Starving Bacteria To Find Antibiotics | October 21, 2013 Issue - Vol. 91 Issue 42 | Chemical & Engineering News
Volume 91 Issue 42 | p. 6 | News of The Week
Issue Date: October 21, 2013

Starving Bacteria To Find Antibiotics

Drug Discovery: Nutrient-restriction technique finds metabolic blockers
Department: Science & Technology | Collection: Life Sciences
News Channels: Biological SCENE
Keywords: antibiotics, antibiotic resistance, bacteria
MAC13772, which blocks a step in biotin biosynthesis in bacteria, was discovered using nutrient-restricted bacteria. ACP = acyl carrier protein.
A reaction scheme shows MAC13772 inhibiting biotin biosynthesis.
MAC13772, which blocks a step in biotin biosynthesis in bacteria, was discovered using nutrient-restricted bacteria. ACP = acyl carrier protein.

Bacteria are clever at side-stepping antibiotics. They’re so good at developing resistance to medicines that some infections can no longer be treated effectively, making the search for new antibiotics a top priority.

More agents that block bacterial metabolism could be valuable additions to the antibiotic arsenal, but they’re rare and difficult to identify. A new approach for screening compound collections could make them easier to find (Nat. Chem. Biol. 2013, DOI: 10.1038/nchembio.1361).

Compounds are usually tested for antibacterial activity against robust bacteria grown in nutrient-rich cell culture media. In the new approach, Soumaya Zlitni, Lauren F. Ferruccio, and Eric D. Brown of McMaster University, in Hamilton, Ontario, grow bacteria on a restricted diet, a condition known to increase their vulnerability to agents that affect their metabolic pathways. Brown notes this is a realistic situation for screening potential antibiotics because bodies of infected patients are also nutrient-limited environments for bacterial growth.

Brown’s group used the technique to discover three synthetic compounds that interfere with bacterial metabolic pathways—glycine metabolism, p-aminobenzoic acid biosynthesis, and biotin biosynthesis. The researchers determined the three compounds’ mechanisms of antibacterial action by testing affected bacteria with specific metabolites to identify the step in each pathway that the compounds block.

Two current antibiotics also block bacterial metabolism. But up to now there hasn’t been a systematic way to search for such agents, and the new technique could help fill that gap. “We think the approach may have potential as a commercial platform,” Brown says.

The technique “is a useful probe for antibiotics,” comments pathogen therapeutics expert Deborah Hung of Massachusetts General Hospital and the Broad Institute, in Boston. “I’m hesitant to say this is going to change antibiotic discovery. But it highlights an important issue—the question of which targets are essential in the body during bacterial infection, where exact microenvironments may vary or are difficult to define. And it’s a valuable approach for understanding the mechanisms by which newly identified small molecules block bacterial metabolism.”

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