2-Amino-2′-[18F]fluorobenzhydrols,intermediates for the synthesis of [2′-18F]-1,4-benzodiazepine-2-ones

A method for synthesizing ¹⁸F-labelled 2-amino-2′-fluorobenzhydrols under nocarrier-added conditions for use as radiolabelled intermediates in the synthesis of[2′-¹⁸F]-1,4-benzodiazepine-2-ones is presented. Anilinodichloroborane reagents were formed by the reaction of boron trichloride with 4-chloro-N-methylaniline, 6a , 4-nitro-N-methylaniline, 6b , 4-nitro-N-ethylaniline, 6c , and 4-chloro-N-(2,2,2-trifluoroethyl)aniline, 6d . 2-[¹⁸F]Fluorobenzaldehyde, 5 , synthesized in 55–70% yields by the nucleophilic aromatic substitution of 2-nitrobenzaldehyde with the Kryptofix/K⁺ complex of [¹⁸F]F⁻, was subsequently reacted with the anilinodichloroborane coupling reagents with aromatic substitution occurring ortho to the amino group. The resulting 2-amino-2′-[¹⁸F]fluorobenzhydrols, 7a - 7d , were produced in conversions of 60–95% with reaction time ⩽ 10 min at room temperature or 60°C, depending on the aniline used. The total synthesis time, including evaporation of the target water, was 60–65 min. The total radiochemical conversions were of the order of 50–65% for 7a - 7c and 35–45% for 7d , decay-corrected and based on [¹⁸F]F⁻.     

Automated synthesis of N‐(2‐[18F]Fluoropropionyl)‐l‐glutamic acid as an amino acid tracer for tumor imaging on a modified [18F]FDG synthesis module

N‐(2‐[¹⁸F]Fluoropropionyl)‐l ‐glutamic acid ([¹⁸F]FPGLU) is a potential amino acid tracer for tumor imaging with positron emission tomography. However, due to the complicated multistep synthesis, the routine production of [¹⁸F]FPGLU presents many challenging laboratory requirements. To simplify the synthesis process of this interesting radiopharmaceutical, an efficient automated synthesis of [¹⁸F]FPGLU was performed on a modified commercial fluorodeoxyglucose synthesizer via a 2‐step on‐column hydrolysis procedure, including ¹⁸F‐fluorination and on‐column hydrolysis reaction. [¹⁸F]FPGLU was synthesized in 12 ± 2% (n = 10, uncorrected) radiochemical yield based on [¹⁸F]fluoride using the tosylated precursor 2 . The radiochemical purity was ≥98%, and the overall synthesis time was 35 minutes. To further optimize the radiosynthesis conditions of [¹⁸F]FPGLU, a brominated precursor 3 was also used for the preparation of [¹⁸F]FPGLU, and the improved radiochemical yield was up to 20 ± 3% (n  = 10, uncorrected) in 35 minutes. Moreover, all these results were achieved using the similar on‐column hydrolysis procedure on the modified fluorodeoxyglucose synthesis module.     

Rapid and efficient synthesis of [18F]fluoronicotinamides, [18F]fluoroisonicotinamides and [18F]fluorobenzamides as potential pet radiopharmaceuticals for melanoma imaging

In an attempt to simplify nucleophilic radiofluorination reactions to be amenable for automation, a series of [¹⁸F]fluoronicotinamides, [¹⁸F]fluoroisonicotinamides and [¹⁸F]fluorobenzamides were synthesized using one‐step synthetic approach involving displacement reactions on trimethylammonium‐nicotinamide, trimethylammonium‐isonicotinamide and trimethylammonium‐benzamide precursors. Based on starting [¹⁸F]‐fluoride, radiochemical yields and purities were found to be greater than 90 and 97%, respectively, within 20 min synthesis time and, without high‐performance liquid chromatography purification. This synthetic approach holds great promise as a rapid and simple method for the automated radiofluorination of [¹⁸F]fluoronicotinamides, [¹⁸F]fluoroisonicotinamides and [¹⁸F]fluorobenzamides with high radiochemical yield and very short preparation time. Copyright © 2011 John Wiley & Sons, Ltd.     

