Synthesis of 13 C-labeled parabens from isotopically enriched phenols using the Houben-Hoesch reaction.
Keith P ReberJohn D SiveyMatthew VollmuthPriyansh D GujaratiPublished in: Journal of labelled compounds & radiopharmaceuticals (2022)
Parabens are antimicrobial additives found in a wide array of consumer products. However, the halogenated compounds formed from parabens during wastewater disinfection are a potential environmental concern. In order to identify these transformation products and investigate their mechanism of formation, a synthetic route to ethyl parabens labeled with the stable isotope carbon-13 at specific positions within the benzene ring was developed. This efficient two-step procedure starts from commercially available 13 C-labeled phenols and involves (1) initial acylation of the phenol via a Houben-Hoesch reaction with trichloroacetonitrile followed by (2) a modified haloform reaction of the resulting trichloromethyl ketone to afford the corresponding 13 C-labeled ethyl parabens in 65%-80% overall yield. The scope of the modified haloform reaction was also investigated, allowing for the synthesis of other parabens derived from primary or secondary alcohols, including 13 C- and deuterium-labeled esters. In addition, 4-hydroxybenzoic acid can be formed directly from the common trichloromethyl ketone intermediate upon treatment with lithium hydroxide. This protocol complements existing methods for preparing 13 C-labeled paraben derivatives and offers the specific advantages of exhibiting complete regioselectivity in the Houben-Hoesch reaction (to form the para-disubstituted product) and avoiding the need for protecting groups in the modified haloform reaction that forms the paraben esters.