Devouring Bacteria: How Phage Therapy Is Shaping Antibacterial Treatments of the Future

In this episode we speak with the CEO of BiomX, Jonathan Solomon, about producing and using phages to test and treat various diseases and conditions.

Until very recently, treating a condition such as acne with an army of microscopic bacteria-destroyers known as phages—bacterial viruses that target and kill specific bacteria—would have seemed highly unlikely. However new research linking acne to an imbalance in the skin’s microbiome has opened the door to innovative treatment approaches. That’s where the biotech company BiomX comes in. Uniting powerful computational science with the in-herent capacity of phages to destroy specific bacteria, BiomX creates natural and synthetic phage therapies for some of the most troublesome bacteria-related health issues: acne, atopic dermatitis, cystic fibrosis, inflammatory bowel disease (IBD) and even colorectal can-cer. For acne the company has developed a successful cocktail of three different phages to treat the condition, with phase 2 testing close on the horizon. BiomX’s developments in phage therapy promise to change the way we treat imbalances in our microbiome, with potential health benefits for large swaths of the population.

Curious to Know More?

To learn more about BiomX, listen to the conversation with Jonathan Solomon on this episode of A View On: Phage Therapy.

KEY TERMS:

Bacteriophage (also known as a phage): A virus that attacks and devours only bacteria (‘phagein’ in Ancient Greek means to devour). Bacteriophages are bacteria-specific, which is both an advantage and disadvantage in manufacturing treatments. Fun fact: taken altogether, bacteriophages are the most numerous entity on the planet.

Phage cocktail: Since a phage targets and destroys only one type of bacteria, treatments for com-plex ailments necessitate a mixture, or cocktail, of different phages to be effective.

Phage fermentation: Although destructive, unwanted phages can grow during fermentation processes for wine-making and milk production, fermentation is nevertheless the optimal way to produce phages for therapeutic uses.

Computational (science): Computer modelling of the phage and its potential interaction with specific bacteria (known as in silico testing) allows researchers to develop phage cocktails more effi-ciently and with a greater chance of success.

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