Automated synthesis of (R)-[18F]MH.MZ on the iPhase Flexlab reaction platform

(R)-[¹⁸F]MH.MZ ([¹⁸F]MH.MZ) is a promising positron emission tomography (PET) radiotracer for in vivo study of the 5-HT_2A receptor. To facilitate clinical trials, a fully automated radiosynthesis procedure for [¹⁸F]MH.MZ was developed using commercially available materials on the iPhase Flexlab module. The overall synthesis time was 100 min with a radiochemical yield of 7 ± 0.9% (n = 3). The radiochemical purity was greater than 99% for [¹⁸F]MH.MZ with a molar activity of 361 ± 57 GBq/μmol (n = 3). The protocol described herein reliably provides [¹⁸F]MH.MZ that meets all relevant release criteria for a GMP radiopharmaceutical.     

Novel synthesis of [18F]‐fluorobenzene and pyridinecarbohydrazide‐folates as potential PET radiopharmaceuticals

In an attempt to visualize folate receptors that over‐express on many cancers, [¹⁸F]‐fluorobenzene and pyridine carbohydrazide‐folates were synthesized using two different synthetic approaches starting from nucleophilic displacement reactions on ethyl‐trimethylammonium‐benzoate and pyridine carboxylate precursors. The intermediates ethyl [¹⁸F]‐fluorinated benzene and pyridine esters were reacted with hydrazine to produce the [¹⁸F]‐fluorobenzene and pyridine carbohydrazides followed by coupling with NHS‐folate 11 in the first approach. Whereas hydrazide‐folate 5 was reacted with 2,5‐dioxoazolidinyl [¹⁸F]‐fluorobenzenecarboxylate in the second approach. Based on starting [¹⁸F]‐fluoride, radiochemical yields and synthesis times were found to be around 80% (45 min) and 35% (80 min) for the first and the second approaches, respectively. The first synthetic approach holds considerable promise as a rapid and simple method for the radiofluorination of folic acid with high radiochemical yield and short time. Copyright © 2005 John Wiley & Sons, Ltd.     

Efficient Radiosynthesis of 2-[18F]Fluoroadenosine: A New Route to 2-[18F]Fluoropurine Nucleosides

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Automated radiosynthesis of the adenosine A2A receptor-targeting radiotracer [18F]FLUDA

[¹⁸F] FLUDA is a selective radiotracer for in vivo imaging of the adenosine A_2A receptor (A_2AR) by positron emission tomography (PET). Promising preclinical results obtained by neuroimaging of mice and piglets suggest the translation of [¹⁸F] FLUDA to human PET studies. Thus, we report herein a remotely controlled automated radiosynthesis of [¹⁸F] FLUDA using a GE TRACERlab FX2 N radiosynthesizer. The radiotracer was obtained by a one-pot two-step radiofluorination procedure with a radiochemical yield of 9±1%, a radiochemical purity of ≥99%, and molar activities in the range of 69–333 GBq/μmol at the end of synthesis within a total synthesis time of approx. 95 min (n = 16). Altogether, we successfully established a reliable and reproducible procedure for the automated production of [¹⁸F] FLUDA.     

Synthesis of 2‐[18F]fluoroadenosine (2‐[18F]FAD) as potential radiotracer for studying malignancies by PET

2‐[¹⁸F]fluoroadenosine (2‐[¹⁸F]FAD), a potential radioligand for assessment of adenylate metabolism, was synthesized by carrier‐added and no‐carrier‐added procedures via nucleophilic radiofluorination of 2‐fluoroadenosine and 2‐iodoadenosine. The radiochemical yield, specific radioactivity and radiochemical purity of carrier‐added and no‐carrier‐added 2‐[¹⁸F]FAD were 5%, 22–30 mCi/µmol and 99%, and 0.5%, 1200–1700 mCi/µmol and 99%, respectively. Copyright © 2006 John Wiley & Sons, Ltd.     

