Auberson Yves P, Brocklehurst Cara, Furegati Markus, Fessard Thomas C, Koch Guido, Decker Andrea, La Vecchia Luigi, Briard Emmanuelle
Global Discovery Chemistry, Novartis Institutes for BioMedical Research, 141 Klybeckstrasse, 4057, Basel, Switzerland.
SpiroChem AG, Swiss Federal Institute of Technology (ETH) Zürich, LOC-HCI-H337, Wolfgang-Pauli Str. 10, 8093, Zürich, Switzerland.
ChemMedChem. 2017 Apr 20;12(8):590-598. doi: 10.1002/cmdc.201700082. Epub 2017 Mar 27.
Bicycloalkyl groups have been previously described as phenyl group bioisosteres. This article describes the synthesis of new building blocks allowing their introduction into complex molecules, and explores their use as a means to modify the physicochemical properties of drug candidates and improve the quality of imaging agents. In particular, the replacement of an aromatic ring with a bicyclo[1.1.1]pentane-1,3-diyl (BCP) group improves aqueous solubility by at least 50-fold, and markedly decreases nonspecific binding (NSB) as measured by CHI(IAM), the chromatographic hydrophobicity index on immobilized artificial membranes. Structural variations with the bicyclo[2.2.2]octane-1,4-diyl group led to more lipophilic molecules and did not show the same benefits regarding NSB or solubility, whereas substitutions with cubane-1,4-diyl showed improvements for both parameters. These results confirm the potential advantages of both BCP and cubane motifs as bioisosteric replacements for optimizing para-phenyl-substituted molecules.
双环烷基此前被描述为苯基生物电子等排体。本文描述了能够将其引入复杂分子的新型构建体的合成,并探索了它们作为修饰候选药物物理化学性质和提高成像剂质量的手段的用途。特别是,用双环[1.1.1]戊烷-1,3-二基(BCP)基团取代芳环可使水溶性提高至少50倍,并显著降低非特异性结合(NSB),这是通过固定化人工膜上的色谱疏水指数CHI(IAM)来衡量的。双环[2.2.2]辛烷-1,4-二基基团的结构变化导致分子更具亲脂性,并且在NSB或溶解度方面未显示出相同的优势,而立方烷-1,4-二基的取代在两个参数上均显示出改善。这些结果证实了BCP和立方烷基序作为生物电子等排体替代物在优化对苯基取代分子方面的潜在优势。
