Caveolin-1, Mammary Stem Cells, and Estrogen-Dependent Breast Cancers

Abstract

Estrogen exposure is considered a significant risk factor for breast cancer development. Estrogen receptor (ER) α is expressed at low levels in normal epithelia, and its expression is dramatically up-regulated as transformation progresses during mammary hyperplasia and adenocarcinoma development. The mechanism(s) driving ERα up-regulation during mammary tumorigenesis remains unclear. Caveolin-1 (Cav-1) is the structural protein of plasmalemmal invaginations, termed caveolae, which functions as a tumor suppressor gene. Interestingly, Cav-1 dominant-negative mutations are exclusively found in ERα-positive breast cancer samples. In support of these clinical findings, ERα expression is increased in Cav-1 (−/−) null mammary epithelia, and estrogen stimulation further enhances the growth of Cav-1-deficient three-dimensional epithelial structures. These phenotypes correlate with augmented levels of cyclin D1. In addition, Cav-1 gene inactivation induces the accumulation of a cell population with the characteristics of adult mammary stem cells. Primary cultures of Cav-1 (−/−) mammary epithelial cells exhibit premalignant changes, such as abnormal lumen formation, epidermal growth factor–independent growth, defects in cell substrate attachment, and increased cell invasiveness. Thus, Cav-1 gene inactivation promotes premalignant alterations in mammary epithelia and induces increased ERα expression levels and the up-regulation of cyclin D1. As tumor formation is a multihit process, Cav-1 mutations that occur during the early stages of mammary transformation may be a critical upstream/initiating event leading to increased ERα levels. (Cancer Res 2006; 66(22): 10647-51)