Dysregulation of steroid hormone biosynthesis has been implicated in the pathophysiology of a variety of cancers. One such common malignancy in women is breast cancer that is frequently promoted by estrogen overproduction. All steroid hormones are made from cholesterol, and the rate-limiting step in steroid biosynthesis is primarily mediated by the steroidogenic acute regulatory (StAR) protein. Whereas the involvement of StAR in the regulation steroid hormone biosynthesis is well established, its association to breast cancer remains obscure. Herein, we report that estrogen receptor positive breast cancer cell lines (MCF7, MDA-MB-361, and T-47D) displayed aberrant high expression of the StAR protein, concomitant with 17β-estradiol (E2) synthesis, when compared their levels with normal mammary epithelial (MCF10A and MCF12F) and triple negative breast cancer (MDA-MB-468, MDA-MB-231, and BT-549) cells. StAR was identified as a novel acetylated protein in MCF7 cells, in which liquid chromatography-tandem mass spectrometry analysis identified seven StAR acetyl lysine residues under basal and in response to histone deacetylase (HDAC) inhibition. A number of HDAC inhibitors were capable of diminishing StAR expression and E2 synthesis in MCF7 cells. The validity of StAR protein acetylation and its correlation to HDAC inhibition mediated steroid synthesis was demonstrated in adrenocortical tumor H295R cells. These findings provide novel insights that StAR protein is abundantly expressed in the most prevalent hormone sensitive breast cancer subtype, wherein inhibition of HDACs altered StAR acetylation patterns and decreased E2 levels, which may have important therapeutic implications in the prevention and treatment of this devastating disease.
Cancer is a multifactorial condition with aberrant growth of cells. A substantial number of cancers, breast in particular, are hormone sensitive and evolve due to malfunction in the steroidogenic machinery. Breast cancer, one of the most prevalent form of cancers in women, is primarily stimulated by estrogens. Steroid hormones are made from cholesterol, and regulation of steroid/estrogen biosynthesis is essentially influenced by the steroidogenic acute regulatory (StAR) protein. Although the impact of StAR in breast cancer remains a mystery, we recently reported that StAR protein is abundantly expressed in hormone sensitive breast cancer, but not in its non-cancerous counterpart. Herein, we analyzed genomic profiles, hormone receptor expression, mutation, and survival for StAR and steroidogenic enzyme genes in a variety of hormone sensitive cancers. These profiles were specifically assessed in breast cancer, exploiting The Cancer Genome Atlas (TCGA) datasets. Whereas StAR and key steroidogenic enzyme genes evaluated (CYP11A1, HSD3B, CYP17A1, CYP19A1, and HSD17B) were altered to varying levels in these hormone responsive cancers, amplification of the StAR gene was correlated with poor overall survival of patients afflicted with breast cancer. Amplification of the StAR gene and its correlation to survival was also verified in a number of breast cancer studies. Additionally, TCGA breast cancer tumors associated with aberrant high expression of StAR mRNA were found to be an unfavorable risk factor for survival of patients with breast cancer. Further analyses of tumors, nodal status, and metastases of breast cancer tumors expressing StAR mRNA displayed cancer deaths in stage specific manners. The majority of these tumors were found to express estrogen and progesterone receptors, signifying a link between StAR and luminal subtype breast cancer. Collectively, analyses of genomic and molecular profiles of key steroidogenic factors provide novel insights that StAR plays an important role in the biologic behavior and/or pathogenesis of hormone sensitive breast cancer.
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