Fibronectin Matrix Turnover Occurs through a Caveolin-1 Dependent Process

Jane Sottile* and Jennifer Chandler

Center for Cardiovascular Research, Department of Medicine, University of Rochester, Rochester, NY 14642

Monitoring Editor: Jean Schwarzbauer

Extracellular matrix remodelingoccurs during development, tissue repair, and in a number ofpathologies, including fibrotic disorders, hypertension, andatherosclerosis. Extracellular matrix remodeling involves thecomplex interplay between extracellular matrix synthesis, deposition,and degradation. Factors that control these processes are likelyto play key roles in regulating physiological and pathologicalextracellular matrix remodeling. Our data show that fibronectinpolymerization into the extracellular matrix regulates the depositionand stability of other extracellular matrix proteins, includingcollagen I and thrombospondin-1. In the absence of continualfibronectin polymerization, there is a loss of fibronectin matrixfibrils, and increased levels of fibronectin degradation. Fibronectindegradation occurs intracellularly following endocytosis, andcan be inhibited by chloroquine, an inhibitor of lysosomal degradation,and by caveolae-disrupting agents. Down-regulation of caveolin-1by RNAi inhibits loss of fibronectin matrix fibrils, fibronectininternalization, and fibronectin degradation; these processescan be restored by reexpression of caveolin-1. These data showthat fibronectin matrix turnover occurs through a caveolin-1dependent process. Caveolin-1 regulation of fibronectin matrixturnover is a novel mechanism regulating extracellular matrixremodeling.

^*Corresponding author. E-mail: jane_sottile{at}urmc.rochester.edu

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