Meldrum's acid derivates are MepA efflux pump inhibitors: In vitro and in silico essays

Author:

Araújo Isaac Moura1,Pereira Raimundo Luiz Silva1,de Araújo Ana Carolina Justino1,Gonçalves Sheila Alves2,Tintino Saulo Relison1,Oliveira‐Tintino Cícera Datiane de Morais1,de Menezes Irwin Rose Alencar1,Salamoni Renata3,Begnini Iêda Maria3,Rebelo Ricardo Andrade3,Silva Luiz Everson da4,Gurgel Ana Pavla Almeida Diniz5,Coutinho Henrique Douglas M.1ORCID

Affiliation:

1. Department of Chemistry‐Biology Regional University of Cariri—URCA Crato Ceará Brazil

2. Department of Biology Regional University of Cariri—URCA Crato Ceará Brazil

3. Department of Chemistry, Regional University of Blumenau (FURB) Itoupava Seca Blumenau Santa Catarina Brazil

4. Research Federal University of Paraná—UFPR Matinhos Paraná Brazil

5. Department of Engineering and Environment Federal University of Paraíba João Pessoa Paraíba Brazil

Abstract

AbstractEfflux pumps are proteins capable of expelling antibiotics from bacterial cells, have emerged as a major mechanism of bacterial resistance. In the ongoing pursuit to overcome and reduce bacterial resistance, novel substances are being explored as potential efflux pump inhibitors. Meldrum's acid, a synthetic molecule widely studied for its role in synthesizing bioactive compounds, holds promise in this regard. Therefore, the objective of this study is to evaluate the antibacterial activity of three derivatives of Meldrum's acid and assess their ability to inhibit efflux mechanisms, employing both in silico and in vitro approaches. The antibacterial activity of the derivatives was assessed using a broth microdilution testing method. Surprisingly, the derivatives did not exhibit direct antibacterial activity on their own. However, they displayed a significant effect in enhancing the efficacy of antibiotics, suggesting a potential role in potentiating their effects. Furthermore, fluorescence emission assays using ethidium bromide indicated that the derivatives could potentially block efflux pumps, as they exhibited fluorescence levels comparable to the positive control. To further investigate their inhibitory capacity, molecular docking studies were conducted in silico, revealing binding interactions similar to ciprofloxacin and carbonyl cyanide 3‐chlorophenylhydrazone, known efflux pump inhibitors. These findings highlight the potential of Meldrum's acid derivatives as effective inhibitors of efflux pumps. By targeting these mechanisms, the derivatives offer a promising avenue to enhance the effectiveness of antibiotics and combat bacterial resistance. This study underscores the importance of exploring novel strategies in the fight against bacterial resistance and provides valuable insights into the potential of Meldrum's acid derivatives as efflux pump inhibitors. Further research and exploration in this field are warranted to fully exploit their therapeutic potential.

Publisher

Wiley

Subject

Applied Microbiology and Biotechnology,General Medicine

Reference37 articles.

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