Caveolin‐1 tumor‐promoting role in human melanoma

Abstract

Caveolin‐1 (Cav‐1), a member of the caveolin family, regulates caveolae‐associated signaling proteins, which are involved in many biological processes, including cancer development. Cav‐1 was found to exert a complex and ambiguous role as oncogene or tumor suppressor depending on the cellular microenvironment. Here we investigated Cav‐1 expression and function in a panel of melanomas, finding its expression in all the cell lines. The exception was the primary vertical melanoma cell line, WM983A, characterized by the lack of Cav‐1, and then utilized as a recipient for Cav‐1 gene transduction to address a series of functional studies. The alleged yet controversial role of phospho (Ph)‐Cav‐1 on cell regulation was also tested by transducing the nonphosphorylatable Cav‐1Y14A mutant. Wild‐type Cav‐1, but not mutated Cav‐1Y14A, increased tumorigenicity as indicated by enhanced proliferation, migration, invasion and capacity of forming foci in semisolid medium. Accordingly, Cav‐1 silencing inhibited melanoma cell growth reducing some of the typical traits of malignancy. Finally, we detected a secreted fraction of Cav‐1 associated with cell released microvesicular particles able to stimulate in vitro anchorage independence, migration and invasion in a paracrine/autocrine fashion and, more important, competent to convey metastatic asset from the donor melanoma to the less aggressive recipient cell line. A direct correlation between Cav‐1 levels, the amount of microvesicles released in the culture medium and MMP‐9 expression was also observed. © 2009 UICC