AI Article Synopsis
- Despite the widespread use of antibiotics, infectious diseases still rank as a major global health threat, with untreatable infections expected to lead to significantly higher mortality rates by 2050.
- Traditional methods of searching for new antibiotics from cultured bacteria have seen limited success due to a high rate of rediscovery and the underutilization of bacterial diversity.
- To overcome these challenges, a new culture-independent platform has been developed that utilizes DNA sequencing and bioinformatics to discover novel antibacterial compounds, such as malacidins, which are effective against drug-resistant infections and show promise in wound treatment without promoting bacterial resistance.
Article Abstract
Despite the wide availability of antibiotics, infectious diseases remain a leading cause of death worldwide . In the absence of new therapies, mortality rates due to untreatable infections are predicted to rise more than tenfold by 2050. Natural products (NPs) made by cultured bacteria have been a major source of clinically useful antibiotics. In spite of decades of productivity, the use of bacteria in the search for new antibiotics was largely abandoned due to high rediscovery rates. As only a fraction of bacterial diversity is regularly cultivated in the laboratory and just a fraction of the chemistries encoded by cultured bacteria are detected in fermentation experiments, most bacterial NPs remain hidden in the global microbiome. In an effort to access these hidden NPs, we have developed a culture-independent NP discovery platform that involves sequencing, bioinformatic analysis and heterologous expression of biosynthetic gene clusters captured on DNA extracted from environmental samples. Here, we describe the application of this platform to the discovery of the malacidins, a distinctive class of antibiotics that are commonly encoded in soil microbiomes but have never been reported in culture-based NP discovery efforts. The malacidins are active against multidrug-resistant pathogens, sterilize methicillin-resistant Staphylococcus aureus skin infections in an animal wound model and did not select for resistance under our laboratory conditions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5874163 | PMC |
| http://dx.doi.org/10.1038/s41564-018-0110-1 | DOI Listing |
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