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Driving bacteria to produce potential antibiotic, antiparasitic compounds

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Bacteria illustration (stock image).
Credit: © Paulista / stock.adobe.com

Researchers have developed a method to spur the production of new antibiotic or antiparasitic compounds hiding in the genomes of actinobacteria, which are the source of drugs such as actinomycin and streptomycin and are known to harbor other untapped chemical riches. The scientists report their findings in the journal eLife.

The researchers wanted to overcome a decades-old problem that confronts those hoping to study and make use of the countless antibiotic, antifungal and antiparasitic compounds that bacteria can produce, said Satish Nair, a University of Illinois at Urbana-Champaign professor of biochemistry who led the research.

“In laboratory conditions, bacteria don’t make the number of molecules they have the capability of making,” he said. “And that’s because many are regulated by small-molecule hormones that aren’t produced unless the bacteria are under threat.”

Nair and his colleagues wanted to determine how such hormones influence the production of antibiotics in actinobacteria. By exposing their bacteria to the right hormone or combination of hormones, the researchers hope to spur the microbes to produce new compounds that are medically useful.

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The team focused on avenolide, a hormone that is more chemically stable than one used in earlier studies of bacterial hormones. Avenolide regulates the production of an antiparasitic compound known as avermectin in a soil microbe. A chemically modified version of this compound, ivermectin, is used as a treatment for river blindness, a disease transmitted by flies that blinded millions of people, mostly in sub-Saharan Africa, before the drug was developed.

For the new study, chemistry graduate student Iti Kapoor developed a more streamlined process for synthesizing avenolide in the lab than was previously available. This allowed the team to study the hormone’s interactions with its receptor both inside and outside bacterial cells.

“Using a method called X-ray crystallography, Iti and biochemistry graduate student Philip Olivares were able to determine how the hormone binds to its receptor and how the receptor binds to the DNA in the absence of hormones,” Nair said. “Typically, these receptors sit on the genome and they basically act as brakes.”

The researchers discovered that when the hormone binds to it, the receptor loses its ability to cling to DNA. This turns off the brakes, allowing the organism to churn out defensive compounds like antibiotics.

Knowing which regions of the receptor are involved in binding to the hormone and to the DNA enabled the team to scan the genomes of dozens of actinobacteria to find sequences that had the right traits to bind to their receptor or to similar receptors. This process, called genome mining, allowed the team to identify 90 actinobacteria that appear to be regulated by avenolide or other hormones in the same class.

“Our long-term project is to take those 90 bacteria, grow them up in the laboratory, add chemically synthesized hormones to them and see what new molecules are being produced,” Nair said. “The beauty of our approach is that we can now get the bacteria to produce large quantities of molecules that normally we would not be able to make in the lab.”

Some of these new compounds are likely to have medical relevance, he said.

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Story Source:

Materials provided by University of Illinois at Urbana-Champaign, News Bureau. Original written by Diana Yates. Note: Content may be edited for style and length.


Journal Reference:

  1. Iti Kapoor, Philip Olivares, Satish K Nair. Biochemical basis for the regulation of biosynthesis of antiparasitics by bacterial hormones. eLife, 2020; 9 DOI: 10.7554/eLife.57824

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