[HTML][HTML] Collagen fibrillogenesis: fibronectin, integrins, and minor collagens as organizers and nucleators

KE Kadler, A Hill, EG Canty-Laird - Current opinion in cell biology, 2008 - Elsevier
KE Kadler, A Hill, EG Canty-Laird
Current opinion in cell biology, 2008Elsevier
Collagens are triple helical proteins that occur in the extracellular matrix (ECM) and at the
cell–ECM interface. There are more than 30 collagens and collagen-related proteins but the
most abundant are collagens I and II that exist as D-periodic (where D= 67nm) fibrils. The
fibrils are of broad biomedical importance and have central roles in embryogenesis, arthritis,
tissue repair, fibrosis, tumor invasion, and cardiovascular disease. Collagens I and II
spontaneously form fibrils in vitro, which shows that collagen fibrillogenesis is a …
Collagens are triple helical proteins that occur in the extracellular matrix (ECM) and at the cell–ECM interface. There are more than 30 collagens and collagen-related proteins but the most abundant are collagens I and II that exist as D-periodic (where D=67nm) fibrils. The fibrils are of broad biomedical importance and have central roles in embryogenesis, arthritis, tissue repair, fibrosis, tumor invasion, and cardiovascular disease. Collagens I and II spontaneously form fibrils in vitro, which shows that collagen fibrillogenesis is a selfassembly process. However, the situation in vivo is not that simple; collagen I-containing fibrils do not form in the absence of fibronectin, fibronectin-binding and collagen-binding integrins, and collagen V. Likewise, the thin collagen II-containing fibrils in cartilage do not form in the absence of collagen XI. Thus, in vivo, cellular mechanisms are in place to control what is otherwise a protein self-assembly process. This review puts forward a working hypothesis for how fibronectin and integrins (the organizers) determine the site of fibril assembly, and collagens V and XI (the nucleators) initiate collagen fibrillogenesis.
Elsevier