Glad to receive a PhD prize from the @gensocuk.bsky.social for the work I lead on the origin and diversification of stratified epithelia.
Thanks to @frelab.bsky.social , the lab, and all collaborators involved.
Special thanks to @candice-merle.bsky.social for her help throughout the project.
I recently moved to Basel and was awarded an @embo.org Postdoctoral Fellowship to join the lab of Matthias Lutolf at the Institute of Human Biology. I will use data-driven approaches to investigate how micro-environmental cues shape human epithelial organoid maturation.
Many thanks to @frelab.bsky.social, all collaborators, interns, and researchers involved in these five years!
My time at @institutcurie.bsky.social is done! Over the past months, I completed my PhD, published my first first-author paper in DevCell (www.cell.com/developmenta..., and submitted my first last-author manuscript to bioRxiv (www.biorxiv.org/content/10.1...).
1. Excited to share CONCORD, out in @NatureBiotech, an ML framework for single-cell analysis addressing integration, dimensionality reduction, and denoising in one go by @qinzhu1.๐ www.nature.com/articles/s41... Check out this CONCORD model of worm development resolving differentiation trajectories:
*New preprint alert* uncovering a mechanical pacemaker that synchronizes nephron formation with branching of the kidney's epithelial tubule tree. Read below to learn about this twisty journey lead by Sam Grindel and Sachin Davis in the lab. [Movie by Nils Lindstrom]
www.biorxiv.org/content/10.1...
Check out our beautiful story on tumour clonal dynamics with barcodes, performed in the @frelab.bsky.social by my super talented post-doc @candice-merle.bsky.social and @ivanditerlizzi.bsky.social from @rulands.bsky.social lab!
#barcodes #plasticity
An amazing preprint on molecular evolution (p63-Notch) of Epithelial Multilayering
Cross-organ (14 in๐ญ), Cross-species (7๐ชฐ๐x2๐ธ๐ฅ๐ญ๐ค) single-cell transcriptomics
p63+Jag2+ basal signal sendorโถ๏ธ p63-Hes1+ suprabasal receivers๐ญ
bioRxiv 2025
www.biorxiv.org/content/10.1...
Supported by:
@agencerecherche.bsky.social
@frm-officiel.bsky.social
@fondationarc.bsky.social
@cerclefser.bsky.social
@worldwidecancer.bsky.social
@institutcurie.bsky.social
This work was conducted at @institutcurie.bsky.social
in @frelab.bsky.social. Thank you for supporting my work over the last five years! Big thank also to Candice Merle, the first author of this story, for her help in the experimental work and to our collaborators at @lbmcinlyon.bsky.social.
Our work unifies decades of organ-specific studies into a single evo-devo framework. It argues for moving beyond organ-centric approaches toward cross-tissue comparisons to reveal conserved mechanisms of epithelial development, homeostasis, and disease.
www.biorxiv.org/content/10.1...
Taken together, multilayered epithelia development follows a spatial and evolutionary hourglass: basal layers reactivate an ancestral ectodermal program, while suprabasal compartments diversify through modular, lineage-specific innovations.
Lineage-tracing experiments across all 14 tissues show that activating Notch in basal cells consistently triggers suprabasal commitment, confirming the universality of this regulatory connection in stratified tissues.
Basal and suprabasal layers are linked by a conserved p63โNotch axis. p63 maintains basal identity and induces Notch ligands, whereas Notch signaling drives suprabasal commitment.
In contrast, suprabasal compartments show strong enrichment for tissue-specific and architecture-specific transcriptional modules. Functional diversification emerges primarily in suprabasal layers and follow a Russian-doll organization.
This basal program has been repeatedly redeployed (heterotopy) in endoderm- and mesoderm-derived epithelia, allowing these tissues to initiate multilayering outside their original lineage of origin.
We find that this conserved GRN is evolutionarily compartmentalized. Basal cells consistently deploy an ancestral ectodermal regulatory module centered on p63.
Comparative analyses across lamprey, zebrafish, xenopus, chicken, mouse, and human reveal that multilayered epithelia rely on a deeply conserved set of genes. This suggests that the molecular foundations of epithelial stratification were established early in vertebrate evolution.
Multilayered epithelia emerge from ectoderm, endoderm, and mesoderm, yet all adopt the same basic architecture: a basal compartment supporting one or more differentiated suprabasal layers. Do these different organs use distinct mechanisms, or a shared regulatory program?
๐จ New preprint!
We built a single-cell atlas of 14 multilayered epithelia and revealed a conserved transcriptomic program guiding tissue architecture and fate composition. Our work brings decades of tissue-specific studies together into a unified evo-devo framework.
www.biorxiv.org/content/10.1...
Supported by:
@agencerecherche.bsky.social
@frm-officiel.bsky.social
@fondationarc.bsky.social
@cerclefser.bsky.social
@worldwidecancer.bsky.social
@institutcurie.bsky.social
The PhD work of @bboumard.bsky.social officially out in print! Happy to share this issue with our downstairs colleagues in the BDD @frelab.bsky.social @robinjournot.bsky.social
www.cell.com/developmenta...
Our paper is on the cover of @cp-devcell.bsky.social . Image: embryonic murine salivary-gland explants stained for fate determinants; p63 (cyan) and HES1 (yellow). Thanks to everyone involved.
doi.org/10.1016/j.de...
๐งต1/ Excited to share our new paper introducing a new #singlecell assay: scTF-seq, a high-throughput single-cell approach to explore how transcription factor (TF) dose shapes cell identity and reprogramming outcomes. ๐ www.nature.com/articles/s41... Big congrats to the entire team @EPFL & @SIAT_China
"Contractile fibroblasts form a transient niche for the branching mammary epithelium."
Now out: rdcu.be/eIIKD
A great contribution from Jakub Sumbal, showing how stromal cells, and diverse fibroblast subsets, regulate branching morphogenesis.
@sumbalovakoledova.bsky.social @frelab.bsky.social
From a FACS-contaminating cell population to a multi-organ project โ learn the Behind the Story of our work on conserved signals in epithelial organogenesis ๐ www.sciencedirect.com/science/arti...
Yes! We think this mechanism goes way beyond glands. We're now exploring a broader range of tissues, stay tuned for what's coming next!
Great question! We havenโt inferred or directly measured mechanical forces yet, but in a follow-up project weโre actively investigating the mechanical component of the symmetry-breaking event. Very curious to see how it ties into YAP localization and happy to discuss more!
Students (Master's/PhD), do not miss this fantastic Developmental Biology course of @sorbonne-universite.fr and @institutcurie.bsky.social - It is FREE and open to international students, however, room and board + travel are not included.
training.institut-curie.org/courses/deve...
This work was funded by @institutcurie.bsky.social, โชโชโช@cnrsbiologie.bsky.social, @psl-univ.bsky.social, @agencerecherche.bsky.social , @frm-officiel.bsky.social, @cerclefser.bsky.social, @fondationarc.bsky.social and @worldwidecancer.bsky.social.
