Selective estrogen receptor modulators (SERMs) are currently in use in the hormonal therapy of breast cancer. In that respect, a new hormone-related approach is the therapeutical inhibition of steroid sulfatase (STS), which converts inactive, sulfated steroids into active hormones. We investigated the potential of 6-EO-14, a non-steroidal STS inhibitor with SERM potential. The latter compound, which exhibits a sulfamate moiety, releases the phenol derivative 8-EO-14 after the irreversible inhibition of STS. STS was inhibited by 6-EO-14 (IC50 = 0.3 μM), but not 8-EO-14, in HEK-293 cells transfected with an STS expression vector. The SERM potential of 8-EO-14 was assessed in osteoblast-like Saos-2 cells by investigating its effect on cell proliferation and on the activity of alkaline phosphatase (ALP), a specific differentiation marker. Saos-2 cell proliferation was increased by 21 % following 8-EO-14 addition (1 μM), and 8-EO-14 induced ALP activity (31 % increase at 0.1 nM) via estrogen receptor alpha (ERα) similarly to the SERM raloxifene. As compared to estradiol (E2) (100 %), the relative binding affinity of 6-EO-14 and 8-EO-14) for ERα was found to be weak (0.09 and 0.01 %, respectively). When assessed in two estrogen-dependent human breast cancer cell lines (MCF-7 and T-47D), 8-EO-14 did not support MCF-7 cell proliferation, whereas both 8-EO-14 and 6-EO-14 exhibited estrogen-like growth stimulation in T-47D cells. These two compounds were also unable to block E2-induced cell proliferation, suggesting their lack of antiestrogenic activity. Despite the known potency of 6-EO-14 as an STS inhibitor, the observed trophic activity of this new scaffold towards ERα-positive cells needs to be carefully considered prior to its potential utilization as a therapeutic agent.
A very simple and efficient method has been developed for the synthesis of various methylarenes from the corresponding benzonitriles under mild conditions. The protocol uses Pearlman's catalyst to achieve the transformation under an atmosphere of gaseous hydrogen and proceeds smoothly in many common solvents. A series of methylarenes were thus obtained in high yields and purities.
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