[5‐14C]‐4‐methyltriazolepyridines via facile preparation of methyl‐[14C]‐isothiocyanate

A fast and convenient microwave assisted one‐pot synthesis of methyl‐[¹⁴C]‐isothiocyanate 4 was shown. The continued one‐pot synthesis with 4 to a highly refined material like [5‐¹⁴C]‐dimethylsulfanyltriazolepyridines 8 and 13 without any intermediate purification, six steps in the same pot from [¹⁴C]KCN. Oxidation of the sulfur provided access to triazole‐ethers upon reaction with alcohols. The triazole‐ethers, 15, were obtained at fair to good yields and specific activities above 2 GBq/mmol. Copyright © 2008 John Wiley & Sons, Ltd.     

Synthesis of [thiazolium‐2,2′‐14C2]‐SAR97276A from [14C]‐thiourea

[thiazolium‐2,2′‐¹⁴C₂]‐SAR97276A, a bis(thiazolium) antimalarial development candidate, was synthesized from [¹⁴C]‐thiourea with an overall radiochemical yield of 15%. The synthetic route involves a modified procedure for the synthesis of [¹⁴C]‐sulfurol, also a key intermediate in thiamine synthesis, which was developed due to unlabelled chemistry proving irreproducible with the radiolabelled substrate. Copyright © 2010 John Wiley & Sons, Ltd.     

Synthesis of [14C]‐radiolabelled entecavir

Radiolabelled [¹⁴C]entecavir, ( 1 ), was prepared in 12 steps from (1S,2R,3S,5R)‐3‐(benzyloxy)‐2‐(benzyloxymethyl)‐6‐oxa‐bicyclo[3.1.0]hexane 2 . The chemical yield of [¹⁴C]entecavir was 14% from the epoxide 2 . Introduction of [¹⁴C] radiolabel was achieved by elaboration of 4,5‐diaminopyrimidine 8 with triethyl[¹⁴C]orthoformate to purine derivative 9 . The radiochemical yield of [¹⁴C]entecavir from triethyl[¹⁴C]orthoformate was 11.3%. Radiochemical purity of [¹⁴C]entecavir determined by HPLC was 99.8%. The specific activity of [¹⁴C]entecavir was 108 µCi/mg (29.9 mCi/mmol). Copyright © 2005 John Wiley & Sons, Ltd.     

Synthesis of C‐14 and C‐13, H‐2‐labeled IKK inhibitor: [14C] and [13C4,D3]‐N‐(6‐chloro‐7‐methoxy‐9H‐pyrido[3,4‐b]indol‐8‐yl)‐2‐methyl‐3‐pyridinecarboxamide

[¹⁴C]‐N‐(6‐Chloro‐7‐methoxy‐9H‐pyrido [3,4‐b]indol‐8‐yl)‐2‐methyl‐3‐pyridinecarboxamide (5B ), an IKK inhibitor, was synthesized from [¹⁴C]‐barium carbonate in two steps in an overall radiochemical yield of 41%. The intermediate, [carboxyl‐¹⁴C]‐2‐methylnicotinic acid, was prepared by the lithiation and carbonation of 3‐bromo‐2‐methylpyridine. [¹³C₄,D₃]‐N‐(6‐chloro‐7‐methoxy‐9H‐pyrido [3,4‐b]indol‐8‐yl)‐2‐methyl‐3‐pyridinecarboxamide (5C ) was synthesized from [1,2,3,4‐¹³C₄]‐ethyl acetoacetate and [D₄]‐methanol in six steps in an overall yield of 2%. [¹³C₄]‐2‐methylnicotic acid, was prepared by condensation of [¹³C₄]‐ethyl 3‐aminocrotonate and acrolein, followed by hydrolysis with lithium hydroxide. Copyright © 2006 John Wiley & Sons, Ltd.     

