Béatrice de Bruin scite author profile

FPyME (1-[3-(2-fluoropyridin-3-yloxy)propyl]pyrrole-2,5-dione) was designed as a [(18)F]fluoropyridine-based maleimide reagent for the prosthetic labeling of peptides and proteins via selective conjugation with a thiol (sulfhydryl) function. Its pyridinyl moiety carries the radioactive halogen (fluorine-18) which can be efficiently incorporated via a nucleophilic heteroaromatic substitution, and its maleimido function ensures the efficient alkylation of a free thiol function as borne by cysteine residues. [(18)F]FPyME (HPLC-purified) was prepared in 17-20% non-decay-corrected yield, based on starting [(18)F]fluoride, in 110 min using a three-step radiochemical pathway. The developed procedure involves (1) a high-yield nucleophilic heteroaromatic ortho-radiofluorination on [3-(3-tert-butoxycarbonylaminopropoxy)pyridin-2-yl]trimethylammonium trifluoromethanesulfonate as the fluorine-18 incorporation step, followed by (2) rapid and quantitative TFA-induced removal of the N-Boc-protective group and (3) optimized maleimide formation using N-methoxycarbonylmaleimide. Typically, 4.8-6.7 GBq (130-180 mCi) of radiochemically pure [(18)F]FPyME ([(18)F]-1) could be obtained after semipreparative HPLC in 110 min starting from a cyclotron production batch of 33.3 GBq (900 mCi) of [(18)F]fluoride (overall radiochemical yields, based on starting [(18)F]fluoride: 28-37% decay-corrected). [(18)F]FPyME ([(18)F]-1) was first conjugated with a small model hexapeptide ((N-Ac)KAAAAC), confirming the excellent chemoselectivity of the coupling reaction (CH(2)SH versus CH(2)NH(2)) and then conjugated with two 8-kDa proteins of interest, currently being developed as tumor imaging agents (c-AFIM-0 and c-STxB). Conjugation was achieved in high yields (60-70%, isolated and non-decay-corrected) and used optimized, short-time reaction conditions (a 1/9 (v/v) mixture of DMSO and 0.05 M aq Tris NaCl buffer (pH 7.4) or 0.1 M aq PBS (pH 8), at room temperature for 10 min) and purification conditions (a gel filtration using a Sephadex NAP-10 cartridge or a SuperDex Peptide HR 10/30 column), both compatible with the chemical stability of the proteins and the relatively short half-life of the radioisotope concerned. The whole radiosynthetic procedure, including the preparation of the fluorine-18-labeled reagent, the conjugation with the protein and the final purification took 130-140 min. [(18)F]FPyME ([(18)F]-1) represents a new, valuable, thiol-selective, fluorine-18-labeled reagent for the prosthetic labeling with fluorine-18 of peptides and proteins. Because of its excellent chemoselectivity, [(18)F]FPyME offers an interesting alternative to the use of the nonselective carboxylate and amine-reactive [(18)F]reagents and can therefore advantageously be used for the design and development of new peptide- and protein-based radiopharmaceuticals for PET.

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Design and Synthesis of a New [¹⁸F]Fluoropyridine-Based Haloacetamide Reagent for the Labeling of Oligonucleotides: 2-Bromo-N-[3-(2-[¹⁸F]fluoropyridin-3-yloxy)propyl]acetamide

Kühnast

Bruin

Hinnen

et al. 2004

Bioconjugate Chem.

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Based on the recently highlighted potential of nucleophilic heteroaromatic ortho-radiofluorinations in the preparation of fluorine-18-labeled radiotracers and radiopharmaceuticals for PET, a [(18)F]fluoropyridine-based bromoacetamide reagent has been prepared and used in prosthetic group introduction for the labeling of oligonucleotides. [(18)F]FPyBrA (2-bromo-N-[3-(2-[(18)F]fluoropyridin-3-yloxy)propyl]acetamide) was designed as a radiochemically feasible reagent, its pyridinyl moiety both carrying the radioactive halogen (fluorine-18) and allowing its efficient incorporation via a nucleophilic heteroaromatic substitution, and its 2-bromoacetamide function, ensuring the efficient alkylation of a phosphorothioate monoester group born at the 3'- or 5'-end of single-stranded oligonucleotides. [(18)F]FPyBrA (HPLC-purified) was efficiently prepared in 18-20% non-decay-corrected yield (based on starting [(18)F]fluoride) using a three-step radiochemical pathway in 80-85 min. The developed procedure involves (1) a high-yield nucleophilic heteroaromatic ortho-radiofluorination as the fluorine-18 incorporation-step (70-85% radiochemical yield) and uses [3-(3-tert-butoxycarbonylaminopropoxy)pyridin-2-yl]trimethylammonium trifluoromethanesulfonate as precursor for labeling, followed by (2) rapid and quantitative TFA-removal of the N-Boc-protective group and (3) condensation with 2-bromoacetyl bromide (45-65% radiochemical yield). Typically, 3.3-3.7 GBq (90-100 mCi) of HPLC-purified [(18)F]FPyBrA could be obtained in 80-85 min, starting from 18.5 GBq (500 mCi) of a cyclotron production batch of [(18)F]fluoride. [(18)F]FPyBrA was regioselectively conjugated with 9-mer and 18-mer single-stranded oligonucleotides, provided with a phosphorothioate monoester group at their 3'-end. Both natural phosphodiester DNAs and in vivo-stable 2'-methoxy and -fluoro-modified RNAs were used. Conjugation uses optimized, short-time reaction conditions (MeOH/0.1 M PBS pH 7.4, 15 min, 120 degrees C), both compatible with the chemical stability of the oligonucleotides (ONs) and the half-life of fluorine-18. Conjugated [(18)F]ONs were finally purified by RP-HPLC and desalted using a Sephadex NAP-10 column. The whole radiosynthetic procedure, including the preparation of the fluorine-18-labeled reagent, the conjugation with the oligonucleotide, and the HPLC purification and formulation lasted 140-160 min. [(18)F]FPyBrA represents a valuable alternative to the already reported N-(4-[(18)F]fluorobenzyl)-2-bromoacetamide for the design and development of oligonucleotide-based radiopharmaceuticals for PET.

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