HEXIM1 modulates vascular endothelial growth factor expression and function in breast epithelial cells and mammary gland.

Recently, we found that mutation of the C-terminus of transcription factor hexamethylene bisacetamide-inducible protein 1 (HEXIM1) in mice leads to abnormalities in cardiovascular development because of aberrant vascular endothelial growth factor (VEGF) expression. HEXIM1 regulation of some genes has also been shown to be positive transcription elongation factor b (P-TEFb) dependent. However, it is not known whether HEXIM1 regulates VEGF in the mammary gland. We demonstrate that HEXIM1 regulates estrogen-induced VEGF transcription through inhibition of estrogen receptor-alpha recruitment to the VEGF promoter in a P-TEFb-independent manner in MCF-7 cells. Under hypoxic conditions, HEXIM1 inhibits estrogen-induced hypoxia-inducible factor-1 alpha (HIF-1alpha) protein expression and recruitment of HIF-1alpha to the hypoxia-response element in the VEGF promoter. In the mouse mammary gland, increased HEXIM1 expression decreased estrogen-driven VEGF and HIF-1alpha expression. Conversely, a mutation in the C-terminus of HEXIM1 (HEXIM1(1-312)) led to increased VEGF and HIF-1alpha expression and vascularization in mammary glands of heterozygous HEXIM1(1-312) mice when compared with their wild-type littermates. In addition, HEXIM1(1-312) mice have a higher incidence of carcinogen-induced mammary tumors with increased vascularization, suggesting an inhibitory role for HEXIM1 during angiogenesis. Taken together, our data provide evidence to suggest a novel role for HEXIM1 in cancer progression.

hPMC2 is required for recruiting an ERbeta coactivator complex to mediate transcriptional upregulation of NQO1 and protection against oxidative DNA damage by tamoxifen.

In the presence of ERbeta, trans-hydroxytamoxifen (TOT) protects cells against 17beta-estradiol (E(2))-induced oxidative DNA damage (ODD) and this correlates with increased expression of the antioxidative enzyme quinone reductase (QR). Here, we investigate the molecular mechanism responsible for ERbeta-mediated protection against ODD. We observe constitutive interaction between ERbeta and the novel protein hPMC2. Using a combination of breast epithelial cell lines that are either positive or negative for ERalpha, we demonstrate TOT-dependent recruitment of both ERbeta and hPMC2 to the EpRE (electrophile response element)-regulated antioxidative enzyme QR. We further demonstrate TOT-dependent corecruitment of the coactivators Nrf2, PARP-1 (poly (ADP-ribose) polymerase 1) and topoisomerase IIbeta, both in the presence and absence of ERalpha. However, absence of either ERbeta or hPMC2 results in nonrecruitment of PARP-1 and topoisomerase IIbeta, loss of antioxidative enzyme induction and attenuated protection against ODD by TOT even in the presence of Nrf2 and ERalpha. These findings indicate minor role for Nrf2 and ERalpha in TOT-dependent antioxidative gene regulation. However, downregulation of PARP-1 attenuates TOT-dependent antioxidative gene induction. We conclude that ERbeta and hPMC2 are required for TOT-dependent recruitment of coactivators such as PARP-1 to the EpRE resulting in the induction of antioxidative enzymes and subsequent protection against ODD.

Protective roles of quinone reductase and tamoxifen against estrogen-induced mammary tumorigenesis.

We previously reported that antiestrogen-liganded estrogen receptor beta (ERbeta) transcriptionally activates the major detoxifying enzyme quinone reductase (QR) (NAD(P)H:quinone oxidoreductase). Further studies on the functional role of ERbeta-mediated upregulation of antioxidative enzymes indicated protective effects against estrogen-induced oxidative DNA damage (ODD). We now report on in vivo and in vitro studies that show that ERbeta-mediated upregulation of QR are involved in the protection against estrogen-induced mammary tumorigenesis. Using the August Copenhagen Irish (ACI) model of estrogen-induced carcinogenesis, we observed that increased ODD and decreased QR expression occur early in the process of estrogen-induced mammary tumorigenesis. Prevention of ACI mammary gland tumorigenesis by tamoxifen was accompanied by decreased ODD and increased QR levels. These correlative findings were supported by our findings that downregulation of QR levels led to increased levels of estrogen quinone metabolites and enhanced transformation potential of 17beta-estradiol treated MCF10A non-tumorigenic breast epithelial cells. Concurrent expression of ERbeta and treatment with 4-hydroxytamoxifen decreased tumorigenic potential of these MCF10A cells. We conclude that upregulation of QR, through induction by tamoxifen, can inhibit estrogen-induced ODD and mammary cell tumorigenesis, representing a possible novel mechanism of tamoxifen prevention against breast cancer.