Adeoluwa A Adeluola, Hanna S Radomska, Tyler A Wilson, Samuel K Kulp, Alyssa Kabat, Timothy H Helms, Abigail K Mayo, Emma J Montgomery, Justin Thomas, Lynn M Marcho, Travis Costa, Mayu Fukuda, Diana D Kang, Sandip Vibhute, Dasheng Wang, Chad E Bennett, Christopher C Coss
{"title":"阐明物种特异性受体药理学:使用亚型选择性对位硼烷和元硼烷雌激素受体激动剂的案例研究。","authors":"Adeoluwa A Adeluola, Hanna S Radomska, Tyler A Wilson, Samuel K Kulp, Alyssa Kabat, Timothy H Helms, Abigail K Mayo, Emma J Montgomery, Justin Thomas, Lynn M Marcho, Travis Costa, Mayu Fukuda, Diana D Kang, Sandip Vibhute, Dasheng Wang, Chad E Bennett, Christopher C Coss","doi":"10.1124/jpet.123.001874","DOIUrl":null,"url":null,"abstract":"<p><p>Estrogen receptors are essential pharmacological targets for treating hormonal disorders and estrogen-dependent malignancies. Selective activation of estrogen receptor (ER) β is hypothesized to provide therapeutic benefit with reduced risk of unwanted estrogenic side-effects associated with ERα activity. However, activating ERβ without activating α is challenging due to the high sequence and structural homology between the receptor subtypes. We assessed the impact of structural modifications to the parent compound OSU-ERβ-12 on receptor subtype binding selectivity using cell-free binding assays. Functional selectivity was evaluated by transactivation in HEK-293 cells overexpressing human or murine estrogen receptors. <i>In vivo</i> selectivity was examined through the uterotrophic effects of the analogs after oral administration in estrogen-naïve female mice. Furthermore, we evaluated the <i>in vivo</i> pharmacokinetics of the analogs following single dose IV and oral administration. Regarding selectivity, a single compound exhibited greater functional selectivity than OSU-ERβ-12 for human ERβ. However, like others in the <i>meta</i>-carborane series, its poor <i>in vivo</i> pharmacokinetics limit its suitability for further development. Surprisingly, and at odds with their pharmacokinetic and <i>in vitro</i> human activity data, most analogs potently induced uterotrophic effects in estrogen-naïve female mice. Further investigation of activity in HEK293 cells expressing murine estrogen receptors revealed species-specific differences in the ER-subtype selectivity of these analogs. Our findings highlight species-specific receptor pharmacology and the challenges it poses to characterizing developmental therapeutics in preclinical species. <b>Significance Statement</b> This study investigates <i>para</i>- and <i>meta</i>-substituted carborane analogs targeting estrogen receptors, revealing the greater selectivity of carborane analogs for human ERβ compared to the mouse homolog. These findings shed light on the intricacies of using preclinical species in drug development to predict human pharmacology. The report also provides insights for the refinement and optimization of carborane analogs as potential therapeutic agents for estrogen-related disease states.</p>","PeriodicalId":16798,"journal":{"name":"Journal of Pharmacology and Experimental Therapeutics","volume":null,"pages":null},"PeriodicalIF":3.1000,"publicationDate":"2024-06-27","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"<b>The elucidation of species-specific receptor pharmacology: a case study using subtype selective <i>para</i>- and <i>meta</i>-carborane estrogen receptor agonists</b>.\",\"authors\":\"Adeoluwa A Adeluola, Hanna S Radomska, Tyler A Wilson, Samuel K Kulp, Alyssa Kabat, Timothy H Helms, Abigail K Mayo, Emma J Montgomery, Justin Thomas, Lynn M Marcho, Travis Costa, Mayu Fukuda, Diana D Kang, Sandip Vibhute, Dasheng Wang, Chad E Bennett, Christopher C Coss\",\"doi\":\"10.1124/jpet.123.001874\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Estrogen receptors are essential pharmacological targets for treating hormonal disorders and estrogen-dependent malignancies. Selective activation of estrogen receptor (ER) β is hypothesized to provide therapeutic benefit with reduced risk of unwanted estrogenic side-effects associated with ERα activity. However, activating ERβ without activating α is challenging due to the high sequence and structural homology between the receptor subtypes. We assessed the impact of structural modifications to the parent compound OSU-ERβ-12 on receptor subtype binding