A novel no‐carrier‐added submicromolar scale radiosynthesis of [S‐methyl‐14C]‐florfenicol

In this paper is reported a novel reaction scheme for the no‐carrier‐added submicromolar scale radiosynthesis of [S‐methyl‐¹⁴C]‐florfenicol that has been newly designed, developed and employed by us successfully. The [¹⁴C]‐product was obtained in an overall radiochemical yield of 30% based on [¹⁴C]‐methyl iodide taken for the reaction with a radiochemical purity of more than 96%. The specific activity of the product was ~50 mCi (1.85 GBq)/mmol. Chlorosulfonation of compound I was followed by sodium salt formation in situ and it was succeeded by the introduction of [¹⁴C]‐methyl group by coupling with [¹⁴C]‐CH₃I. Subsequently, the oxazolidin‐2‐one protecting group was opened up by a reaction with sulfuric acid in dioxane and later, the amino group was dichloroacetylated with methyl‐2,2‐dichloroacetate in triethylamine to obtain [S‐methyl‐¹⁴C]‐florfenicol.     

An efficient synthesis of carbon‐14‐labeled 6‐[2‐(dimethylamino)ethyl]‐14‐(1‐ethylpropyl)‐5,6,7,8‐tetrahydroindolo [2,1‐α] [2,5]benzodiazocine‐11‐carboxylic acid using Curtius rearrangement reaction as a key step

Here we report an efficient synthesis of ¹⁴C‐labeled 6‐[2‐(dimethylamino)ethyl]‐14‐(1‐ethylpropyl)‐5,6,7,8‐tetrahydroindolo‐[2,1‐α][2,5]benzodiazocine‐11‐carboxylic acid (1) using the Curtius rearrangement as a key step. The synthesis was initiated by converting the unlabeled aryl carboxylic acid to an aryl amine via Curtius rearrangement reaction. The resulting aryl amine was then converted to an aryl iodide which was coupled with zinc [¹⁴C]cyanide to form an aryl [¹⁴C]nitrile. Subsequent hydrolysis yielded the ¹⁴C‐labeled carboxylic acid [¹⁴C]‐1. This overall process represents a mild and potentially general approach for conversion of unlabeled carboxylic acids to isotopically labeled carboxylic acids. Copyright © 2010 John Wiley & Sons, Ltd.     

A convenient method to produce [14C]carbon monoxide and its application to the radiosynthesis of [carboxyl‐14C]celivarone, [carboxyl‐14C]SSR149744

[carboxyl‐¹⁴C]Celivarone was synthesised from barium [¹⁴C]carbonate with overall radiochemical yields in the range 49–53%. The synthetic route involves [¹⁴C]carbonylation methodology, which both decreased the number of synthetic steps and increased the yields obtained from previous synthetic routes.     

A rapid microwave assisted synthesis of [U‐14C]isosorbide and dimethyl[U‐14C]isosorbide from D‐[U‐14C]glucose

[U‐¹⁴C]Isosorbide and [U‐¹⁴C]dimethyl isosorbide with a specific activity of 462 MBq/mmol was prepared from D ‐[U‐¹⁴C]glucose, in an overall yield of 79%, under microwave heating conditions. Copyright © 2006 John Wiley & Sons, Ltd.     

Synthesis of 14C‐labelled myosmine, [2′‐14C] ‐3‐(1‐pyrrolin‐2‐yl)pyridine

¹⁴C‐Labelled myosmine ([2′‐¹⁴C]‐3‐(1‐pyrrolin‐2‐yl)pyridine) was synthesized for autoradiography studies starting from [carboxyl‐¹⁴C]‐nicotinic acid by initial esterification of the latter in the presence of 1,1,1‐triethoxyethane. Without any purification the ethyl nicotinate formed was directly reacted with N‐vinyl‐2‐pyrrolidinone in the presence of sodium hydride, yielding ¹⁴C‐labelled myosmine. The product was purified by silica gel column chromatography. The radiochemical yield was 15% and the specific activity 55.2 mCi/mmol. Copyright © 2003 John Wiley & Sons, Ltd.     

A short synthesis of d‐[1‐14C]‐serine of high enantiomeric purity

Herein, we report a short, three‐step synthesis of d ‐[1‐¹⁴C]‐serine (4) in high enantiomeric purity. Starting from [¹⁴C]‐KCN and 2‐(benzyloxy)acetaldehyde, Strecker reaction using (R)‐1‐phenylethylamine as the chiral auxiliary gave two diastereomeric aminonitriles 1 and 2 in the ratio of 4:3, which were conveniently separated and purified chromatographically. Following hydrolysis and subsequent hydrogenolysis, the purified major diastereomer 1, was smoothly converted to d ‐[1‐¹⁴C]‐serine (4) in an enantiomeric excess of >99%, thus circumventing time intensive chiral HPLC enantiomeric resolution.     

