Okamura William H, Zhu Gui-Dong, Hill David K, Thomas Richard J, Ringe Kerstin, Borchardt Daniel B, Norman Anthony W, Mueller Leonard J
Department of Chemistry, University of California, Riverside, California 92521, USA.
J Org Chem. 2002 Mar 8;67(5):1637-50. doi: 10.1021/jo011096y.
Isotope-labeled drug molecules may be useful for probing by NMR spectroscopy the conformation of ligand associated with biological hosts such as membranes and proteins. Triple-labeled [7,9,19-(13)C(3)]-vitamin D(3) (56), its 25-hydroxylated and 1 alpha,25-dihydroxylated metabolites (58 and 68, respectively), and other labeled materials have been synthesized via coupling of [9-(13)C]-Grundmann's ketone 39 or its protected 25-hydroxy derivative 43 with labeled A ring enyne fragments 25 or 26. The labeled CD-ring fragment 39 was prepared by a sequence involving Grignard addition of [(13)C]-methylmagnesium iodide to Grundmann's enone 28, oxidative cleavage, functional group modifications leading to seco-iodide 38, and finally a kinetic enolate S(N)2 cycloalkylation. The C-7,19 double labeling of the A-ring enyne was achieved by the Corey-Fuchs/Wittig processes on keto aldehyde 11. By employing these labeled fragments in the Wilson-Mazur route, the C-7,9,19 triple-(13)C-labeled metabolites 56, 58, and 68 as well as other (13)C-labeled metabolites have been prepared. In an initial NMR investigation of one of the labeled metabolites prepared in this study, namely [7,9,19-(13)C(3)]-25-hydroxyvitamin D(3) (58), the three (13)C-labeled carbons of the otherwise water insoluble steroid could be clearly detected by (13)C NMR analysis at 0.1 mM in a mixture of CD(3)OD/D(2)O (60/40) or in aqueous dimethylcyclodextrin solution and at 2 mM in 20 mM sodium dodecyl sulfate (SDS) aqueous micellar solution. In the SDS micellar solution, a double half-filter NOESY experiment revealed that the distance between the H(19Z) and H(7) protons is significantly shorter than that of the corresponding distance calculated from the solid state (X-ray) structure of the free ligand. The NMR data in micelles reveals that 58 exists essentially completely in the alpha-conformer with the 3 beta-hydroxyl equatorially oriented, just as in the solid state. The shortened distance (H(19Z))-H(7)) in micellar solutions as compared to that in the solid state is most easily rationalized on the basis that the 5(10)-torsion angle in 58 is decreased in micellar solutions as compared to that in the solid state.
同位素标记的药物分子可能有助于通过核磁共振光谱法探测与生物宿主(如膜和蛋白质)相关的配体构象。通过将[9-(13)C]-格伦德曼酮39或其受保护的25-羟基衍生物43与标记的A环烯炔片段25或26偶联,合成了三重标记的[7,9,19-(13)C(3)]-维生素D(3)(56)、其25-羟基化和1α,25-二羟基化代谢物(分别为58和68)以及其他标记材料。标记的CD环片段39是通过一系列反应制备的,包括将[(13)C]-甲基碘化镁格氏加成到格伦德曼烯酮28上、氧化裂解、官能团修饰生成开链碘化物38,最后进行动力学烯醇盐S(N)2环烷基化。通过在酮醛11上进行科里-富克斯/维蒂希反应实现了A环烯炔的C-7,19双标记。通过在威尔逊-马祖尔路线中使用这些标记片段,制备了C-7,9,19三重(13)C标记的代谢物56、58和68以及其他(13)C标记的代谢物。在对本研究中制备的一种标记代谢物,即[7,9,19-(13)C(3)]-25-羟基维生素D(3)(58)的初步核磁共振研究中,在CD(3)OD/D(2)O(60/40)混合物中0.1 mM或在水性二甲基环糊精溶液中,以及在20 mM十二烷基硫酸钠(SDS)水性胶束溶液中2 mM时,通过(13)C核磁共振分析可以清楚地检测到这种原本不溶于水的类固醇的三个(13)C标记碳。在SDS胶束溶液中,双半滤波NOESY实验表明,H(19Z)和H(7)质子之间的距离明显短于根据游离配体的固态(X射线)结构计算出的相应距离。胶束中的核磁共振数据表明,58基本上完全以α-构象存在,3β-羟基处于赤道取向,与固态情况相同。与固态相比,胶束溶液中缩短的(H(19Z))-H(7))距离最容易基于以下原因得到解释:与固态相比,胶束溶液中58的5(10)-扭转角减小。
