1. CB1 and CB2 Receptors are Novel Molecular Targets for Tamoxifen and 4OH-Tamoxifen
- Author
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FeAna FrancisDevaraj, Centdrika R. Dates, Lirit N. Franks, Anna Radominska-Pandya, Paul L. Prather, Aleksandra K. Greer, Stacie M. Bratton, and Benjamin M. Ford
- Subjects
Selective Estrogen Receptor Modulators ,Cannabinoid receptor ,Drug Inverse Agonism ,medicine.drug_class ,Biophysics ,Estrogen receptor ,Antineoplastic Agents ,Drug action ,CHO Cells ,Pharmacology ,Biology ,Biochemistry ,Article ,Receptor, Cannabinoid, CB2 ,Mice ,Cricetulus ,Receptor, Cannabinoid, CB1 ,medicine ,Cannabinoid receptor type 2 ,Animals ,Humans ,Receptor ,Molecular Biology ,Cell Membrane ,Cell Biology ,Tamoxifen ,Selective estrogen receptor modulator ,Estrogen ,medicine.drug ,Protein Binding - Abstract
Tamoxifen (Tam) is classified as a selective estrogen receptor modulator (SERM) and is used for treatment of patients with ER-positive breast cancer. However, it has been shown that Tam and its cytochrome P450-generated metabolite 4-hydroxy-Tam (4OH-Tam) also exhibit cytotoxic effects in ER-negative breast cancer cells. These observations suggest that Tam and 4OH-Tam can produce cytotoxicity via estrogen receptor (ER)-independent mechanism(s) of action. The molecular targets responsible for the ER-independent effects of Tam and its derivatives are poorly understood. Interestingly, similar to Tam and 4OH-Tam, cannabinoids have also been shown to exhibit anti-proliferative and apoptotic effects in ER-negative breast cancer cells, and estrogen can regulate expression levels of cannabinoid receptors (CBRs). Therefore, this study investigated whether CBRs might serve as novel molecular targets for Tam and 4OH-Tam. We report that both compounds bind to CB1 and CB2Rs with moderate affinity (0.9-3 μM). Furthermore, Tam and 4OH-Tam exhibit inverse activity at CB1 and CB2Rs in membrane preparations, reducing basal G-protein activity. Tam and 4OH-Tam also act as CB1/CB2R-inverse agonists to regulate the downstream intracellular effector adenylyl cyclase in intact cells, producing concentration-dependent increases in intracellular cAMP. These results suggest that CBRs are molecular targets for Tam and 4OH-Tam and may contribute to the ER-independent cytotoxic effects reported for these drugs. Importantly, these findings also indicate that Tam and 4OH-Tam might be used as structural scaffolds for development of novel, efficacious, non-toxic cancer drugs acting via CB1 and/or CB2Rs.
- Published
- 2013