Shutao Ma scite author profile

Drug eﬄux protein complexes confer multidrug resistance on bacteria by transporting a wide spectrum of structurally diverse antibiotics. Moreover, organisms can only acquire resistance in the presence of an active eﬄux pump. The substrate range of drug eﬄux pumps is not limited to antibiotics, but it also includes toxins, dyes, detergents, lipids, and molecules involved in quorum sensing; hence eﬄux pumps are also associated with virulence and biofilm formation. Inhibitors of eﬄux pumps are therefore attractive compounds to reverse multidrug resistance and to prevent the development of resistance in clinically relevant bacterial pathogens. Recent successes on the structure determination and functional analysis of the AcrB and MexB components of the AcrAB-TolC and MexAB-OprM drug eﬄux systems as well as the structure of the fully assembled, functional triparted AcrAB-TolC complex significantly contributed to our understanding of the mechanism of substrate transport and the options for inhibition of eﬄux. These data, combined with the well-developed methodologies for measuring eﬄux pump inhibition, could allow the rational design, and subsequent experimental verification of potential eﬄux pump inhibitors (EPIs). In this review we will explore how the available biochemical and structural information can be translated into the discovery and development of new compounds that could reverse drug resistance in Gram-negative pathogens. The current literature on EPIs will also be analyzed and the reasons why no compounds have yet progressed into clinical use will be explored.

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Recent Advances in Synthetic α‐Glucosidase Inhibitors

Liu

2017

ChemMedChem

116

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Over the past few years, the number of people diagnosed with type 2 diabetes has increased owing to an unhealthy diet, a limited amount of exercise, and obesity. The search for novel and efficient antidiabetes agents has become an urgent task for scientists. Among the antidiabetes drugs, α-glucosidase inhibitor drugs have been proven to have many advantages over other drugs, and therefore, a large number of new compounds as α-glucosidase inhibitors has recently been reported. In this review, we summarize these newly found α-glucosidase inhibitors and their structure-activity relationships in antidiabetic studies and provide better structures for α-glucosidase inhibitors or even preclinical candidates. Beyond that, some enlightening strategies for the synthesis of relevant compounds are highlighted.

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Efflux Pump Inhibitors: A Novel Approach to Combat Efflux-Mediated Drug Resistance in Bacteria

Wang¹,

Venter²,

2016

CDT

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The increasing multi-drug resistance has become a major threat to the public health. Overexpression of multidrug efflux pumps is one of the major mechanisms of drug resistance in bacteria. Since active efflux of antibacterial agents plays a significant role in mediating drug resistance in bacteria, the inhibition of efflux pumps appears to be a promising strategy to restore antibacterial potency. In recent years, in order to address this grave problem of multiple drug resistance mediated by efflux pump, a large number of efflux pump inhibitors have been discovered and tested, including natural products, antibiotics and synthetic molecules. This review mainly describes recent achievements in the search for new molecules that are able to inhibit efflux pumps in both Gram-positive and Gram-negative bacteria, in particular emphasis on natural and synthetic inhibitors of the NorA efflux pump in Staphylococcus aureus, MexAB-OprM efflux pump in Pseudomonas aeruginosa, and AcrAB-TolC efflux pump in Enterobacteriaceae, giving special attention to their mechanisms of action, structure-activity relationships and synergetic effect with clinically available antibiotics.

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Recent Development of Benzimidazole‐Containing Antibacterial Agents

Song

2016

ChemMedChem

128

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Clinically significant antibiotic resistance is one of the greatest challenges of the twenty-first century. However, new antibacterial agents are currently being developed at a much slower pace than our growing need for such drugs. Given their diverse biological activities and clinical applications, many bioactive heterocyclic compounds containing a benzimidazole nucleus have been the focus of interest for many researchers. The benzimidazole nucleus is a structural isostere of naturally occurring nucleotides. This advantage allows benzimidazoles to readily interact with the various biopolymers found in living systems. In view of this situation, much attention has been given to the exploration of benzimidazole-based antibacterial agents, leading to the discovery of many new chemical entities with intriguing profiles. In this minireview we summarize novel benzimidazole derivatives active against various bacterial strains. In particular, we outline the relationship between the structures of variously modified benzimidazoles and their antibacterial activity.

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Recent Advances in Inhibitors of Bacterial Fatty Acid Synthesis Type II (FASII) System Enzymes as Potential Antibacterial Agents

Wang

2013

ChemMedChem

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Bacterial infections are a constant and serious threat to human health. With the increase of multidrug resistance of clinically pathogenic bacteria, common antibiotic therapies have been less effective. Fatty acid synthesis type II (FASII) system enzymes are essential for bacterial membrane lipid biosynthesis and represent increasingly promising targets for the discovery of antibacterial agents with new mechanisms of action. This review highlights recent advances in inhibitors of bacterial FASII as potential antibacterial agents, paying special attention to the activities, mechanisms, and structure-activity relationships of those inhibitors that mainly target β-ketoacyl-ACP synthase, β-ketoacyl-ACP reductase, β-hydroxyacyl-ACP dehydratase, and enoyl-ACP reductase. Although inhibitors with low nanomolar and selective activity against various bacterial FASII have entered clinical trials, further research is needed to expand upon both available and yet unknown scaffolds to identify new FASII inhibitors that may have antibacterial potential, particularly against resistant bacterial strains.

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Shutao Ma

RND-type drug eﬄux pumps from Gram-negative bacteria: molecular mechanism and inhibition

Recent Advances in Synthetic α‐Glucosidase Inhibitors

Efflux Pump Inhibitors: A Novel Approach to Combat Efflux-Mediated Drug Resistance in Bacteria

Recent Development of Benzimidazole‐Containing Antibacterial Agents

Recent Advances in Inhibitors of Bacterial Fatty Acid Synthesis Type II (FASII) System Enzymes as Potential Antibacterial Agents

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