Simple single‐step single‐enzyme synthesis of [14C]‐GSH

The tri‐peptide [¹⁴C]‐glutathione ([¹⁴C]‐GSH) was synthesized in a single step by GSH synthetase catalyzed reaction of L ‐γ‐glutamyl‐L ‐cysteine and [¹⁴C]‐glycine. Preparative reverse phase HPLC afforded [¹⁴C]‐GSH in 30% yield and 98% purity. Preparation of GSH synthetase from E. coli via recombinant DNA and the interconversion of [¹⁴C]‐GSH to the disulfide [¹⁴C]‐GSSG for storage are discussed. Copyright © 2010 John Wiley & Sons, Ltd.     

Convenient synthesis of D‐threo‐[dichloroacetyl 1–14C] chloramphenicol

A convenient synthesis of chloramphenicol labelled with carbon‐14 in the dichloroacetyl group at the 1 position is described. It was prepared as part of a 4‐step sequence from [1 ‐ ¹⁴C] glycine and the product was purified by preparative HPLC. A radiochemical yield of 47% was obtained based on [1 ‐ ¹⁴C] glycine and the product had a specific activity of 0.47 mCi/mmol. The procedure can be employed for the synthesis of high specific activity [¹⁴C] chloramphenicol, labelled at 1, 2 or both the positions of dichloroacetyl group. Copyright © 2005 John Wiley & Sons, Ltd.     

Synthesis of isotope‐labeled HSP90 inhibitor: [13CD3] and [14C]‐TAK‐459

[¹³CD₃]‐TAK‐459 (1A), an HSP90 inhibitor, was synthesized from [¹³CD₃]‐sodium methoxide in three steps in an overall yield of 29%. The key intermediate [¹³CD₃]‐2‐methoxy‐6‐(4,4,5,5‐tetramethyl‐1,3,2‐dioxaborolan‐2‐yl)pyridine was synthesized in two steps from 2,6‐dibromopyridine and stable isotope‐labeled sodium methoxide. [¹⁴C]‐TAK‐459 (1B) was synthesized from [¹⁴C(U)]‐guanidine hydrochloride in five steps in an overall radiochemical yield of 5.4%. The key intermediate, [¹⁴C]‐(R)‐2‐amino‐7‐(2‐bromo‐4‐fluorophenyl)‐4‐methyl‐7,8‐dihydropyrido[4,3‐d]pyrimidin‐5(6H)‐one, was prepared by microwave‐assisted condensation.     

Synthesis of a carbon‐14 labeled 1‐(indole‐6‐carbonyl‐D‐phenylglycinyl)‐4‐(1‐methylpiperidin‐4‐YL)piperazine‐[carbonyl‐14C], LY517717‐[14C], a factor Xa inhibitor

Human Factor Xa is a trypsin‐like serine protease, which serves a critical role in blood coagulation events. LY517717 is currently under clinical investigation as a Factor Xa inhibitor. To support the ADME studies, LY517717 was synthesized using D ‐phenylglycine with a carbon‐14 labeled carboxyl moiety. This key component, D ‐phenylglycine‐[carboxyl‐¹⁴C], was synthesized by a Strecker synthesis on benzaldehyde with potassium [¹⁴C]cyanide, followed by a resolution of DL ‐phenyl‐glycine methyl ester‐[carbonyl‐¹⁴C] with (+)‐tartaric acid in the presence of benzaldehyde. Copyright © 2004 John Wiley & Sons, Ltd.     

Synthesis of carbon‐14‐labeled isotopomer of 6‐(4‐methanesulfonylphenyl)‐5‐[4‐(2‐piperidin‐1‐yl‐ethoxy)phenoxy]‐naphthalen‐2‐ol HCL salt (LY2066948‐[14C] HCL salt)

Carbon‐14‐labeled 6‐(4‐methanesulfonylphenyl)‐5‐[4‐(2‐piperidin‐1‐yl‐ethoxy)phenoxy]naphthalen‐2‐ol, a novel selective estrogen receptor modulator (SERM) was synthesized. The key component, 6‐methoxy‐1‐tetralone‐[carbonyl‐¹⁴C], was synthesized from 3‐(3‐methoxyphenyl)‐propionic acid via an intra‐molecular Friedel–Crafts acylation of 4‐(3‐methoxyphenyl)butanoic acid‐[carboxy‐¹⁴C]. A palladium catalyzed alpha‐keto arylation of 6‐methoxy‐1‐tetralone with 4‐methanesulfonyl‐phenyl bromide, followed by a sequence of bromination, DDQ dehydrogenation, aryl Ullmann reaction, and demethylation with BBr₃ gave the desired product LY2066948‐[¹⁴C]. Copyright © 2007 John Wiley & Sons, Ltd.     

