The force drives the lumen of a human: how the actin cytoskeleton generates force to open the human epiblast lumen.

Megane Rayer 🎓 🔬🏳️‍🌈🇫🇷🏃🏻‍♀️🧘🏻‍♀️🎨 🦚 🧳 & Rivka Shapiro highlight work from Dhiraj Indana and team the Chaudhuri lab. #preprint

Check out their preLight ⬇️ 👀
prelights.biologists.com/highlights/act…

Excited to share our collaborative study led by Natalie J. Torok, out in Nature today! It describes how enhanced matrix viscoelasticity promotes liver cancer progression in the pre-cirrhotic liver.
nature.com/articles/s4158…

What are lumens and how do forces control tissue form and fate through lumen size?

Join me, Dhiraj Indana, in this short thread to explore this question through some fascinating papers.

Check out this fantastic thread about all things lumen by our own Dhiraj Indana 👇

Let's break barriers in breast cancer research! A new study by the Chaudhuri lab &West Lab Stanford University, ShenoyLab Penn and Hodgson Lab Albert Einstein College of Medicine - Official revealed how cells team up to break through tissue barriers. No invadopodia needed! Nature Materials doi.org/10.1038/s41563…

Thank you for highlighting our work!

Thank you, Steven Artandi, MD, PhD, for highlighting our work!

Forces resulting from global cell volume expansion and local cell contractions distort the basement membrane of an in vitro three-dimensional model of breast cancer, to promote collective cell invasion that precedes metastasis. the Chaudhuri lab go.nature.com/47xx74t

A really fun the Chaudhuri lab reunion in Boston, with special guest Fletcher Lab! Sungmin Nam & Kolade Adebowale, Ph.D.‘s “science grandpa” (i.e. their grad school mentor’s grad school mentor). 😂