Intestinal cells can change specializations during their lives. The BMP signaling pathway – an important communication mechanism between cells – appears to be the driver of these changes. That is wat ...

An international team of scientists based in the Netherlands, and in China, has found that intestinal cells can change specializations during their lives, driven by the BMP signaling pathway, an ...

In a recent study, FMI researchers have shed light on how intestinal organoids form crypts, the pockets that house stem cells for gut regeneration and long-term stability. Their findings may have ...

Crypt-base-columnar cells are continuously dividing intestinal stem cells that generate IECs, which are composed by distinct specialised cell types that play different functions: Enterocytes (in the ...

Chemical and Biological Engineering PhD student Max Yavitt is the lead author on a new paper in Science Advancesthat focuses on intestinal tissue research. The work could allow researchers to control ...

Intestinal cells can change specializations during their lives. The BMP signaling pathway – an important communication mechanism between cells – appears to be the driver of these changes. That is what ...

As people live longer, the gut quietly accumulates damage that can tip the balance between healthy tissue renewal and chronic disease. Researchers have now traced a key part of that shift to specific ...

Intestinal epithelial cells line the inner wall of the gut, creating a barrier to dangerous bacteria like enteropathogenic E. coli that seek to attach and efface that barrier, causing diarrhea. Such ...