Your search keyword '"Fraser, BH"' showing total 2 results

1. Synthesis, bioconjugation and stability studies of [ 18 F]ethenesulfonyl fluoride.

Author

Zhang B, Pascali G, Wyatt N, Matesic L, Klenner MA, Sia TR, Guastella AJ, Massi M, Robinson AJ, and Fraser BH

Subjects

Animals, Cattle, Chemistry Techniques, Synthetic, Drug Stability, Fluorides chemistry, Fluorine Radioisotopes chemistry, Insulin metabolism, Isotope Labeling, Lasers, Excimer, Serum Albumin, Bovine metabolism, Sulfones chemistry, Fluorides chemical synthesis, Fluorides metabolism, Fluorine Radioisotopes metabolism, Sulfones chemical synthesis, Sulfones metabolism

Abstract

Fluorine-18 labelled prosthetic groups (PGs) are often necessary for radiolabelling sensitive biological molecules such as peptides and proteins. Several shortcomings, however, often diminish the final yield of radiotracer. In an attempt to provide higher yielding and operationally efficient tools for radiolabelling biological molecules, we describe herein the first radiochemical synthesis of [ 18 F]ethenesulfonyl fluoride ([ 18 F]ESF) and its Michael conjugation with amino acids and proteins. The synthesis of [ 18 F]ESF was optimised using a microfluidic reactor under both carrier-added (c.a.) and no-carrier-added (n.c.a.) conditions, affording, in a straightforward procedure, 30-50% radiochemical yield (RCY) for c.a. [ 18 F]ESF and 60-70% RCY for n.c.a. [ 18 F]ESF. The conjugation reactions were performed at room temperature using 10 mg/mL precursor in aqueous/organic solvent mixtures for 15 min. The radiochemical stability of the final conjugates was evaluated in injectable formulation and rat serum, and resulted strongly substrate dependent and generally poor in rat serum. Therefore, in this work we have optimised a straightforward synthesis of [ 18 F]ESF and its Michael conjugation with model compounds, without requiring chromatographic purification. However, given the general low stability of the final products, further studies will be required for improving conjugate stability, before assessing the use of this PG for PET imaging., (© 2018 John Wiley & Sons, Ltd.)

Published

2018

2. Radiosynthesis and 'click' conjugation of ethynyl-4-[(18)F]fluorobenzene--an improved [(18)F]synthon for indirect radiolabeling.

Author

Roberts MP, Pham TQ, Doan J, Jiang CD, Hambley TW, Greguric I, and Fraser BH

Subjects

Acetylene chemical synthesis, Acetylene chemistry, Click Chemistry methods, Fluorobenzenes chemical synthesis, Radiopharmaceuticals chemistry, Acetylene analogs & derivatives, Fluorine Radioisotopes chemistry, Fluorobenzenes chemistry, Radiopharmaceuticals chemical synthesis

Abstract

Reproducible methods for [(18)F]radiolabeling of biological vectors are essential for the development of new [(18)F]radiopharmaceuticals. Molecules such as carbohydrates, peptides and proteins are challenging substrates that often require multi-step indirect radiolabeling methods. With the goal of developing more robust, time saving, and less expensive procedures for indirect [(18)F]radiolabeling of such molecules, our group has synthesized ethynyl-4-[(18)F]fluorobenzene ([(18)F]2, [(18)F]EYFB) in a single step (14 ± 2% non-decay corrected radiochemical yield (ndc RCY)) from a readily synthesized, shelf stable, inexpensive precursor. The alkyne-functionalized synthon [(18)F]2 was then conjugated to two azido-functionalized vector molecules via CuAAC reactions. The first 'proof of principle' conjugation of [(18)F]2 to 1-azido-1-deoxy-β-D-glucopyranoside (3) gave the desired radiolabeled product [(18)F]4 in excellent radiochemical yield (76 ± 4% ndc RCY (11% overall)). As a second example, the conjugation of [(18)F]2 to matrix-metalloproteinase inhibitor (5), which has potential in tumor imaging, gave the radiolabeled product [(18)F]6 in very good radiochemical yield (56 ± 12% ndc RCY (8% overall)). Total preparation time for [(18)F]4 and [(18)F]6 including [(18)F]F(-) drying, two-step reaction (nucleophilic substitution and CuAAC conjugation), two HPLC purifications, and two solid phase extractions did not exceed 70 min. The radiochemical purity of synthon [(18)F]2 and the conjugated products, [(18)F]4 and [(18)F]6, were all greater than 98%. The specific activities of [(18)F]2 and [(18)F]6 were low, 5.97 and 0.17 MBq nmol(-1), respectively., (Copyright © 2015 John Wiley & Sons, Ltd.)

Published

2015