Despite advances in treatment, breast cancer continues to be the second leading cause of cancer mortality in women. Statistics suggest that while focus on treatment should continue, chemopreventive approaches should also be pursued. Previous studies have demonstrated that naturally occurring retinoids such as 9-cis retinoic acid (9cRA) can prevent breast cancer in animal models. However, these studies have also shown that these compounds are too toxic for general use. Work from our laboratory showed that an RXR-selective retinoid LGD1069 prevented tumor development in animal models of cancer with reduced toxicity as compared to an RAR-selective retinoid TTNPB. In the present study, we investigated the mechanisms by which receptor-selective retinoids inhibit the growth of normal and malignant breast cells. Our results demonstrate that the synthetic retinoids tested are as effective as 9cRA in suppressing the growth of normal human mammary epithelial cells (HMECs) and estrogen receptor-positive (ER-positive) breast cancer cells. Although the receptor-selective retinoids induce minimal amounts of apoptosis in T47D breast cancer cells, the predominant factor that leads to growth arrest is G1 cell cycle blockade. Our data indicate that this blockade results from the downregulation of Cyclin D1 and Cyclin D3, which in turn causes Rb hypophosphorylation. Non-toxic retinoids that are potent inducers of cell cycle arrest may be particularly useful for the prevention of breast cancer.
Retinoids are vitamin A-related compounds that have been found to prevent cancer in animals and humans. In this review, we discuss the role of retinoids and their receptors in the treatment and prevention of breast cancer. The retinoid receptors are expressed in normal and malignant breast cells, and are critical for normal development. In breast cells, when bound by retinoid hormones, these proteins regulate proliferation, apoptosis, and differentiation. The mechanism by which retinoids inhibit breast cell growth has not been completely elucidated, however, retinoids have been shown to affect multiple signal transduction pathways, including IGF-, TGFbeta-, and AP-1-dependent pathways. Retinoids have also been shown to suppress the growth and prevent the development of breast cancer in animals. These agents suppress tumorigenesis in carcinogen-treated rats and in transgenic mice, and inhibit the growth of transplanted breast tumors. These promising preclinical results have provided the rationale to test retinoids in clinical trials for the treatment and prevention of breast cancer. Several retinoids, including all trans retinoic acid and 9-cis retinoic acid, have been shown to have modest activity in the treatment of breast cancer, and these agents are now in clinical trials in combination with cytotoxic agents and anti-estrogens. Another retinoid, 4-HPR, is currently being tested in a human cancer prevention trial. Preliminary results suggest that 4-HPR may suppress breast cancer development in premenopausal women. Future clinical trials will focus on testing new synthetic retinoids that have reduced toxicity and enhanced therapeutic and preventive efficacy.
Recent clinical studies are indicating that the estrogen receptor β variant β5 (ERβ5) expression correlates to worse prognosis. We wanted to know if expression of ERβ5 is changing the growth behavior of the triple negative cell line SUM159. Estrogen receptor β5 is highly similar to estrogen receptor β1 except for a truncated C-terminus making the remaining ligand binding domain incapable of binding to estrogen. In addition a 4 amino acid unique peptide is added to the C-terminal end. Stably expressing ERβ5 using a transposon integrated tetracycline regulated expression system we find that expression of ERβ5 increases proliferation of the triple negative SUM159 cells especially in reduced serum condition compared to control cells. Since SUM159 have been shown to depend on autocrine stimulation for growth we are suggesting that expression of ERβ5 is affecting the production of autocrine growth factors. Citation Format: Faria M, Tin-U C, Dey P, Gustafsson J-A, Strom AM. Estrogen receptor β5 increases aggressiveness of the triple negative breast cancer cell line SUM159. [abstract]. In: Proceedings of the Thirty-Eighth Annual CTRC-AACR San Antonio Breast Cancer Symposium: 2015 Dec 8-12; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2016;76(4 Suppl):Abstract nr P3-04-04.
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