Joris Hageman
@jorihag.bsky.social
PhD student @hugosnippert.bsky.social lab
organoids - stem cells - CRISPR
organoids - stem cells - CRISPR
I’m happy to share our new preprint on stem cell regeneration in the human colon! Using new CRISPR knockins in organoids, we show that after stem cell loss, non-stem cells rapidly regenerate them. This process is normally inhibited by the stem cells themselves. Manuscript link: tinyurl.com/3ky4ccxf
July 29, 2025 at 10:30 AM
I’m happy to share our new preprint on stem cell regeneration in the human colon! Using new CRISPR knockins in organoids, we show that after stem cell loss, non-stem cells rapidly regenerate them. This process is normally inhibited by the stem cells themselves. Manuscript link: tinyurl.com/3ky4ccxf
Reposted by Joris Hageman
📢 New preprint 🔥
1/ Stem cell regeneration is often viewed as an actively induced process, triggered by damage. But what if plasticity is actively suppressed by the stem cells themselves? We explored plasticity with 'new' cell type ablation tech in normal human colon organoids
tinyurl.com/3ky4ccxf
1/ Stem cell regeneration is often viewed as an actively induced process, triggered by damage. But what if plasticity is actively suppressed by the stem cells themselves? We explored plasticity with 'new' cell type ablation tech in normal human colon organoids
tinyurl.com/3ky4ccxf
July 16, 2025 at 7:37 PM
📢 New preprint 🔥
1/ Stem cell regeneration is often viewed as an actively induced process, triggered by damage. But what if plasticity is actively suppressed by the stem cells themselves? We explored plasticity with 'new' cell type ablation tech in normal human colon organoids
tinyurl.com/3ky4ccxf
1/ Stem cell regeneration is often viewed as an actively induced process, triggered by damage. But what if plasticity is actively suppressed by the stem cells themselves? We explored plasticity with 'new' cell type ablation tech in normal human colon organoids
tinyurl.com/3ky4ccxf
Check out this very cool new preprint by our lab on how intestinal tuft cells differentiate! 🤩 @julian-buissant.bsky.social @hugosnippert.bsky.social
New work on #tuft cells, rare guardians of our #gut against invaders. How they work is not known. We show that intestinal tuft types 1&2 are sequentially expressed phenotypes during differentiation. And…we can now generate mature immune-related tuft-2’s in #organoids for more 🔬🧫🧬🔥
shorturl.at/EImjA
shorturl.at/EImjA
Mature tuft cell phenotypes are sequentially expressed along the intestinal crypt-villus axis following cytokine-induced tuft cell hyperplasia
Intestinal tuft cells are epithelial sentinels that trigger host defense upon detection of parasite-derived compounds. While representing interesting targets for immunomodulatory therapies in inflamma...
shorturl.at
December 2, 2024 at 8:02 AM
Check out this very cool new preprint by our lab on how intestinal tuft cells differentiate! 🤩 @julian-buissant.bsky.social @hugosnippert.bsky.social