Betulinic acid enhances TGF-ß signaling by altering TGF-ß receptors partitioning between lipid-raft/caveolae and non-caveolae membrane microdomains in mink lung epithelial cells.

ABSTRACT

BACKGROUND: TGF-ß is a key modulator in the regulation of cell proliferation and migration, and is also involved in the process of cancer development and progression. Previous studies have indicated that TGF-ß responsiveness is determined by TGF-ß receptor partitioning between lipid raft/caveolae-mediated and clathrin-mediated endocytosis. Lipid raft/caveolae-mediated endocytosis facilitates TGF-ß degradation and thus suppressing TGF-ß responsiveness. By contrast, clathrin-mediated endocytosis results in Smad2/3-dependent endosomal signaling, thereby promoting TGF-ß responsiveness. Because betulinic acid shares a similar chemical structure with cholesterol and has been reported to insert into the plasma membrane, we speculate that betulinic acid changes the fluidity of the plasma membrane and modulates the signaling pathway associated with membrane microdomains. We propose that betulinic acid modulates TGF-ß responsiveness by changing the partitioning of TGF-ß receptor between lipid-raft/caveolae and non-caveolae microdomain on plasma membrane. METHODS: We employed sucrose-density gradient ultracentrifugation and confocal microscopy to determine membrane localization of TGF-ß receptors and used a luciferase assay to examine the effects of betulinic acid in TGF-ß-stimulated promoter activation. In addition, we perform western blotting to test TGF-ß-induced Smad2 phosphorylation and fibronectin production. RESULTS AND CONCLUSIONS: Betulinic acid induces translocation of TGF-ß receptors from lipid raft/caveolae to non-caveolae microdomains without changing total level of TGF-ß receptors. The betulinic acid-induced TGF-ß receptors translocation is rapid and correlate with the TGF-ß-induced PAI-1 reporter gene activation and growth inhibition in Mv1Lu cells.