Departamento de Química, Universidad Técnica Federico Santa María, Avenida España 1680, Valparaíso 2340000, Chile.
Department of Plant Biotechnology and Bioinformatics, Ghent University, 9052 Ghent, Belgium.
Int J Mol Sci. 2024 Sep 21;25(18):10158. doi: 10.3390/ijms251810158.
Much work has been dedicated to the quest to determine the structure-activity relationship in synthetic brassinosteroid (BR) analogs. Recently, it has been reported that analogs with phenyl or benzoate groups in the alkyl chain present activities comparable to those shown by natural BRs, depending on the nature of the substituent in the aromatic ring. However, as it is well known that the activity depends on the structure of the whole molecule, in this work, we have synthesized a series of compounds with the same substituted benzoate in the alkyl chain and a hydroxyl group at C3. The main goal was to compare the activities with analogs with -OH at C2 and C3. Additionally, a molecular-docking study and molecular dynamics simulations were performed to establish a correlation between the experimental and theoretical results. The synthesis of eight new BR analogs was described. All the analogs were fully characterized by spectroscopical methods. The bioactivity of these analogs was assessed using the rice lamina inclination test (RLIT) and the inhibition of the root and hypocotyl elongation of . The results of the RLIT indicate that at the lowest tested concentration (1 × 10 M), in the BR analogs in which the aromatic ring was substituted at the para position with methoxy, the I and CN substituents were more active than brassinolide (50-72%) and 2-3 times more active than those analogs in which the substituent group was F, Cl or Br atoms. However, at the highest concentrations, brassinolide was the most active compound, and the structure-activity relationship changed. On the other hand, the results of the root sensitivity assay show that brassinolide and the analogs with I and CN as substituents on the benzoyl group were the most active compounds. These results are in line with those obtained via the RLIT. A comparison of these results with those obtained for similar analogs that had a hydroxyl group at C2 indicates the importance of considering the whole structure. The molecular-docking results indicate that all the analogs adopted a brassinolide-like orientation, while the stabilizing effect of the benzoate group on the interactions with the receptor complex provided energy binding values ranging between -10.17 and -13.17 kcal mol, where the analog with a nitrile group was the compound that achieved better contact with the amino acids present in the active site.
人们致力于探索合成油菜素内酯(BR)类似物的结构-活性关系。最近的研究表明,烷基链中带有苯基或苯甲酸酯基团的类似物具有与天然 BR 相当的活性,具体取决于芳环取代基的性质。然而,众所周知,活性取决于整个分子的结构,因此,在这项工作中,我们合成了一系列烷基链中带有相同取代苯甲酸酯和 C3 位羟基的化合物。主要目标是比较 C2 和 C3 位带有-OH 的类似物的活性。此外,还进行了分子对接研究和分子动力学模拟,以建立实验和理论结果之间的相关性。描述了八种新 BR 类似物的合成。所有类似物均通过光谱方法进行了充分表征。使用水稻叶片倾斜测试(RLIT)和对根和下胚轴伸长的抑制来评估这些类似物的生物活性。RLIT 的结果表明,在所测试的最低浓度(1×10-5 M)下,在芳环对位用甲氧基取代的 BR 类似物中,I 和 CN 取代基比油菜素内酯(50-72%)更具活性,比那些取代基为 F、Cl 或 Br 原子的类似物活性高 2-3 倍。然而,在最高浓度下,油菜素内酯是最活跃的化合物,结构-活性关系发生了变化。另一方面,根敏感性测定的结果表明,油菜素内酯和苄酰基上带有 I 和 CN 取代基的类似物是最活跃的化合物。这些结果与 RLIT 的结果一致。将这些结果与具有 C2 位羟基的类似物的结果进行比较表明,考虑整个结构的重要性。分子对接结果表明,所有类似物都采用了油菜素内酯样的取向,而苯甲酸酯基团对与受体复合物相互作用的稳定作用提供了介于-10.17 和-13.17 kcal/mol 之间的能量结合值,其中带有腈基的类似物与活性位点中存在的氨基酸的接触更好。
