Have you ever been so hungry that you become angry, otherwise known as “hangry?” New research has found that some bacteria cells get hangry too, releasing harmful toxins into our bodies and making us sick.
The researchers discovered, using a recently developed technology, that genetically identical cells within a bacterial community have different functions, with some members behaving more docile and others producing the very toxins that make us feel ill.
“Bacteria behave much more different than we traditionally thought,” said the senior author. “Even when we study a community of bacteria that are all genetically identical, they don't all act the same way. We wanted to find out why.”
The findings, published in Nature Microbiology, are particularly important in understanding how and why bacterial communities defer duties to certain cells – and could lead to new ways to tackle antibiotic tolerance further down the line.
With the help of a device called a microfluidic droplet generator, the researchers were able to separate, or partition, single bacterial cells into droplets to decode every single cell.
They found that the C. perfringens cells that were not producing toxins were well-fed with nutrients. On the other hand, toxin-producing C. perfringens cells appear to be lacking those crucial nutrients.
“If we give more of these nutrients,” postulated the author, “maybe we can get the toxin-producing cells to behave a little bit better.”
Researchers then exposed the bad actor cells to a substance called acetate. Their hypothesis rang true. Not only did toxin levels drop across the community, but the number of bad actors reduced as well. But in the aftermath of such astounding results, even more questions are popping up.
Now that they know that nutrients play a significant role in toxicity, Rosenthal wonders if there are particular factors found in the environment that may be ‘turning on’ toxin production in other types of infections, or if this new finding is only true for C. perfringens.
Perhaps most importantly, the senior author theorizes that introducing nutrients to bacteria could provide a new alternative treatment for animals and humans, alike.
For example, the model organism Clostridium perfringens is a powerful foe in the hen house. As the food industry is shifting away from the use of antibiotics, poultry are left defenseless from the rapidly spreading, fatal disease. The recent findings from the researchers may give farmers a new tool to reduce pathogenic bacteria without the use of antibiotics.
As for us humans, there is more work to be done. Antibiotic tolerance occurs when some bacteria are able to dodge the drug target even when the community has not evolved mutations to make all cells resistant to an antibiotic. Such tolerance can result in a less-effective treatment, but the mechanisms controlling tolerance are not well understood.
'Hangry' bacteria release toxins
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