Arthur Lensen

Time for some insights into our latest #preprint

Using cryo–electron tomography, we peeked inside different #Mtuberculosis strains, and a couple of other mycobacteria.🧐 Surprise: some species, especially the host-adapted ones, build intracytoplasmic membranes (we call them MIMs)! 🦠

After years of hard work and months of growing MTB @camimille.bsky.social submitted her story ! Check this out if you wanna discover new intrabacterial structures and their function ! 🦠🔬✨

Very happy to have participated in #ETOX2025 ! Very nice science, amazing crowd and wonderful place ! I was happy to present a poster of my work to a lot of old and new friends and colleagues. Thanks to the organizer for all their work and I hope to come back in two years !

A massive thank you to all the incredible participants and speakers who made ETOX 2025 in the Basque Country an unforgettable event! Your insights, discussions, and passion for bacterial protein toxins have truly advanced the field. We're already looking forward to next time! #ETOX2025

Zoom into a human cell infected by Shigella, the bacteria behind dysentery. Using cryo-EM, @leaswistak.bsky.social and team revealed how it pierces cells with molecular syringes. Stunning science at the nanoscale.

@enningalab.bsky.social @jytinevez.bsky.social @nanoimaging.bsky.social

#CryoEM

Left: Group of three T3SS localizing in the same zone of the bacteria surface. T3SS n°1 and 2 contact, deform, and perforate the vacuole membrane at the same spot. T3SS n°1 needle (83 nm) is long and seems to deviate from basal body axis showing that strong constraints between T3SS and the vacuole at are play. The locally relaxed vacuole to bacteria space (~50–55 nm) potentially limits additional damage by the T3SS n°3 needle (56 nm) that only slightly deforms the membrane. Right: Model of initial vacuolar membrane breaching by T3SS-induced mechanoporation. Shigella actively enters host cells in a specialized endomembrane compartment, the vacuole, that is rapidly injured and ruptured for cytosolic access. After host cell entry, the vacuole membrane is intact and tightly juxtaposed to the surface of Shigella, permitting contact between T3SSs and the endomembrane. In the authors’ proposed model, vacuole membrane injury is supported both by the vacuole tightness and the length of individual T3SSs.

How do intracellular #bacteria breach vacuoles to enter the host cytosol? @leaswistak.bsky.social @matthijnvos.bsky.social @enningalab.bsky.social &co show that #Shigella uses its T3SS system to damage endomembranes via mechanoporation to initiate cytosolic access @plosbiology.org 🧪 plos.io/4jXrr9Z

1/5 🚀 Excited to share our latest preprint from: 𝗦𝗶𝗥-𝗫𝗔𝗰𝘁𝗶𝗻: 𝗔 𝗳𝗹𝘂𝗼𝗿𝗲𝘀𝗰𝗲𝗻𝘁 𝗽𝗿𝗼𝗯𝗲 𝗳𝗼𝗿 𝗶𝗺𝗮𝗴𝗶𝗻𝗴 𝗮𝗰𝘁𝗶𝗻 𝗱𝘆𝗻𝗮𝗺𝗶𝗰𝘀 𝗶𝗻 𝗹𝗶𝘃𝗲 𝗰𝗲𝗹𝗹𝘀 on #bioRxiv!
www.biorxiv.org/content/10.1...

#JohnssonLab and #ArndtLab with valued collaborators

No one mourns the Wicked ! Some 🟢Elphaba🟢 colored actin and cytosolic 🟣Glinda magic🟣.
Steer all this with 🔵 Hoescht, Shigella and 🟡 Rab35 (PMID : 38568808 😉) and you get these sparkling cells, perfect for #FluorescenceFriday

Institut Pasteur decides to leave X The Institut Pasteur, a research organization which for more than 130 years has been committed to tackling infectious diseases, sharing knowledge and defending science, has decided to leave X because ...

The Institut Pasteur has decided to leave X (formerly Twitter) to join BlueSky! 🦋
The Institut Pasteur made this decision due to several serious issues observed on the X platform since its acquisition. Join us here to continue advocating for science. www.pasteur.fr/en/home/pres...

Happy to share our latest preprint on dormant #Salmonella and the role of SifA for intravacuolar nutrition! Thanks to all the co-authors!

You want to learn about microbiology from a fantastic lineup of speakers on a beautiful Greek island? PhD students apply now for the @EMBO | @FEBSnews Lecture Course The New Microbiology!
Registration: 1 Apr 2025
Course: 03 – 11 Sep 2025 | Spetses, Greece
meetings.embo.org/event/25-new...

Systematic mapping of antibiotic cross-resistance and collateral sensitivity with chemical genetics - Nature Microbiology Resistance to one antibiotic can make bacteria resistant or sensitive to another antibiotic, opening paths for combinatorial treatments. This study presents an approach to systematically discover and ...

Excited to share our study led by @SakenovaNazgul! We used chemical genetics to identify and understand cross-resistance & collateral-sensitivity (CS) between antibiotics and reduced AMR development with CS drug pairs @embl.org with @camille_goemans @EPFL_en www.nature.com/articles/s41...