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An antibiotic-resistance gene forms an unusual structure that may provide constant protection against tetracycline in a common gut bacterium

WOODS HOLE, Mass. -- Antibiotic resistance is a significant and growing medical problem worldwide. Researchers at the Marine Biological Laboratory (MBL) and collaborators have found a novel genetic arrangement that may help a common bacterium in the human gut, Bacteroides fragilis, protect itself from tetracycline, a widely used antibiotic.

While these findings will not lead directly to new ways of combating tetracycline-resistant bacteria, the researchers have discovered previously unseen genetic arrangements that confer antibiotic resistance. Such understanding might help in developing new ways to limit the spread of antibiotic resistance genes, through genetic manipulation or other means.

The findings were reported in the by MBL scientists Joseph Vineis, Mitchell Sogin and Blair Paul, along with colleagues from MBL, Argonne National Laboratory, and the University of Chicago.

The bacteria they studied, Bacteroides fragilis, was recovered from a patient with ulcerative colitis, where it was found to be abundant during periods of inflammation. The team had a large set of samples to analyze from patients with inflammatory bowel disease that had been surgically treated to alleviate the inflammation.

These samples were studied at MBL using shotgun metagenomics, which produces sequences for all the genetic material in an entire community of microbial cells. It also facilitates cultivation of bacterial strains from the community, providing the data required to observe the activity of the tetracycline-resistance genes while growing in the presence of tetracycline. (At the time they started this work, Vineis says, 91�������לto be able to reconstruct genomes from metagenomic data was just getting started in the field. It was a novel approach, but now it91�������יs common.91�������ם)

91�������לWhen we looked at the data,91�������ם Vineis says, 91�������לthere was a very strong signal91�������ם showing high numbers of copies of particular regions of the bacterial genomes. One of these regions, encompassing many genes, 91�������לwas very abundant91�������ם in the sample, and later they were able to determine 91�������לthat this particular high-copy region contained tetracycline resistance91�������צ So we kept digging.91�������ם

These high-copy sections of the genome contained DNA fragments that can move around in the genome or even jump into a different genome. Called transposons, these mobile genetic elements are 91�������לimportant ways for bacteria to develop adaptations to the environment without having to reinvent them themselves completely,91�������ם Vineis says. And in the human intestines, where vast numbers of species of gut bacteria are constantly in close proximity, 91�������לthe potential for exchange is really high,91�������ם he says, and the rate increases when there is inflammation.

Such exchange of genetic material between different species is called horizontal transfer. Blair Paul, an assistant scientist at MBL, says that 91�������לwe think these transposons are actually a key vehicle for horizontal gene transfer.91�������ם

In this case, the bacteria apparently sense when there is tetracycline in the environment and begin 91�������לa whole cascade91�������ם of production of a transposon containing the resistance gene, Vineis says.

The part of the transposon containing the resistance gene, they found, occurred in two different forms within the same genome: Sometimes it is in its normal linear form, and sometimes rolled into a circle. Both forms occur at once in the Bacteroides fragilis genome, but the linear form contains a unique genomic insert in the region of DNA that encodes the machinery for mobilization into other cells.

91�������לThis hasn91�������יt been seen before, to our knowledge,91�������ם Paul says, 91�������לthis particular type of transposon having a subregion amplified. And it91�������יs occurring in bacteria that coincide with inflammation.91�������ם

The increased expression of this group of genes is potentially associated with the success of Bacteroides fragilis during inflammation, although the connection is not yet proven and requires further research. But Paul says the findings 91�������לraise new questions about the role of gene transfer in human health, but also in terms of just how these transposons are controlled and how they may be changing evolutionarily over time.91�������ם

91�������לThis finding is not going to change our understanding about the world of antibiotic resistance, but it91�������יs a novel kind of mechanism that at least we can start looking for,91�������ם Vineis says. 91�������לThere91�������יs a lot of offense and defense happening within the microbial world that we91�������יre not even fully aware of.91�������ם

Citation:

Joseph H. Vineis, William S. Reznikoff, Dionysios A. Antonopoulos, Jason Koval, Eugene Chang, Bailey R. Fallon, Blair G. Paul, Hilary G. Morrison, and Mitchell L. Sogin (2024) A novel conjugative transposon carrying an autonomously amplified plasmid. mBio, DOI:

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The Marine Biological Laboratory (MBL) is dedicated to scientific discovery 91�������ד exploring fundamental biology, understanding marine biodiversity and the environment, and informing the human condition through research and education. Founded in Woods Hole, Massachusetts in 1888, the MBL is a private, nonprofit institution and an affiliate of the .