Fan Fan, Hu Rong, Munzli Anke, Chen Yuan, Dunn Robert T, Weikl Kerstin, Strauch Simone, Schwandner Ralf, Afshari Cynthia A, Hamadeh Hisham, Nioi Paul
*Amgen Inc., Comparative Biology and Safety Sciences, Department of Discovery Toxicology, Thousand Oaks, California 91320 and Amgen Research GmbH, 93053 Regensburg, Germany.
*Amgen Inc., Comparative Biology and Safety Sciences, Department of Discovery Toxicology, Thousand Oaks, California 91320 and Amgen Research GmbH, 93053 Regensburg, Germany
Toxicol Sci. 2015 Jun;145(2):283-95. doi: 10.1093/toxsci/kfv052. Epub 2015 Mar 9.
Off-target effects of drugs on nuclear hormone receptors (NHRs) may result in adverse effects in multiple organs/physiological processes. Reliable assessments of the NHR activities for drug candidates are therefore crucial for drug development. However, the highly permissive structures of NHRs for vastly different ligands make it challenging to predict interactions by examining the chemical structures of the ligands. Here, we report a detailed investigation on the agonistic and antagonistic activities of 615 known drugs or drug candidates against a panel of 6 NHRs: androgen, progesterone, estrogen α/β, and thyroid hormone α/β receptors. Our study revealed that 4.7 and 12.4% compounds have agonistic and antagonistic activities, respectively, against this panel of NHRs. Nonetheless, potent, unintended NHR hits are relatively rare among the known drugs, indicating that such interactions are perhaps not tolerated during drug development. However, we uncovered examples of compounds that unintentionally agonize or antagonize NHRs. In addition, a number of compounds showed multi-NHR activities, suggesting that the cross-talk between multiple NHRs co-operate to elicit in vivo effects. These data highlight the merits of counter screening drug candidate against NHRs during drug discovery/development.
药物对核激素受体(NHRs)的脱靶效应可能会在多个器官/生理过程中导致不良反应。因此,对候选药物的NHR活性进行可靠评估对于药物开发至关重要。然而,NHRs对差异极大的配体具有高度宽松的结构,这使得通过检查配体的化学结构来预测相互作用具有挑战性。在此,我们报告了对615种已知药物或候选药物针对一组6种NHRs(雄激素、孕激素、雌激素α/β和甲状腺激素α/β受体)的激动和拮抗活性的详细研究。我们的研究表明,分别有4.7%和12.4%的化合物对该组NHRs具有激动和拮抗活性。尽管如此,在已知药物中,强效的、意外的NHR作用靶点相对较少,这表明在药物开发过程中这种相互作用可能无法被容忍。然而,我们发现了一些意外激动或拮抗NHRs的化合物实例。此外,一些化合物表现出多NHR活性,这表明多个NHRs之间的相互作用共同引发体内效应。这些数据突出了在药物发现/开发过程中针对NHRs对候选药物进行反向筛选的优点。