Microwave‐assisted synthesis of (RS) methyl‐2‐([2′‐14C]4,6‐dimethoxypyrimidin‐2′‐yloxy)‐2‐phenyl [1‐14C]ethanoate

We report here a facile synthesis of (RS) methyl‐2‐([2′‐¹⁴C]4,6‐dimethoxypyrimidin‐2′‐yloxy)‐2‐phenyl [1‐¹⁴C]ethanoate under microwave irradiation. Copyright © 2006 John Wiley & Sons, Ltd.     

Synthesis of [3′‐14C] coenzyme Q10

Radio‐labelled coenzyme Q₁₀, labelled at the 3′‐position with ¹⁴C, was synthesized starting from natural solanesol and ethyl [3‐¹⁴C] acetoacetate. The radiochemical yield was 8.0% from ethyl [3‐¹⁴C] acetoacetate. The specific radioactivity of the product was 44.8 μCi, 1.66 MBq/mg. The specific radioactivity and radiochemical purity are sufficiently high to enable us to use this labelled form of coenzyme Q₁₀ in metabolic studies. Copyright © 2002 John Wiley & Sons, Ltd.     

The synthesis of [1‐14C]2‐(1H‐tetrazol‐5‐yl)acetic acid

Tetrazoles are a common heterocyclic functionality in many biologically active molecules. [1‐¹⁴C]2‐(1H‐Tetrazol‐5‐yl)acetic acid was required as an intermediate in the synthesis of a development candidate as part of a discovery phase program to complete metabolic profiling studies. [1‐¹⁴C]2‐(1H‐Tetrazol‐5‐yl)acetic acid was prepared in 4 steps overall and in 3 radiochemical steps from K¹⁴CN in an overall 32% radiochemical yield.     

A facile synthesis of high specific activity sodium [1‐14C] lauryl sulphate under microwave irradiation

A highly efficient and optimized synthesis of sodium[1‐¹⁴C] lauryl sulphate having high specific activity (50 mCi/mmol) is described. Lauric acid was converted to undecyl bromide using a modified Hunsdiecker reaction. This was treated with potassium ¹⁴C cyanide (specific activity 50 mCi/mmol) using phase transfer catalysis to yield [1‐¹⁴C]lauronitrile, which was subsequently hydrolysed with a mixture of concentrated hydrochloric acid:propionic acid (1:2 v/v) under microwave irradiation for 2 min to obtain [1‐¹⁴C] lauric acid in quantitative yield. The latter on reaction with chlorosulphonic acid and subsequent neutralization with sodium bicarbonate yielded the title compound. Copyright © 2005 John Wiley & Sons, Ltd.     

Synthesis of the carbon‐14 labeled isotopomers of (R)‐N‐methyl‐3‐[2‐methylphenoxyl]‐benzenepropanamine hydrochloride (atomoxetine hydrochloride,LY139603), and two of its metabolites

Carbon‐14 labeled Straterra^TM (Atomoxetine HCl, LY139603, (‐)‐N‐methyl‐3‐(2‐methylphenoxy)‐benzenepropanamine hydrochloride), a potent inhibitor of the presynaptic norepinephrine transporter, and two of its major metabolites were synthesized. The key component, S‐(+)‐3‐chloro‐l‐phenyl‐l‐propanol‐[1‐¹⁴C] was synthesized by Stille coupling of benzoyl chloride‐[carbonyl‐¹⁴C] with vinyl tri‐n‐butylstannane, followed by HCl addition to the vinyl ketone, and asymmetric reduction of the ketone by Corey's CBS reagent. Mitsunobu reaction of this S‐(+)‐3‐chloro‐l‐phenyl‐l‐propanol‐[1‐¹⁴C] with various phenol derivatives, followed by converting the chloride to amines, gave desired products. Copyright © 2004 John Wiley & Sons, Ltd.