Development of a new precursor‐minimizing base control method and its application for the automated synthesis and SPE purification of [18F]fluoromisonidazole ([18F]FMISO)

Bases such as potassium carbonate and potassium bicarbonate (KHCO₃) are essential for the elution of trapped [¹⁸F]fluoride from ion exchange cartridges and for the prevention of [¹⁸F]fluoride adsorption on the silica glass vial during the preparation of radiopharmaceuticals for positron emission tomography imaging. However, these bases promote the chemical decomposition of precursor compounds and the creation of unwanted organic impurities. Thus, the goal of the current study was to develop a new method for synthesizing [¹⁸F]fluoride‐labeled radiopharmaceuticals (e.g., [¹⁸F]fluoromisonizadole ([¹⁸F]FMISO)) that permits the fine control of base concentrations while minimizing adverse events. Non‐decay‐corrected radiochemical yields of 25.1 ± 5.0% and 13.3 ± 5.1% (n = 3) were achieved after solid‐phase extraction purification using automatic synthesis with GE TRACERlab MX and KHCO₃ at concentrations of 14.1 and 33.0 µmol, respectively, and 1 mg of precursor (1‐(2′‐nitro‐1′‐imidazolyl)‐2‐O‐tetra‐hydropyranyl‐3‐O‐toluenesulfonyl propanediol (NITTP)). The newly developed synthesis protocol with fine base control and low precursor content permits high radiochemical yields with minimal impurities. Copyright © 2013 John Wiley & Sons, Ltd.     

Simple preparation of new [18F]F‐labeled synthetic amino acid derivatives with two click reactions in one‐pot and SPE purification

New [¹⁸F]fluorinated 1,2,3‐triazolyl amino acid derivatives were efficiently prepared from Huisgen 1,3‐dipolar cycloaddition reactions, well known as click reaction. We developed two simultaneous click reactions in one‐pot with a simple solid‐phase extraction (SPE) purification method. [¹⁸F]fluoro‐1‐propyne was obtained at a 45% non‐decay corrected radiochemical yield based on the [¹⁸F]fluoride ion. The one‐pot and simultaneous two click reactions were performed with unprotected azido‐alkyl amino acid, [¹⁸F]fluoro‐1‐propyne, and lipophilic additive alkyne to produce three synthetic amino acid derivatives, AMC‐101 ( [¹⁸F]‐6a ), AMC‐102 ( [¹⁸F]‐6b ), and AMC‐103 ( [¹⁸F]‐6c ) with 29%, 28%, and 24% of non‐decay corrected radiochemical yields, respectively. All radiotracers indicated that radiochemical purities were >95% without any residual organic solvent. Our new method involving two click reactions in one‐pot showed high radiochemical and chemical purity by easy removal of the residual precursor from the simultaneous two click reactions.     

自动化合成N-琥珀酰亚胺-4-[18F]氟苯甲酸酯

目的 合成18F同位素标记蛋白质、配体、多肽类的中间体N-琥珀酰亚胺-4-[18F]氟苯甲酸酯(18F-FB).方法 以乙基-4-三甲胺苯甲酸酯-三氟磺酸盐为反应前体,利用正电子发射断层成像(PET)显像药物2-氟-18-氟-2-脱氧-D-葡萄糖(18F-FDG)合成专用模块TRACERlab FX-FDG和多用合成模块TRACERlab FX-FN及其固相萃取系统,基于控制软件的改造,通过亲核取代、氢氧化钠水解、酯化反应"三步法"合成.结果 合成18F-FB的总放射性合成时间小于80 min,校正后放射化学产率(38±3)%(n=10),放射化学纯度＞99%,与标准品19F-FB行HPLC比对分析,在柱平均保留时间Tr=8.515 min,两者保留时间基本吻合.结论 此法可以成功合成18F-FB,合成工艺成熟稳定,完全实现了自动化合成,为成功实现18F同位素标记蛋白、多肽类大分子物质进而实现PET成像提供了良好条件.     

