Abstract

The recent emergence of antibiotic-resistant bacteria has become a critical public health problem. It is also a concern for industries, since multidrug-resistant microorganisms affect the production of many agricultural and food products of economic importance. Therefore, discovering new antibiotics is crucial for controlling pathogens in both clinical and industrial spheres. Most antibiotics have resulted from bioprospecting in natural environments. Today, however, the chances of making novel discoveries of bioactive molecules from various well-known sources have dramatically diminished. Consequently, unexplored and unique environments have become more likely avenues for discovering novel antimicrobial metabolites from bacteria. Due to their extreme polar environment, Antarctic bacteria in particular have been reported as a potential source for new antimicrobial compounds. We conducted a narrative review of the literature about findings relating to the production of antimicrobial compounds by Antarctic bacteria, showing how bacterial adaptation to extreme Antarctic conditions confers the ability to produce these compounds. We highlighted the diversity of antibiotic-producing Antarctic microorganisms, including the phyla Proteobacteria, Actinobacteria, Cyanobacteria, Firmicutes, and Bacteroidetes, which has led to the identification of new antibiotic molecules and supports the belief that research on Antarctic bacterial strains has important potential for biotechnology applications, while providing a better understanding of polar ecosystems.

Highlights

  • The continual increase in global resistance to existing antibiotics, the prevalence of multidrug-resistant pathogens, and the rapid development of cross-resistance with new antibiotics have become a critical public health problem [1,2]

  • We highlighted the diversity of antibiotic-producing Antarctic microorganisms, including the phyla Proteobacteria, Actinobacteria, Cyanobacteria, Firmicutes, and Bacteroidetes, which has led to the identification of new antibiotic molecules and supports the belief that research on Antarctic bacterial strains has important potential for biotechnology applications, while providing a better understanding of polar ecosystems

  • This review summarizes the findings from research on Antarctic bacteria producing antimicrobial compounds, in order to: (i) Highlight the importance of the Antarctic ecosystem as a promising source for discovering novel antibiotics, (ii) demonstrate the significance of a growing body of research focused on antimicrobial activity of Antarctic bacteria, and (iii) highlight the strains already isolated from different Antarctic regions and their potential application against human pathogens and phytopathogens and in other industrial and pharmaceutical applications

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Summary

Introduction

The continual increase in global resistance to existing antibiotics, the prevalence of multidrug-resistant pathogens, and the rapid development of cross-resistance with new antibiotics have become a critical public health problem [1,2]. Research has exploited untapped and extreme environments, including the polar regions, complex marine habitats, and hyperthermal environments, to discover novel bioactive compounds with antibacterial, antifungal, and antitumor properties, and apply them to current clinical challenges [15,18,19,20,21]. This review summarizes the findings from research on Antarctic bacteria producing antimicrobial compounds, in order to: (i) Highlight the importance of the Antarctic ecosystem as a promising source for discovering novel antibiotics, (ii) demonstrate the significance of a growing body of research focused on antimicrobial activity of Antarctic bacteria, and (iii) highlight the strains already isolated from different Antarctic regions and their potential application against human pathogens and phytopathogens and in other industrial and pharmaceutical applications. Antarctic bacterial strains were selected and included in this review

The Antarctic Environment Supports Varied Microbial Life
Proteobacteria Phylum Members
Actinobacteria Phylum Members
Other Phylum Members
Recent Advances Identified New Antibiotic Molecules from Antarctic Bacteria
Concluding Remarks
Findings
Reported antimicrobial compounds compounds and and the the Figure

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