Cell- and animal-based models of bone formation reveal novel mechanisms involved in the cartilage-to-bone phenotype ...

Osteoblasts derived from MSCs are cells required for bone formation. Oxidative phosphorylation produces a lot of ATP and other products including NAD+ and ROS. These factors play important roles in ...

A new study of the PhyloBone project of the University of Turku, Finland, identifies hundreds of non-collagenous proteins in the bone matrix that may play regulatory roles in bone formation and ...

A recent study identifies Neural EGFL-like 2 (NELL2), a secreted protein, as a key regulator of bone homeostasis, offering potential therapeutic applications for osteoporosis. NELL2 promotes ...

New research uncovers how the Clec14a protein in capillary endothelial cells controls bone growth and maturation, revealing a key mechanism in skeletal development. Study: Type-H endothelial cell ...

A recent study identifies Neural EGFL-like 2 (NELL2), a secreted protein, as a key regulator of bone homeostasis, offering potential therapeutic applications for osteoporosis. NELL2 promotes ...

Tumor cells are known to be fickle sleeper agents, often lying dormant in distant tissues for years before reactivating and forming metastasis. Numerous factors have been studied to understand why the ...