Design and synthesis of enantiopure 18F‐labelled [18F]trifluoromethyltryptophan from 2‐halotryptophan derivatives via copper(I)‐mediated [18F]trifluoromethylation and evaluation of its in vitro characterization for the serotonergic system imaging

We synthesized [¹⁸F]trifluoromethyl‐l ‐tryptophan ([¹⁸F]CF₃‐l ‐Trp) using Cu(I)‐mediated [¹⁸F]trifluoromethylation to image serotonergic system. Radiochemical yield was 6 ± 1.5% (n = 9), and radiochemical purity was over 99%. The molar activity was 0.44 to 0.76 GBq/μmol. [¹⁸F]CF₃‐l ‐Trp was stable for up to 6 hours in mouse and human sera at 37°C. Protein‐binding was 0.26 ± 0.03% and 0.34 ± 0.02% in human and mouse serum at 60 minutes, respectively. In conclusion, enantiopure [¹⁸F]CF₃‐l ‐Trp was synthesized as a feasible imaging agent for the serotonergic system.     

A concisely automated synthesis of TSPO radiotracer [18F]FDPA based on spirocyclic iodonium ylide method and validation for human use

Fluorine-18 labeled N,N-diethyl-2-(2-(4-(2-fluoroethoxy)phenyl)-5,7-dimethylpyrazolo[1,5-a]pyrimidin-3-yl)acetamide ([¹⁸F]FDPA) is a potent and selective radiotracer for positron-emission tomography (PET) imaging of the translocator protein 18 kDa (TSPO). Our previous in vitro and in vivo evaluations have proven that this tracer is promising for further human translation. Our study addresses the need to streamline the automatic synthesis of this radiotracer to make it more accessible for widespread clinical evaluation and application. Here, we successfully demonstrate a one-step radiolabeling of [¹⁸F]FDPA based on a novel spirocyclic iodonium ylide (SCIDY) precursor using tetra-n-butyl ammonium methanesulfonate (TBAOMs), which has demonstrated the highest radiochemical yields and molar activity from readily available [¹⁸F]fluoride ion. The nucleophilic radiofluorination was completed on a GE TRACERlab FX2 N synthesis module, and the formulated [¹⁸F]FDPA was obtained in nondecay corrected (n.d.c) radiochemical yields of 15.6 ± 4.2%, with molar activities of 529.2 ± 22.5 GBq/μmol (14.3 ± 0.6 Ci/μmol) at the end of synthesis (60 minutes, n = 3) and validated for human use. This methodology facilitates efficient synthesis of [¹⁸F]FDPA in a commercially available synthesis module, which would be broadly applicable for routine production and widespread clinical PET imaging studies.     

18F-氟代脱氧葡萄糖诱导MCF-7细胞株的凋亡研究

目的研究18F-氟代脱氧葡萄糖(18F-FDG)诱导体外培养MCF-7乳腺癌细胞的凋亡情况。方法不同剂量18F-FDG加入体外培养MCF-7乳腺癌细胞中共培养,以γ计数仪测定细胞摄取18F-FDG的量;用流式细胞仪测定细胞早期和晚期凋亡率;用TUNEL法测定细胞凋亡的数量。结果①相同数量级的MCF-7细胞对18F-FDG的摄取量与剂量增加呈线性;②流式细胞结果示:经12 h18F-FDG孵育引起MCF-7的平均早期凋亡率为12.5%,平均晚期凋亡率为39.3%,总平均凋亡率为51.8%。经24 h18F-FDG孵育引起MCF-7的平均早期凋亡率为10.4%,平均晚期凋亡率为42.1%,总平均凋亡率为52.5%;③TUNEL显示:用凋亡指数(apoptotic index,AI)表示,与空白对照组AI(5.13±1.51)%相比,18F-FDG孵育12 h爬片的AI为(45.93±1.51)%,18F-FDG孵育24 h爬片的AI为(46.93±1.52)%。结论一定剂量范围内,18F-FDG对MCF-7细胞诱导凋亡效果显著。     

One‐step synthesis of 4‐[18F]fluorobenzyltriphenylphosphonium cation for imaging with positron emission tomography

4‐[¹⁸F]Fluorobenzyltriphenylphosphonium cation (¹⁸F‐FBnTP) is a promising negative membrane potential targeting positron emission tomography tracer. However, the reported multistep radiolabeling approach for the synthesis of ¹⁸F‐FBnTP poses a challenge for routine clinical applications. In this study, we demonstrated that ¹⁸F‐FBnTP can be prepared in good conversion yields (~60%, nondecay corrected) in just one step via a copper‐mediated ¹⁸F‐fluorination reaction using a pinacolyl arylboronate precursor. In addition, our data suggest that ¹⁸F‐labeled (phosphonium) cations can be efficiently prepared via a copper‐mediated ¹⁸F‐fluoronation by using triflate as the counterion.     

