By knocking out a single gene for caveolin-1, Teymuras Kurzchalia (Max Planck Institute, Dresden, Germany) and colleagues have ablated a special subset of lipid rafts called caveolae. The resulting mice survive, perhaps surprisingly, but show alterations in signaling that affect cell contractility and proliferation.
Caveolin-1 is the major protein in caveolae, and its oligomerization and cholesterol binding may help form these flask-shaped invaginations. Caveolae have been implicated in both transcytosis and signaling, but the knockout mice seem to retain functional transcytosis in endothelial cells that now lack caveolae. “In the beginning I thought transport through the endothelium would be totally destroyed,” says Kurzchalia. “After almost 50 years, this hypothesis needs to be fundamentally revised.”
Vasoconstriction and myogenic tone are dysregulated in the knockout mice, probably as a result of hyperactive endothelial nitric oxide synthase (eNOS). Kurzchalia...