3-氨基-6-(3'-氨基丙基)-5H-茚并[1,2-c]异喹啉-5,11-(6H)-二酮(AM6-36)的代谢物的鉴定、合成和生物学评价,这是一种有前途的类视黄醇先导化合物,可用于开发癌症化疗和化学预防药物。
Identification, synthesis, and biological evaluation of the metabolites of 3-amino-6-(3'-aminopropyl)-5H-indeno[1,2-c]isoquinoline-5,11-(6H)dione (AM6-36), a promising rexinoid lead compound for the development of cancer chemotherapeutic and chemopreventive agents.
机构信息
Department of Medicinal Chemistry and Pharmacognosy, College of Pharmacy, The University of Illinois at Chicago, Chicago, Illinois 60612, United States.
出版信息
J Med Chem. 2012 Jun 28;55(12):5965-81. doi: 10.1021/jm3006806. Epub 2012 Jun 19.
Abstract
Activation of the retinoid X receptor (RXR), which is involved in cell proliferation, differentiation, and apoptosis, is a strategy for cancer chemotherapy and chemoprevention, and 3-amino-6-(3'-aminopropyl)-5H-indeno[1,2-c]isoquinoline-5,11-(6H)dione (AM6-36) (3) is among the few RXR ligands known. The presently reported studies of 3 include its binding to human plasma proteins, metabolic stability using human liver microsomes, metabolism by human liver microsomes and hepatocytes, and in vivo disposition in rat serum, liver, and mammary tissue. Compound 3 was 75% bound to human plasma proteins, and its metabolic stability was much greater than propranolol. One phase I metabolite was formed by human liver microsomes, seven phase I and II metabolites were formed by human hepatocytes, and five metabolites were detected in rat serum and liver after oral administration. The putative metabolites predicted using LC-MS-MS were synthesized to confirm their structures and to provide sufficient material for investigation of induction of RXRE transcriptional activity and inhibition of NFκB.
摘要
维甲酸 X 受体 (RXR) 的激活参与细胞增殖、分化和凋亡,是癌症化疗和化学预防的一种策略,3-氨基-6-(3'-氨基丙基)-5H-茚并[1,2-c]异喹啉-5,11-(6H)-二酮 (AM6-36) (3) 是少数已知的 RXR 配体之一。目前对 3 的研究包括其与人血浆蛋白的结合、用人肝微粒体测定的代谢稳定性、用人肝微粒体和肝细胞进行的代谢以及在大鼠血清、肝脏和乳腺组织中的体内处置。化合物 3 与人血浆蛋白的结合率为 75%,其代谢稳定性远大于普萘洛尔。人肝微粒体形成一种 I 相代谢物,人肝细胞形成七种 I 相和 II 相代谢物,口服后在大鼠血清和肝脏中检测到五种代谢物。使用 LC-MS-MS 预测的假定代谢物被合成以确认其结构,并提供足够的材料用于研究 RXRE 转录活性的诱导和 NFκB 的抑制。
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