349-43-9Relevant articles and documents
Fluorinating agent and synthesis method thereof
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Paragraph 0073-0081, (2020/09/16)
The invention discloses a fluorinating agent, and also discloses a preparation method of the fluorinating agent, wherein an amide corresponding to the structural formula of the product reacts with a halogenating agent to obtain corresponding alpha, alpha-dihaloamine, and the alpha, alpha-dihaloamine reacts with a fluoride to obtain the corresponding fluorinating agent. The fluorinating agent has the advantages of being stable in storage and capable of fluorinating hydroxyl with high yield, the preparation method is simple, the adopted raw materials are easy to obtain, the synthesis yield is high, and the fluorinating efficiency of the obtained product is high.
Prototypic 18F-Labeled Argininamide-Type Neuropeptide Y Y1R Antagonists as Tracers for PET Imaging of Mammary Carcinoma
Keller, Max,Maschauer, Simone,Brennauer, Albert,Tripal, Philipp,Koglin, Norman,Dittrich, Ralf,Bernhardt, Günther,Kuwert, Torsten,Wester, Hans-Jürgen,Buschauer, Armin,Prante, Olaf
supporting information, p. 304 - 309 (2017/03/17)
The neuropeptide Y (NPY) Y1 receptor (Y1R) selective radioligand (R)-Nα-(2,2-diphenylacetyl)-Nω-[4-(2-[18F]fluoropropanoylamino)butyl]aminocarbonyl-N-(4-hydroxybenzyl)argininamide ([18F]23), derived from the high-affinity Y1R antagonist BIBP3226, was developed for imaging studies of Y1R-positive tumors. Starting from the argininamide core bearing amine-functionalized spacer moieties, a series of fluoropropanoylated and fluorobenzoylated derivatives was synthesized and studied for Y1R affinity. The fluoropropanoylated derivative 23 displayed high affinity (Ki = 1.3 nM) and selectivity toward Y1R. Radiosynthesis was accomplished via 18F-fluoropropanoylation, yielding [18F]23 with excellent stability in mice; however, the biodistribution study revealed pronounced hepatobiliary clearance with high accumulation in the gall bladder (>100 %ID/g). Despite the unfavorable biodistribution, [18F]23 was successfully used for imaging of Y1R positive MCF-7 tumors in nude mice. Therefore, we suggest [18F]23 as a lead for the design of PET ligands with optimized physicochemical properties resulting in more favorable biodistribution and higher Y1R-dependent enrichment in mammary carcinoma.
Nucleophilic fluorination of triflates by tetrabutylammonium bifluoride
Kim, Kyu-Young,Bong, Chan Kim,Hee, Bong Lee,Shin, Hyunik
, p. 8106 - 8108 (2008/12/22)
(Chemical Equation Presented) Careful examination of nucleophilicity, basicity, and leaving group ability led us to discover the nucleophilic fluorination of triflates by weakly basic tetrabutylammonium bifluoride, which provides excellent yields with minimal formation of elimination-derived side products. Primary hydroxyl groups as well as secondary hydroxyl groups in acyclic chains or in five-membered rings are excellent substrates, whereas benzylic and aldol-type secondary hydroxyl groups give poor yields as a result of the instability of their triflates.