Development of Predictive Retention-Activity Relationship Models of Barbiturates by Micellar Liquid Chromatography

Y. Martín-Biosca, M. Molero-Monfort, S. Sagrado, R. Villanueva-Camañas, M. Medina-Hernández
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引用次数: 13

Abstract

The need to get a tool for biological parameters estimation of new compounds for clinical applications, supports the postulation of predictive models as an alternative to conventional classical assays being no necessary the use of experimentation in animals. Our main aim in this work is to determine correlations between the logarithm of capacity factors and preclinical pharmacology and therapeutic efficacy parameters of barbiturates. The predictive and interpretative capability of quantitative chromatographic retention-biological activity models is supported by the fact that in adequate experimental conditions the solute partitioning into chromatographic system can emulate the solute partitioning into lipid bilayers of biological membranes, which is the basis for drug and metabolite uptake, passive transport across membranes and bioaccumulation. Thirteen barbiturates were included in the study. The RP-HPLC capacity factors of barbiturates were determined using different Brij35 concentrations as micellar mobile phases. Relationships between sixteen biological activities of barbiturates reported in bibliography and retention data are established and their predictive and interpretative ability are evaluated. These logarithmic relationships were significant between preclinical pharmacology parameters and the retention factors of barbiturates; so the regression coefficients (R2) for ED, EC50-LRR and duration of action were 0.97, 0.98 and 0.95, respectively. These relationships were great too for therapeutic efficacy parameters; i.e for IC50, Ki (50% inhibition displaceable [14C]-amobarbital binding to acetylcholine receptor-rich membranes) and Ki (for PIP-kinase) (R2=0.98). The results indicate, the retention of compounds in MLC, which depends on hydrophobic, electronic and steric features of compounds and is measured in flow conditions, is capable to describe and predict in vitro the biological responses of barbiturates. This approach merits further exploration in other classes of compounds.
巴比妥酸盐胶束液相色谱预测保留-活性关系模型的建立
对临床应用的新化合物的生物学参数估计工具的需求,支持了预测模型作为传统经典分析的替代假设,而无需在动物实验中使用。我们在这项工作中的主要目的是确定容量因子的对数与巴比妥类药物的临床前药理学和治疗效果参数之间的相关性。定量色谱保留-生物活性模型的预测和解释能力得到了这样一个事实的支持:在适当的实验条件下,色谱系统中的溶质分配可以模拟溶质分配到生物膜的脂质双层,这是药物和代谢物摄取、膜间被动运输和生物积累的基础。13种巴比妥类药物被纳入研究。以不同浓度的Brij35为胶束流动相,测定巴比妥酸盐的RP-HPLC容量因子。本文建立了文献中报道的16种巴比妥类药物生物活性与保留数据之间的关系,并对其预测和解释能力进行了评价。临床前药理学参数与巴比妥类药物的保留因子呈显著的对数关系;ED、EC50-LRR和作用时间的回归系数R2分别为0.97、0.98和0.95。这些关系在治疗效果参数上也很显著;即对于IC50, Ki(50%的抑制可置换[14C]-阿莫巴比妥结合到富含乙酰胆碱受体的膜上)和Ki(对于pip激酶)(R2=0.98)。结果表明,化合物在MLC中的保留率取决于化合物的疏水性、电子和位阻特征,并在流动条件下测量,能够描述和预测巴比妥酸盐的体外生物反应。这种方法值得在其他种类的化合物中进一步探索。
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