selectivity using cell-free binding assays. Functional selectivity was evaluated by transactivation in HEK-293 cells overexpressing human or murine estrogen receptors. <i>In vivo</i> selectivity was examined through the uterotrophic effects of the analogs after oral administration in estrogen-naïve female mice. Furthermore, we evaluated the <i>in vivo</i> pharmacokinetics of the analogs following single dose IV and oral administration. Regarding selectivity, a single compound exhibited greater functional selectivity than OSU-ERβ-12 for human ERβ. However, like others in the <i>meta</i>-carborane series, its poor <i>in vivo</i> pharmacokinetics limit its suitability for further development. Surprisingly, and at odds with their pharmacokinetic and <i>in vitro</i> human activity data, most analogs potently induced uterotrophic effects in estrogen-naïve female mice. Further investigation of activity in HEK293 cells expressing murine estrogen receptors revealed species-specific differences in the ER-subtype selectivity of these analogs. Our findings highlight species-specific receptor pharmacology and the challenges it poses to characterizing developmental therapeutics in preclinical species. <b>Significance Statement</b> This study investigates <i>para</i>- and <i>meta</i>-substituted carborane analogs targeting estrogen receptors, revealing the greater selectivity of carborane analogs for human ERβ compared to the mouse homolog. 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The elucidation of species-specific receptor pharmacology: a case study using subtype selective para- and meta-carborane estrogen receptor agonists.
Estrogen receptors are essential pharmacological targets for treating hormonal disorders and estrogen-dependent malignancies. Selective activation of estrogen receptor (ER) β is hypothesized to provide therapeutic benefit with reduced risk of unwanted estrogenic side-effects associated with ERα activity. However, activating ERβ without activating α is challenging due to the high sequence and structural homology between the receptor subtypes. We assessed the impact of structural modifications to the parent compound OSU-ERβ-12 on receptor subtype binding selectivity using cell-free binding assays. Functional selectivity was evaluated by transactivation in HEK-293 cells overexpressing human or murine estrogen receptors. In vivo selectivity was examined through the uterotrophic effects of the analogs after oral administration in estrogen-naïve female mice. Furthermore, we evaluated the in vivo pharmacokinetics of the analogs following single dose IV and oral administration. Regarding selectivity, a single compound exhibited greater functional selectivity than OSU-ERβ-12 for human ERβ. However, like others in the meta-carborane series, its poor in vivo pharmacokinetics limit its suitability for further development. Surprisingly, and at odds with their pharmacokinetic and in vitro human activity data, most analogs potently induced uterotrophic effects in estrogen-naïve female mice. Further investigation of activity in HEK293 cells expressing murine estrogen receptors revealed species-specific differences in the ER-subtype selectivity of these analogs. Our findings highlight species-specific receptor pharmacology and the challenges it poses to characterizing developmental therapeutics in preclinical species. Significance Statement This study investigates para- and meta-substituted carborane analogs targeting estrogen receptors, revealing the greater selectivity of carborane analogs for human ERβ compared to the mouse homolog. These findings shed light on the intricacies of using preclinical species in drug development to predict human pharmacology. The report also provides insights for the refinement and optimization of carborane analogs as potential therapeutic agents for estrogen-related disease states.
期刊介绍:
A leading research journal in the field of pharmacology published since 1909, JPET provides broad coverage of all aspects of the interactions of chemicals with biological systems, including autonomic, behavioral, cardiovascular, cellular, clinical, developmental, gastrointestinal, immuno-, neuro-, pulmonary, and renal pharmacology, as well as analgesics, drug abuse, metabolism and disposition, chemotherapy, and toxicology.