So excited our antibiotic potentiation story is out 🤩 Led by the extraordinary @manonlang.bsky.social with @fox-science.bsky.social & @amazeld.bsky.social +amazing collaborators @immunobladder.bsky.social @imaneelmeouche.bsky.social 🦠 We believe it can make a difference in #AMR infections!

🧬 Bacteria fight both antibiotics and viruses with the same genetic tool: integrons!

New study (Institut Pasteur, CNRS, Université Paris Cité & Montréal): ~10% of gene cassettes may defend against phages.

🛠️ One step closer to smarter therapies.

🔗 www.pasteur.fr/en/research-...

😜😜 Thanks Basile

At least 10% of the V. cholerae integron cassettes have novel antiphage activities (see below). Considering that there are 25,000 distinct cassettes of unknown function, integrons constitute an extraordinary and almost inexhaustible reservoir of antiphage functions!

Our paper on how integrons are biobanks of novel minimal defense systems is now out www.science.org/doi/10.1126/... Two main conclusions on this excellent work led by @eloilittner.bsky.social @baptistedarracq.bsky.social 1/n

Our paper is published back2back with one from @amazeld.bsky.social and @epcrocha.bsky.social labs where @baptistedarracq.bsky.social, @eloilittner.bsky.social and co. show that Sedentary Chromosomal Integrons are biobanks of phage defense systems. www.science.org/doi/10.1126/...

🧪
Finally out after peer review, our work showing that "Mobile #Integrons carry Phage Defense Systems" is now published in Science 🎉

Short 🧵
www.science.org/doi/10.1126/...

Have also a look at our back-to-back study for mobile integrons by Nicolas Kieffer from @jaescudero.bsky.social group !
www.science.org/doi/10.1126/...
+ a similar story in V. parahaemolyticus by @landongetz.bsky.social from @themaxwelllab.bsky.social
www.nature.com/articles/s41...

An enormous thanks for the great co-first author @eloilittner.bsky.social and for our supervisors @celineloot.bsky.social @epcrocha.bsky.social @amazeld.bsky.social @fredoleroux.bsky.social. Many thanks to all co-authors !!

On the bioinformatic side, eloilittner.bsky.social found a diverse arsenal of anti-phage defenses in SCIs. Strikingly, systems in integrons are always compact (< 3 genes), and smaller than their homologs outside integrons (likely due to cassette size constraints)

The integron of our favorite model Vibrio cholerae was mostly “dark matter” as most cassettes had no known role. We found this intriguing and cloned 88 cassettes, testing them for phage resistance. We found 16 defensive cassettes and named the systems after gallic mythology

White smoke, we have a new pope and also 16 new anti-phages systems in sedentary integrons (SCIs) !
In collaboration with the Rocha lab, we show in our new paper that cassettes of these large platforms encode many known anti-phage defenses, and uncovered 16 new ones.
www.science.org/doi/10.1126/...

Glad to share the work of @yli18smc.bsky.social and co on Lamassu, a bacterial defense system related to Rad50/Mre11 (RM). While RM carefully trims DNA ends for repair, Lamassu chops up the host chromosome. Our study reveals how it is regulated to minimize damage, activating only during infection.