Research Resources for Nuclear Receptor Signaling Pathways

Demystifying the Functional Role of Nuclear Receptors in Esophageal Cancer

Esophageal cancer (EC), an aggressive and poorly understood disease, is one of the top causes of cancer-related fatalities. GLOBOCAN 2020 reports that there are 544,076 deaths and 604,100 new cases expected worldwide. Even though there are various advancements in treatment procedures, this cancer has been reported as one of the most difficult cancers to cure, and to increase patient survival; treatment targets still need to be established. Nuclear receptors (NRs) are a type of transcription factor, which has a key role in several biological processes such as reproduction, development, cellular differentiation, stress response, immunity, metabolism, lipids, and drugs, and are essential regulators of several diseases, including cancer. Numerous studies have demonstrated the importance of NRs in tumor immunology and proved the well-known roles of multiple NRs in modulating proliferation, differentiation, and apoptosis. There are surplus of studies conducted on NRs and their implications in EC, but only a few studies have demonstrated the diagnostic and prognostic potential of NRs. Therefore, there is still a paucity of the role of NRs and different ways to target them in EC cells to stop them from spreading malignancy. This review emphasizes the significance of NRs in EC by discussing their diverse agonists as well as antagonists and their response to tumor progression. Additionally, we emphasize NRs’ potential to serve as a novel therapeutic target and their capacity to treat and prevent EC.

Discovery of new chalone adamantyl arotinoids having RXRα-modulating and anticancer activities

In the present study, a new series of chalcone adamantly arotinoids (chalcone AdArs) derived from RAR antagonist MX781, are synthesized, characterized, and evaluated for the biological activities in vitro. The studies of antiproliferative activity and RXRα-binding affinity of target compounds result in the discovery of a lead candidate (WA15), which is a good RXRα binder (K_d = 2.89 × 10^-6 M) with potent antiproliferative activity against human cancer cell lines (IC₅₀ ≈ 10 μM) and low toxic to normal LO2 and MRC-5 cells (IC₅₀ > 50 μM). Different from MX781, WA15 eliminates RARα antagonist activity but inhibits 9-cis-RA-induced RXRα transactivation activity in a dose-dependent manner. Compound WA15 is found to be a good apoptosis inducer in various cancer cells and promotes cell apoptosis in an RXRα-independent manner. Besides, WA15 shows the induction of proteasome-dependent RXRα degradation which might enhance the WA15-induced apoptosis. Finally, the immunoblotting indicates that WA15 can inhibit the TNFα-induced IKK activation and IκBα degradation, suggesting that the anticancer activity of WA15 might be related to the inhibition of IKK/NF-κB signal pathway.

New Insights in Prostate Cancer Development and Tumor Therapy: Modulation of Nuclear Receptors and the Specific Role of Liver X Receptors

Prostate cancer (PCa) incidence has been dramatically increasing these last years in westernized countries. Though localized PCa is usually treated by radical prostatectomy, androgen deprivation therapy is preferred in locally advanced disease in combination with chemotherapy. Unfortunately, PCa goes into a castration-resistant state in the vast majority of the cases, leading to questions about the molecular mechanisms involving the steroids and their respective nuclear receptors in this relapse. Interestingly, liver X receptors (LXRα/NR1H3 and LXRβ/NR1H2) have emerged as new actors in prostate physiology, beyond their historical roles of cholesterol sensors. More importantly LXRs have been proposed to be good pharmacological targets in PCa. This rational has been based on numerous experiments performed in PCa cell lines and genetic animal models pointing out that using selective liver X receptor modulators (SLiMs) could actually be a good complementary therapy in patients with a castration resistant PCa. Hence, this review is focused on the interaction among the androgen receptors (AR/NR3C4), estrogen receptors (ERα/NR3A1 and ERβ/NR3A2), and LXRs in prostate homeostasis and their putative pharmacological modulations in parallel to the patients' support.