Radiosynthesis of the HIV integrase inhibitor [18F]MK‐0518 (Isentress)

The human immunodeficiency virus integrase inhibitor, [¹⁸F]MK‐0518, was prepared via a three‐step, one‐pot radiosynthesis. [¹⁸F]4‐Fluorobenzylamine was produced from the fluorination of 4‐cyano‐N,N,N‐trimethylammonium triflate with [¹⁸F]fluoride and reduction with borane methylsulfide complex in 50–68% radiochemical yield. The final step, the coupling of [¹⁸F]4‐fluorobenzylamine with an ester coupling partner, achieved an overall uncorrected radiochemical yield after HPLC purification of ～2%, based on the starting [¹⁸F]fluoride. In a typical run, the total synthesis time was about 90 min and gave 0.37–1.74 GBq (10–47 mCi) of [¹⁸F]MK‐0518. The radiochemical purity of [¹⁸F]MK‐0518 was>98% and the specific activity was 243–1275 Ci/mmol (EOS, n=4). A convenient three‐step, one‐pot radiosynthesis of [¹⁸F]MK‐0518 via [¹⁸F]4‐fluorobenzylamine has been developed, giving sufficient quantities of [¹⁸F]MK‐0518 for animal positron emission tomography studies. Copyright © 2010 John Wiley & Sons, Ltd.     

An improved synthesis of the radiolabeled prostate‐specific membrane antigen inhibitor, [18F]DCFPyL

The radiosynthesis of [¹⁸F]DCFPyL on 2 distinct automated platforms with full regulatory compliant quality control specifications is described. The radiotracer synthesis was performed on a custom‐made radiofluorination module and the Sofie Biosciences ELIXYS. The radiofluorination module synthesis was accomplished in an average of 66 minutes from end of bombardment with an average specific activity at end of synthesis (EOS) of 4.4 TBq/μmol (120 Ci/μmol) and an average radiochemical yield of 30.9% at EOS. The ELIXYS synthesis was completed in an average of 87 minutes with an average specific activity of 2.2 TBq/μmol (59.3 Ci/μmol) and an average radiochemical yield of 19% at EOS. Both synthesis modules produced large millicurie quantities of [¹⁸F]DCFPyL while conforming to all standard US Pharmacopeia Chapter <823> acceptance testing criteria.     

A novel method for stereospecific fluorination at the 2′‐arabino‐position of pyrimidine nucleoside: synthesis of [18F]‐FMAU

Direct fluorination of a pyrimidine nucleoside at the 2′‐arabino‐position has been deemed to be extremely difficult, if not impossible. The conventional synthesis of 2′‐deoxy‐2′‐fluoro‐5‐methy‐1‐β‐D ‐arabinofuranosyluracil (FMAU) and its 5‐substituted analogs involves stereospecific fluorination of the 1,3,5‐tri‐O‐benzoyl‐α‐D ‐ribofuranose‐2‐sulfonate ester followed by bromination at the C₁‐postion, and then coupling with pyrimidine‐bis‐trimethylsilyl ether. Several radiolabeled nucleoside analogs, including [¹⁸F]FMAU, and other 5‐substituted analogs, were developed according to this methodology. However, routine production of these compounds using this multi‐step process is inconvenient and limits their clinical application. We developed a novel precursor and method for direct fluorination of preformed nucleoside analogs at the 2′‐arabino position, exemplified via radiosynthesis of [¹⁸F]FMAU. The 2′‐methylsulfonyl‐3′,5′‐O‐tetrahydropyranyl‐N³‐Boc‐5‐methyl‐1‐β‐D ‐ribofuranosiluracil was synthesized in multiple steps. Radiofluorination of this precursor with K¹⁸F/kryptofix produced 2′‐deoxy‐2′‐[¹⁸F]fluoro‐3′,5′‐O‐tetrahydropyranyl‐N³‐Boc‐5‐methyl‐1‐β‐D ‐arabinofuranosiluracil. Acid hydrolysis followed by high‐performance liquid chromatography purification produced the desired [¹⁸F]FMAU. The average radiochemical yield was 2.0% (decay corrected, n=6), from the end of bombardment. Radiochemical purity was >99%, and specific activity was >1800 mCi/µmol. Synthesis time was 95–100 min from the end of bombardment. This direct fluorination is a novel method for synthesis of [¹⁸F]FMAU, and the method should be suitable for production of other 5‐substituted pyrimidine analogs, including [¹⁸F]FEAU, [¹⁸F]FIAU, [¹⁸F]FFAU, [¹⁸F]FCAU, and [¹⁸F]FBAU. Copyright © 2010 John Wiley & Sons, Ltd.     

