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Temperature effects on the stereospecificity of nucleophilic fluorination: formation of trans‐[ 18 F]4‐fluoro‐l‐proline during the synthesis of cis‐[ 18 F]4‐fluoro‐l‐proline

Title: Temperature effects on the stereospecificity of nucleophilic fluorination: formation of trans‐[ 18 F]4‐fluoro‐l‐proline during the synthesis of cis‐[ 18 F]4‐fluoro‐l‐proline
Authors: Behnam Azad, Babak; Ashique, Rezwan; Labiris, N. Renée; Chirakal, Raman
Source: Journal of Labelled Compounds and Radiopharmaceuticals ; volume 55, issue 1, page 23-28 ; ISSN 0362-4803 1099-1344
Publisher Information: Wiley
Publication Year: 2011
Collection: Wiley Online Library (Open Access Articles via Crossref)
Description: Fluorine‐18 labeled (2 S ,4 S )‐4‐fluoro‐ l ‐proline ( cis ‐[ 18 F]4‐FPro) has been reported to be a potential positron emission tomography tracer to study abnormal collagen synthesis occurring in pulmonary fibrosis, osteosarcomas, mammary and colon carcinomas. In this paper, we report the stereospecific radiofluorination of (2 S ,4 R )‐ N‐tert ‐butoxycarbonyl‐4‐( p ‐toluenesulfonyloxy) proline methyl ester (at 110°C) to produce diastereomerically pure cis ‐[ 18 F]4‐FPro in 38% radiochemical yield at the end of a 90‐min synthesis. Investigation of the effect of temperature on the stereospecificity of nucleophilic fluorination showed that diasteriomerically pure cis ‐[ 18 F]4‐FPro or trans ‐[ 18 F]4‐FPro was produced at lower temperatures (85°C–110°C) during the fluorination of (2S,4R) or (2 S ,4 S ) precursors, respectively. However, at higher temperatures (130°C–145°C), fluorination of (2 S ,4 R ) precursor produced a mixture of cis ‐[ 18 F]4‐FPro and trans ‐[ 18 F]4‐FPro diastereomers with cis ‐[ 18 F]4‐FPro as the predominant isomer. Hydrolysis of the purified fluorinated intermediate was carried out either in one step, using 2 m triflic acid at 145°C for 10 min, or in two steps where the intermediate was heated in 1 m HCl at 110°C for 10 min followed by stirring at room temperature in 1 N NaOH for 5 min. The aqueous hydrolysis mixture was loaded onto an anion exchange column (acetate form for one‐step hydrolysis) or an ion retardation column (two‐step hydrolysis) followed by a C 18 Sep‐Pak® (Waters Corporation, Milford, MA, USA). Pure cis ‐[ 18 F]4‐FPro was then eluted with sterile water. We also report that epimerization of cis ‐[ 18 F]4‐FPro occurs during the two‐step hydrolysis (H + followed by OH − ) of the intermediate, resulting in 5 ± 3% trans ‐[ 18 F]4‐FPro, whereas the one‐step acid hydrolysis yielded pure cis ‐[ 18 F]4‐FPro in the final product. Copyright © 2011 John Wiley & Sons, Ltd.
Document Type: article in journal/newspaper
Language: English
DOI: 10.1002/jlcr.1947
DOI: 10.1002/jlcr.1947/fullpdf
Availability: https://doi.org/10.1002/jlcr.1947; https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1002%2Fjlcr.1947; http://onlinelibrary.wiley.com/wol1/doi/10.1002/jlcr.1947/fullpdf
Rights: http://onlinelibrary.wiley.com/termsAndConditions#vor
Accession Number: edsbas.CFB16FBF
Database: BASE