Dawson Marcia I, Harris Danni L, Liu Gang, Hobbs Peter D, Lange Christopher W, Jong Ling, Bruey-Sedano Nathalie, James Sharon Y, Zhang Xiao-Kun, Peterson Valerie J, Leid Mark, Farhana Lulu, Rishi Arun K, Fontana Joseph A
The Burnham Institute, Cancer Center, 10901 North Torrey Pines Road, La Jolla, CA 92037, USA.
J Med Chem. 2004 Jul 1;47(14):3518-36. doi: 10.1021/jm030524k.
The retinoid 6-[3'-(1-adamantyl)-4'-hydroxyphenyl]-2-naphthalenecarboxylic acid (AHPN) and its active analogues induce cell-cycle arrest and programmed cell death (apoptosis) in cancer cells independently of retinoic acid receptor (RAR) interaction. Its analogue, (E)-4-[3'-(1-adamantyl)-4'-hydroxyphenyl]-3-(3'-acetamidopropyloxy)cinnamic acid (3-A-AHPC) selectively antagonized cell apoptotic events (TR3/nur77/NGFI-B expression and nuclear-to-mitochondrial translocation) but not the proliferative events (cell-cycle arrest and p21(WAF1/CIP1) expression) induced by proapoptotic AHPN and its analogues. The syntheses of 3-A-AHPC and proapoptotic (E)-6-[3'-(1-adamantyl)-4'-hydroxyphenyl]-5-chloronaphthalenecarboxylic acid (5-Cl-AHPN) are described. Computational studies on AHPN, AHPC, and three substituted analogues (5-Cl-AHPN, 3-Cl-AHPC, and 3-A-AHPC) suggested reasons for their diametric effects on RAR activation. Density functional theory studies indicated that the 1-adamantyl (1-Ad) groups of the AHPN and AHPC configurations assumed positions that were nearly planar with the aromatic rings of their polar termini. In contrast, in the configurations of the substituted analogues having chloro and 3-acetamidopropyloxy groups, rather than a hydrogen, ortho to the diaryl bonds, the diaryl bond torsion angles increased so that the 1-Ad groups were oriented out of this plane. Docking and molecular dynamics of AHPN, AHPC, and these substituted analogues in the RARgamma ligand-binding domain illustrated how specific substituents on the AHPN and AHPC scaffolds modulated the positions and dynamics of the 1-Ad groups. As a result, the position of RARgamma helix H12 in forming the coactivator-binding site was impacted in a manner consistent with the experimental effect of each analogue on RARgamma transcriptional activation.
类视黄醇6-[3'-(1-金刚烷基)-4'-羟基苯基]-2-萘甲酸(AHPN)及其活性类似物可诱导癌细胞的细胞周期停滞和程序性细胞死亡(凋亡),且与视黄酸受体(RAR)相互作用无关。其类似物(E)-4-[3'-(1-金刚烷基)-4'-羟基苯基]-3-(3'-乙酰氨基丙氧基)肉桂酸(3-A-AHPC)选择性拮抗细胞凋亡事件(TR3/nur77/NGFI-B表达及细胞核至线粒体易位),但不拮抗促凋亡AHPN及其类似物诱导的增殖事件(细胞周期停滞和p21(WAF1/CIP1)表达)。本文描述了3-A-AHPC和促凋亡的(E)-6-[3'-(1-金刚烷基)-4'-羟基苯基]-5-氯萘甲酸(5-Cl-AHPN)的合成。对AHPN、AHPC及三种取代类似物(5-Cl-AHPN、3-Cl-AHPC和3-A-AHPC)的计算研究揭示了它们对RAR激活产生截然不同作用的原因。密度泛函理论研究表明,AHPN和AHPC构型中的1-金刚烷基(1-Ad)基团所处位置几乎与其极性末端的芳环共平面。相反,在二芳基键邻位具有氯和3-乙酰氨基丙氧基而非氢的取代类似物构型中,二芳基键扭转角增大,使得1-Ad基团偏离该平面。AHPN、AHPC及这些取代类似物在RARγ配体结合域中的对接和分子动力学研究表明,AHPN和AHPC支架上的特定取代基如何调节1-Ad基团的位置和动力学。结果,RARγ螺旋H12在形成共激活剂结合位点时的位置受到影响,这种影响方式与每种类似物对RARγ转录激活的实验效应一致。
