Evaluation of fluorinated biphenyl ether pro-drug scaffolds employing the chemical-microbial approach

Alex S. Hampton, Lena Mikulski, William Palmer-Brown, Cormac D. Murphy, Graham Sandford

Abstract

Incorporation of fluorine in a drug can dramatically affect its metabolism and methods to assess the effect of fluorine substitution on drug metabolism are required for effective drug design. Employing a previously developed chemical-microbial method the metabolism of a series of fluorinated biphenyl ethers was determined. The substrates were synthesized via Ullmann-type condensation reactions between bromotoluene and fluorophenol. The ethers were incubated with the fungus Cunninghamella elegans, which oxidises xenobiotics in an analogous fashion to mammals, generating a number of hydroxylated biphenyl ethers and acids. The propensity of the fluorinated ring to be hydroxylated depended upon the position of the fluorine atom, and the oxidation of the methyl group was observed when it was meta to the oxygen. The experiments demonstrate the applicability of the method to rapidly determine the effect of fluorine substitution on CYP-catalysed biotransformation of pro-drug molecules.

Graphical abstract

Keywords: Fluorine; Drug design; Phase 1 metabolism; Ullmann condensation; Microbial model.