Abstract
Antibiotic resistance and infections caused by multidrug-resistant bacteria are global health concerns. Reducing the overuse and misuse of antibiotics is the primary step toward minimizing the antibiotic resistance crisis. Thus, it is imperative to introduce and implement novel antimicrobial strategies. Recently, several alternative antimicrobials targeting oxidative stress in bacteria have been studied and shown to be promising. Oxidative stress occurs when bacterial cells fail to detoxify the excessive reactive oxygen species (ROS) accumulated in the cells. Bacteria deploy numerous defense mechanisms against oxidative stress. The oxidative stress response is not essential for the normal growth of bacteria, but it is crucial for their survival. This toxic oxidative stress is created by the host immune response or antimicrobials generating ROS. ROS possess strong oxidation potential and cause serious damage to nucleic acids, lipids, and proteins. Since ROS-based antimicrobials target multiple sites in bacteria, these antimicrobials have attracted the attention of several researchers. In this review, we present recent ROS-based alternative antimicrobials and strategies targeting oxidative stress which might help in mitigating the problem of antibiotic resistance and dissemination.
Highlights
Antibiotics are used in large quantities in healthcare to treat and even to prevent bacterial infections
There are several novel alternative antimicrobials under development whose primary mode of action is through the generation of reactive oxygen species (ROS) causing oxidative stress in bacteria
S. aureus treated with mesoporous silica nanoparticles (MSNs)-maleamic generated 50% more ROS than the untreated S. aureus while S. aureus treated with MSN-maleamic-Cu generated 30% more ROS as compared with the untreated
Summary
Antibiotics are used in large quantities in healthcare to treat and even to prevent bacterial infections. Antibiotic resistant infections affect more than 2.8 million people and lead to more than 35,000 deaths, every year, in the U.S alone [5]. 2050 [6] if no drastic measures to reduce the development and spread of antibiotic resistance are taken. Bacterial resistance to antibiotics and the spread especially of the ESKAPE pathogens is concerning. There is a pressing need to develop promising alternative antimicrobials and strategies to tackle the antibiotic resistance problem. It is crucial to develop alternative antimicrobial therapies such as those mediated by reactive oxygen species (ROS). These approaches can help mitigate the problem of antibiotic resistance worldwide [8].
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