Optimization and synthesis of an 18F‐labeled dopamine D3 receptor ligand using [18F]fluorophenylazocarboxylic tert‐butylester

There is still no efficient fluorine‐18‐labeled dopamine D₃ subtype selective receptor ligand for studies with positron emission tomography. We aim at improving the D₃ selectivity and hydrophilicity of a candidate ligand by changing the substitution pattern to a 2,3‐dichlorophenylpiperazine and hydroxylation of the butyl chain. The compound [¹⁸F]3 exhibited D₃ affinity of K_i = 3.6 nM, increased subtype selectivity (K_i(D₂/D₃) = 60), and low affinity to 5‐HT_1A and α₁ receptors (K_i (5‐HT_1A/D₃) = 34; K_i (α₁/D₃) = 100). The two‐step radiosynthesis was optimized for analog [¹⁸F]4 by reducing the necessary concentration of the precursor amine (57 mM), which reacted with [¹⁸F]fluorophenylazocarboxylic tert‐butylester under basic conditions. The optimization of the base (Cs ₂CO₃, 23 mM) and the adjustment of reaction temperature led to the radiochemical yield of 63% after 5 min at 35°C. The optimized reaction conditions were transferred on to the synthesis of [¹⁸F]3 with an overall non‐decay corrected yield of 8‐12% in a specific activity of 32‐102 GBq/µmol after a total synthesis time of 30‐35 min. This provides a D ₃ radioligand candidate with improved attributes concerning selectivity and radiosynthesis for further preclinical studies.     

Radiosynthesis,in vitro and preliminary biological evaluation of [18F]2-amino-4-((2-((3-fluorobenzyl)oxy)benzyl)(2-((3-(fluoromethyl)benzyl)oxy)benzyl)amino)butanoic acid,a novel alanine serine cysteine transporter 2 inhibitor-based positron emission tomography tracer

The metabolic alterations in tumors make it possible to visualize the latter by means of positron emission tomography, enabling diagnosis and providing metabolic information. The alanine serine cysteine transporter-2 (ASCT-2) is the main transporter of glutamine and is upregulated in several tumors. Therefore, a good positron emission tracer targeting this transport protein would have substantial value. Hence, the aim of this study is to develop a fluorine-18-labeled version of a V-9302 analogue, one of the most potent inhibitors of ASCT-2. The precursor was labeled with fluorine-18 via a nucleophilic substitution of the corresponding benzylic bromide. The cold reference product was subjected to in vitro assays with [³H]glutamine in a PC-3 and F98 cell line to determine the affinity for both the human and rat ASCT-2. To evaluate the tracer potential dynamic μPET, images were acquired in a mouse xenograft model for prostate cancer. The tracer could be synthesized with an overall nondecay corrected yield of 3.66 ± 1.90%. in vitro experiments show inhibitor constants K_i of 90 and 125 μM for the PC-3 and F98 cells, respectively. The experiments in the PC-3 xenograft demonstrate a low uptake in the tumor tissue. We have successfully synthesized the radiotracer [¹⁸F]2-amino-4-((2-((3-fluorobenzyl)oxy)benzyl)(2-((3-(fluoromethyl)benzyl)oxy)benzyl)amino)butanoic acid. in vitro experiments show a good affinity for both the human and rat ASCT-2. However, the tracer suffers from poor in vivo tumor uptake in the PC-3 model. Briefly, we present the first fluorine-18-labeled derivative of compound V-9302, a promising novel ASCT-2 blocker used for inhibition of tumor growth.