Pharmaceutical Research Institute, 8 Rydygiera, 01-793, Warszawa, Poland.
J Pharm Sci. 2013 Nov;102(11):3925-31. doi: 10.1002/jps.23701. Epub 2013 Aug 14.
As predicted by single crystal X-ray crystallography, and contrary to the reported suggestions, the anhydrous form of calcipotriol, a therapeutically important vitamin D analog, was found stable enough to be used as an active pharmaceutical ingredient. The crystal and molecular structure of calcipotriol anhydrate was solved and refined using single crystal X-ray diffraction. The analog was obtained by a novel convergent synthesis from the vitamin D C-22 sulfone, as an advanced intermediate and a side-chain fragment. The homo-chiral side-chain aldehyde was obtained from cyclopropanecarboxyaldehyde by the chromatographic separation of the intermediate diastereomeric salts with (S)-naproxen. Calcipotriol anhydrate showed a single peak in differential scanning calorimetry and the absence of a peak from a water molecule, typical for the monohydrate. Calcipotriol anhydrate, as the only 1,25-dihydroxylated analog of vitamin D3 , exists as a mixture of both α- and β-forms of the A-ring, present in the asymmetric part of the unit cell of the crystal lattice. The intermolecular hydrogen bonding between both conformers in the crystal lattice indicated that the stability of calcipotriol anhydrate might be at least the same as for the known monohydrate. The usefulness of calcipotriol anhydrate as an active pharmaceutical ingredient was confirmed by the stability study in the standard conditions used for the storage of vitamin D analogs.
正如单晶 X 射线晶体学所预测的那样,与已报道的建议相反,钙泊三醇(一种重要的治疗用维生素 D 类似物)的无水形式被发现足够稳定,可以用作活性药物成分。通过单晶 X 射线衍射法解决和精修了无水钙泊三醇的晶体和分子结构。该类似物是通过维生素 D C-22 亚砜的新型会聚合成获得的,作为一种高级中间体和侧链片段。同手性侧链醛是通过用(S)-萘普生对中间非对映盐进行色谱分离从环丙烷羧酸醛获得的。钙泊三醇无水物在差示扫描量热法中显示出单一峰,并且没有水分子的峰,这是一水合物的典型特征。钙泊三醇无水物是维生素 D3 的唯一 1,25-二羟化类似物,以 A 环的 α-和 β-形式的混合物形式存在,存在于晶格晶胞的不对称部分。晶格中两种构象体之间的分子间氢键表明,钙泊三醇无水物的稳定性至少与已知的一水合物相同。钙泊三醇无水物作为活性药物成分的有用性通过在用于储存维生素 D 类似物的标准条件下进行的稳定性研究得到了证实。
