroline; Lacowicz Krautler, Maria Isabel; Barros Oliveira, Carlos Vinicius; Pereira, Pedro Silvino; Rodrigues Teixeira, Alexandre Magno; Tintino, Saulo Relison; de Menezes, Irwin Rose Alencar; Melo Coutinho, Henrique Douglas; da Silva, Teresinha Gonçalves.
Affiliation
  • de Morais Oliveira-Tintino CD; Department of Antibiotics, Laboratory of Pharmatoxicological Prospecting of Bioactive Products, Federal University of Pernambuco, UFPE, Recife, PE, Brazil.
  • Muniz DF; Department of Biological Chemistry, Laboratory of Microbiology and Molecular Biology, Regional University of Cariri, URCA, Crato, CE, Brazil.
  • Dos Santos Barbosa CR; Department of Biological Chemistry, Laboratory of Microbiology and Molecular Biology, Regional University of Cariri, URCA, Crato, CE, Brazil.
  • Silva Pereira RL; Department of Biological Chemistry, Laboratory of Microbiology and Molecular Biology, Regional University of Cariri, URCA, Crato, CE, Brazil.
  • Begnini IM; Department of Biological Chemistry, Laboratory of Microbiology and Molecular Biology, Regional University of Cariri, URCA, Crato, CE, Brazil.
  • Rebelo RA; Department of Chemistry, Regional University of Blumenau, FURB, Itoupava Seca, 89030-903, Blumenau, SC, Brazil.
  • da Silva LE; Department of Chemistry, Regional University of Blumenau, FURB, Itoupava Seca, 89030-903, Blumenau, SC, Brazil.
  • Mireski SL; Department of Chemistry, Federal University of Paraná, Curitiba, PR, Brazil.
  • Nasato MC; Department of Chemistry, Regional University of Blumenau, FURB, Itoupava Seca, 89030-903, Blumenau, SC, Brazil.
  • Lacowicz Krautler MI; Department of Chemistry, Regional University of Blumenau, FURB, Itoupava Seca, 89030-903, Blumenau, SC, Brazil.
  • Barros Oliveira CV; Department of Chemistry, Regional University of Blumenau, FURB, Itoupava Seca, 89030-903, Blumenau, SC, Brazil.
  • Pereira PS; Department of Biological Sciences, Laboratory of Biology and Toxicology, Regional University of Cariri, URCA, Crato, CE, Brazil.
  • Rodrigues Teixeira AM; Department of Antibiotics, Laboratory of Pharmatoxicological Prospecting of Bioactive Products, Federal University of Pernambuco, UFPE, Recife, PE, Brazil.
  • Tintino SR; Department of Biological Chemistry, Laboratory of Simulations and Molecular Spectroscopy, Regional University of Cariri, URCA, Crato, CE, Brazil.
  • de Menezes IRA; Department of Biological Chemistry, Laboratory of Microbiology and Molecular Biology, Regional University of Cariri, URCA, Crato, CE, Brazil.
  • Melo Coutinho HD; Department of Biological Chemistry, Laboratory of Pharmacology and Molecular Chemistry, Regional University of Cariri, URCA, Crato, CE, Brazil.
  • da Silva TG; Department of Biological Chemistry, Laboratory of Microbiology and Molecular Biology, Regional University of Cariri, URCA, Crato, CE, Brazil.
Curr Pharm Des ; 29(5): 323-355, 2023.
Article in En | MEDLINE | ID: mdl-36515045
ABSTRACT
Antibiotic resistance can be characterized, in biochemical terms, as an antibiotic's inability to reach its bacterial target at a concentration that was previously effective. Microbial resistance to different agents can be intrinsic or acquired. Intrinsic resistance occurs due to inherent functional or structural characteristics of the bacteria, such as antibiotic-inactivating enzymes, nonspecific efflux pumps, and permeability barriers. On the other hand, bacteria can acquire resistance mechanisms via horizontal gene transfer in mobile genetic elements such as plasmids. Acquired resistance mechanisms include another category of efflux pumps with more specific substrates, which are plasmid-encoded. Efflux pumps are considered one of the main mechanisms of bacterial resistance to antibiotics and biocides, presenting themselves as integral membrane transporters. They are essential in both bacterial physiology and defense and are responsible for exporting structurally diverse substrates, falling into the following main families ATP-binding cassette (ABC), multidrug and toxic compound extrusion (MATE), major facilitator superfamily (MFS), small multidrug resistance (SMR) and resistance-nodulation-cell division (RND). The Efflux pumps NorA and Tet(K) of the MFS family, MepA of the MATE family, and MsrA of the ABC family are some examples of specific efflux pumps that act in the extrusion of antibiotics. In this review, we address bacterial efflux pump inhibitors (EPIs), including 1,8-naphthyridine sulfonamide derivatives, given the pre-existing knowledge about the chemical characteristics that favor their biological activity. The modification and emergence of resistance to new EPIs justify further research on this theme, aiming to develop efficient compounds for clinical use.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Staphylococcus aureus / Bacterial Proteins Limits: Humans Language: En Journal: Curr Pharm Des Journal subject: FARMACIA Year: 2023 Document type: Article Affiliation country:
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Staphylococcus aureus / Bacterial Proteins Limits: Humans Language: En Journal: Curr Pharm Des Journal subject: FARMACIA Year: 2023 Document type: Article Affiliation country: