Synthesis,radiofluorination and first evaluation of (±)‐[18F]MDL 100907 as serotonin 5‐HT2A receptor antagonist for PET

In some psychiatric disorders 5‐HT_2A receptors play an important role. In order to investigate those in vivo there is an increasing interest in obtaining a metabolically stable, subtype selective and high affinity radioligand for receptor binding studies using positron emission tomography (PET). Combining the excellent in vivo properties of [¹¹C]MDL 100907 for PET imaging of 5‐HT_2A receptors and the more suitable half‐life of fluorine‐18, MDL 100907 was radiofluorinated in four steps using 1‐(2‐bromoethyl)‐4‐[¹⁸F]fluorobenzene as a secondary labelling precursor. The complex reaction required an overall reaction time of 140 min and (±)‐[¹⁸F]MDL 100907 was obtained with a specific activity of at least 30 GBq/µmol (EOS) and an overall radiochemical yield of 1–2%. In order to verify its binding to 5‐HT_2A receptors, in vitro rat brain autoradiography was conducted showing the typical distribution of 5‐HT_2A receptors and a very low non‐specific binding of about 6% in frontal cortex, using ketanserin or spiperone for blocking. Thus, [¹⁸F]MDL 100907 appears to be a promising new 5‐HT_2A PET ligand. Copyright © 2008 John Wiley & Sons, Ltd.     

Synthesis,labelling and first evaluation of [18F]R91150 as a serotonin 5‐HT2A receptor antagonist for PET

In psychiatric disorders such as anxiety, depression and schizophrenia, 5‐HT_2A receptors play an important role. In order to investigate them in vivo there is an increasing interest in selective and high‐affinity radioligands for receptor binding studies using positron emission tomography (PET). Since available radioligands have disadvantages, R91150, which is a selective and high‐affinity ligand for 5‐HT_2A receptors, was labelled with fluorine‐18. This was accomplished in six steps via 4‐[¹⁸F]fluorophenol and 1‐(3‐bromopropoxy)‐4‐[¹⁸F]fluorobenzene within 190 min starting from no‐carrier‐added [¹⁸F]fluoride. The overall radiochemical yield was 3.8±2% and the specific activity was at least 335 GBq/µmol at the end of the synthesis. First ex vivo studies in mice proved the uptake of [¹⁸F]R91150 in the brain. Radiometabolite studies revealed no radiometabolites in the brain, whereas in the plasma at least two could be detected 30 min p.i. Further preclinical studies are encouraged to evaluate the potential of this new 5‐HT_2A ligand as a radiotracer for PET. Copyright © 2008 John Wiley & Sons, Ltd.     

Synthesis,radiofluorination, and preliminary evaluation of the potential 5‐HT2A receptor agonists [18F]Cimbi‐92 and [18F]Cimbi‐150

An agonist PET tracer is of key interest for the imaging of the 5‐HT_2A receptor, as exemplified by the previously reported success of [¹¹C]Cimbi‐36. Fluorine‐18 holds several advantages over carbon‐11, making it the radionuclide of choice for clinical purposes. In this respect, an ¹⁸F‐labelled agonist 5‐HT_2A receptor (5‐HT_2AR) tracer is highly sought after. Herein, we report a 2‐step, 1‐pot labelling methodology of 2 tracer candidates. Both ligands display high in vitro affinities for the 5‐HT_2AR. The compounds were synthesised from easily accessible labelling precursors, and radiolabelled in acceptable radiochemical yields, sufficient for in vivo studies in domestic pigs. PET images partially conformed to the expected brain distribution of the 5‐HT_2AR; a notable exception however being significant uptake in the striatum and thalamus. Additionally, a within‐scan displacement challenge with a 5‐HT_2AR antagonist was unsuccessful, indicating that the tracers cannot be considered optimal for neuroimaging of the 5‐HT_2AR.     

The synthetic cathinone psychostimulant α‐PPP antagonizes serotonin 5‐HT2A receptors: In vitro and in vivo evidence

Synthetic cathinones (SCs) are β‐keto analogs of amphetamines. Like amphetamines, SCs target monoamine transporters; however, unusual neuropsychiatric symptoms have been associated with abuse of some SCs, suggesting SCs might possess additional pharmacological properties. We performed radioligand competition binding assays to assess the affinities of nine SCs at human 5‐HT_2A receptors (5‐HT_2AR) and muscarinic M₁ receptors (M₁R) transiently expressed in HEK293 cells. None of the SCs exhibited affinity at M₁R (minimal displacement of [~K_d] [³H]scopolamine up to 10 μM). However, two SCs, α‐pyrrolidinopropiophenone (α‐PPP) and 4‐methyl‐α‐PPP, had low μM K_i values at 5‐HT_2AR. In 5‐HT_2AR–phosphoinositide hydrolysis assays, α‐PPP and 4‐methyl‐α‐PPP displayed inverse agonist activity. We further assessed the 5‐HT_2AR functional activity of α‐PPP, and observed it competitively antagonized 5‐HT_2AR signaling stimulated by the 5‐HT₂R agonist (±)‐2,5‐dimethoxy‐4‐iodoamphetamine (DOI; K_b = 851 nM). To assess in vivo 5‐HT_2AR activity, we examined the effects of α‐PPP on the DOI‐elicited head‐twitch response (HTR) in mice. α‐PPP dose‐dependently blocked the HTR with maximal suppression at 10 mg/kg (P < 0.0001), which is a moderate dose used in studies investigating psychostimulant properties of α‐PPP. To corroborate a 5‐HT_2AR mechanism, we also tested 3,4‐methylenedioxy‐α‐PPP (MDPPP) and 3‐bromomethcathinone (3‐BMC), SCs that we observed had 5‐HT_2AR K_is > 10 μM. Neither MDPPP nor 3‐BMC, at 10 mg/kg doses, attenuated the DOI HTR. Our results suggest α‐PPP has antagonist interactions at 5‐HT_2AR in vitro that may translate at physiologically‐relevant doses in vivo. Considering 5‐HT_2AR antagonism has been shown to mitigate effects of psychostimulants, this property may contribute to α‐PPPs unpopularity compared to other monoamine transporter inhibitors.     

Synthesis of novel WAY 100635 derivatives containing a norbornene group and radiofluorination of [18F]AH1.MZ as a serotonin 5‐HT1A receptor antagonist for molecular imaging

5‐HT_1A receptors are involved in a variety of psychiatric disorders and in vivo molecular imaging of the 5‐HT_1A status represents an important approach to analyze and treat these disorders. We report herein the synthesis of three new fluoroethylated 5‐HT_1A ligands (AH1.MZ, AH2.MZ and AH3.MZ) as arylpiperazine derivatives containing a norbornene group. AH1.MZ (K_i= 4.2 nM) and AH2.MZ (K_i=30 nM) showed reasonable in vitro affinities to the 5‐HT_1A receptor, whereas AH3.MZ appeared to be non‐affine toward the 5‐HT_1A receptor. The receptor profile of AH1.MZ and AH2.MZ showed selectivity within the 5‐HT system. ¹⁸F‐labelling via [¹⁸F]FETos to [¹⁸F]AH1.MZ was carried out in radiochemical yields of >70%. The final formulation of injectable solutions including [¹⁸F]FETos synthon synthesis, radiosynthesis and semi‐preparative high‐performance liquid chromatography (HPLC) separation took no longer than 130 min and provided [¹⁸F]AH1.MZ with a purity of >98% as indicated by analytical HPLC analyses. Copyright © 2009 John Wiley & Sons, Ltd.     

Simplified synthesis of N‐(3‐[18F]fluoropropyl)‐2β‐carbomethoxy‐3β‐(4‐fluorophenyl)nortropane ([18F]β‐CFT‐FP) using [18F]fluoropropyl tosylate as the labelling reagent

A synthesis method has been developed for the labelling of N‐(3‐[¹⁸F]fluoropropyl)‐2β‐carbomethoxy‐3β‐(4‐fluorophenyl)nortropane ([¹⁸F]β‐CFT‐FP), a potential radioligand for visualization of the dopamine transporters by positron emission tomography. The two‐step synthesis includes preparation of [¹⁸F]fluoropropyl tosylate and its use without purification in the fluoroalkylation of 2β‐carbomethoxy‐3β‐(4‐fluorophenyl)nortropane (nor‐β‐CFT). The final product is purified by HPLC. Optimization of the two synthesis steps resulted in a greater than 30% radiochemical yield of [¹⁸F]β‐CFT‐FP (decay corrected to end of bombardment). The synthesis time including HPLC‐purification was approximately 90 min. The radiochemical purity of the final product was higher than 99% and the specific radioactivity at the end of synthesis was typically 20 GBq/µmol. In comparison to alkylation by [¹⁸F]fluoropropyl bromide, the procedure described here results in an improved overall radiochemical yield of [¹⁸F]β‐CFT‐FP in a shorter time. Copyright © 2005 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.     

Synthesis and preliminary PET study of the 5‐HT7 receptor antagonist [11C]DR4446

DR4446 (1‐methyl‐2a‐[4‐(4,5,6,7‐tetrahydrothieno[3,2‐c]pyridin‐5‐yl)butyl]‐2a,3,4,5‐tetrahydro‐1H‐benz[cd]indole‐2‐one) is a potent 5‐HT₇ receptor antagonist (K_i=9.7 nM) with a high selectivity over other 5‐HT family receptors (K_i for 5‐HT_1A: 770 nM; for other 5‐HT receptors: >1000 nM). As a positron emission tomography (PET) tracer for the 5‐HT₇ receptor, [¹¹C]DR4446 was synthesized at high radiochemical purity ( >98%) with specific activity of 73–120 GBq/μmol at the end of synthesis by the alkylation of the desmethyl precursor (1) with [¹¹C]CH₃I in the presence of NaH. A PET study in monkey demonstrated that [¹¹C]DR4446 had good permeability into the brain, and had a specific binding component in the brain regions including the thalamus, possibly an area in the 5‐HT₇ receptors. Metabolite analysis showed that [¹¹C]DR4446 was relatively stable and low percentages of two radio‐labeled metabolites were detected in the plasma of monkey using HPLC. Copyright © 2002 John Wiley & Sons, Ltd.     

3H]-SB-269970 radiolabels 5-HT7 receptors in rodent, pig and primate brain tissues.

The selective 5-HT7 receptor antagonist radioligand, [3H]-SB-269970, has been reported to radiolabel the human cloned 5-HT7(a) receptor and 5-HT7 receptors in guinea pig cortex (thomas et al, 2000). Saturation analysis of [3H]-SB-269970 binding to mouse forebrain, rat cortex, pig cortex, marmoset cortex and human thalamus membranes was consistent with labelling a homogenous population of binding sites in each tissue. K(D) values for [3H]-SB-269970 binding in these tissues ranged from 0.9 to 2.3 nM, being similar to those reported for the human cloned and guinea pig cortex 5-HT7 receptors (1.3 and 1.7 nM, respectively). Bmax values for [3H]-SB-269970 binding to the mouse, rat, pig, marmoset and human brain membranes were 20, 30, 31, 14 and 68 fmoles x mg x protein(-1), respectively. For each species the profile of inhibition of [3H]-SB-269970 binding, using a number of 5-HT7 receptor agonists and antagonists, correlated well with that reported for the human cloned 5-HT7(a) receptor (correlation coefficients were 0.95, 0.94, 0.92, 0.95, 0.97 versus the mouse, rat, pig, marmoset and human tissues, respectively). In conclusion, [3H]-SB-269970 has been shown to radiolabel 5-HT7 receptors in rodent, pig and primate brain and represents a valuable tool with which to further characterise the distribution and function of 5-HT7 receptors in native tissues and elucidate their potential role in disease states.     

Selective visualization of rat brain 5-HT2A receptors by autoradiography with [3H]MDL 100,907

The recently developed 5-HT_2A receptor selective antagonist [³H]MDL100,907 ((+/–)2,3-dimethoxyphenyl-1-[2-(4-piperidine)-methanol]) has been characterized as a radioligand for the autoradiographic visualization of these receptors. [³H]MDL100,907 binding to rat brain tissue sections was saturable, had sub-nanomolar affinity (Kd=0.2–0.3nM), and presented a pharmacological profile consistent with its binding to 5-HT_2A receptors (rank order of affinity for [³H]MDL100,907-labelled receptors: MDL100,907 > spiperone > ketanserin > mesulergine). The distribution of receptors labelled by [³H]MDL100,907 was compared to the autoradiographical patterns obtained with [³H]Ketanserin, [³H]Mesulergine, and [³H]RP62203 (N-[3-[4-(4-fluorophenyl)-piperazin-1-y1]propyl]-1,8-naphtalenesultam) and to the distribution of 5-HT_2A receptor mRNA as determined by in situ hybridization. As opposed to the other radioligands, [³H]MDL100,907 labelled a single population of sites (5-HT_2A receptors) and presented extremely low levels of non-specific binding. The close similarity of the distributions of [³H]MDL100,907-labelled receptors and 5-HT_2A mRNA further supports the selectivity of this radioligand for 5-HT_2A receptors and suggests a predominant somatodendritic localization of these receptors. The present results point to [³H]MDL100,907 as the ligand of choice for the autoradiographic visualization of 5-HT_2A receptors. Received: 7 April / Accepted: 18 May 1997     

Synthesis and biological evaluation of S‐[11C]methylated mercaptoimidazole piperazinyl derivatives as potential radioligands for imaging 5‐HT1A receptors by positron emission tomography (PET)

The novel 2‐mercaptoimidazole derivatives, 1‐[4‐((2‐methoxyphenyl)‐1‐piperazinyl)butyl]‐2‐mercaptoimidazole ( 3 ) and methyl[4‐((2‐methoxyphenyl)‐1‐piperazinyl))butyl] (2‐mercapto‐1‐methylimidazol‐5‐yl)methanamide ( 8 ), were efficiently labelled with ¹¹C through methylation of the thioketone function with [¹¹C]methyl iodide. The resulting radioligands 1‐[4‐((2‐methoxyphenyl)‐1‐piperazinyl))butyl]‐2‐thio[¹¹C]methylimidazole ([¹¹C] 9 ) and methyl[4‐((2‐methoxyphenyl)‐1‐piperazinyl))butyl] (2‐thio[¹¹C]methyl‐1‐methylimidazol‐5‐yl)‐methanamide ([¹¹C] 10 ) were synthesized in radiochemical yields of 20–30% (decay‐corrected, related to [¹¹C]CO₂) at a specific radioactivity of 0.2–0.4 Ci/µmol within 40–45 min including HPLC‐purification. The radiochemical purity exceeded 99%. The reference compounds 9 and 10 were tested in a competitive receptor binding assay to determine their affinity toward the 5‐HT_1A receptor. Both compounds exhibit excellent sub‐nanomolar affinities (IC₅₀=0.576±0.008 nM ( 9 ); IC₅₀=0.86±0.02 nM ( 10 )) for the 5‐HT_1A receptor while displaying a high selectivity towards the 5‐HT_2A subtype of receptors (IC₅₀>480 nM). By contrast, compound 9 also shows substantial binding for the alpha1‐adrenergic receptor (IC₅₀=3.00±0.02 nM) when compared with compound 10 (IC₅₀=54.5±0.6 nM). Preliminary biodistribution studies in rats showed an initial brain uptake of 1.14±0.11 and 0.37±0.04% ID/g after 5 min, which decreased to 0.18±0.04 and 0.16±0.01% ID/g after 60 min for compounds [¹¹C] 9 and [¹¹C] 10 , respectively. For both compounds, the cerebellum and rest of the brain uptake are very similar at the different time points. Unlike [¹¹C] 9 , the radioligand [¹¹C] 10 has significant uptake and retention in the adrenal glands. Due to their washout from the brain compounds [¹¹C] 9 and [¹¹C] 10 seem not to be good candidates as radioligands for imaging 5‐HT_1A receptors by PET. Copyright © 2005 John Wiley & Sons, Ltd.     

Synthesis of N‐(3‐[18F]Fluoropropyl)‐2β‐carbomethoxy‐3β‐(4‐iodophenyl)nortropane ([18F]FP‐β‐CIT)

N‐(3‐[¹⁸F]fluoropropyl)‐2β‐carbomethoxy‐3β‐(4‐iodophenyl)nortropane ([¹⁸F]FP‐β‐CIT) was synthesized in a two‐step reaction sequence. In the first reaction, 1‐bromo‐3‐(nitrobenzene‐4‐sulfonyloxy)‐propane was fluorinated with no‐carrier‐added fluorine‐18. The resulting product, 1‐bromo‐3‐[¹⁸F]‐fluoropropane, was distilled into a cooled reaction vessel containing 2β‐carbomethoxy‐3β‐(4‐iodophenyl)‐nortropane, diisopropylethylamine and potassium iodide. After 30 min, the reaction mixture was subjected to a preparative HPLC purification. The product, [¹⁸F]FP‐β‐CIT, was isolated from the HPLC eluent with solid‐phase extraction and formulated to yield an isotonic, pyrogen‐free and sterile solution of [¹⁸F]FP‐β‐CIT. The overall decay‐corrected radiochemical yield was 25 ± 5%. Radiochemical purity was > 98% and the specific activity was 94 ± 50 GBq/µmol at the end of synthesis. Copyright © 2006 John Wiley & Sons, Ltd.     

Lack of specificity of [35S]‐ATPγS and [35S]‐ADPβS as radioligands for ionotropic and metabotropic P2 receptor binding

Adenosine‐5′‐O‐3‐thio[³⁵S]triphosphate ([³⁵S]‐ATPγS) has been reported to specifically bind several P2X receptor subtypes, including P2X₁, P2X₂, P2X₃, and P2X₄. Similarly, adenosine‐5′‐O‐2‐thio[³⁵S]diphosphate ([³⁵S]‐ADPβS) has been reported to label putative P2Y receptors. To address whether these radioligands selectively label P2 receptors, the functional activity of various P2 ligands was compared with their ability to compete for [³⁵S]‐ATPγS and [³⁵S]‐ADPβS binding to cell membrane preparations from rat brain, HEK293 cells, and to native and P2X₄ transfected 1321N1 astrocytoma cells. [³⁵S]‐ATPγS (0.2 nM) and [³⁵S]‐ADPβS (0.1 nM) displayed a high percentage of specific binding to membranes prepared from 1321N1 human astrocytoma cells, which were found to be devoid of detectable P2X and P2Y functional activity. [³⁵S]‐ATPγS and [³⁵S]‐ADPβS also exhibited equivalent high percentages of specific binding to HEK293 cell membranes, which endogenously express the P2Y₁ and P2Y₂ receptor subtypes, to 1321N1 cells stably transfected with the human P2X₄ receptor, and to rat brain membranes, which have previously been shown to contain both P2X and P2Y receptor subtypes. The potency order of P2 agonists to compete for radioligand binding to these cell membrane preparations was significantly different from the functional rank order potencies determined in HEK293 cells and 1321N1 cells expressing the P2X₄ receptor, as measured by cytosolic calcium flux. These data indicate that [³⁵S]‐ATPγS and [³⁵S]‐ADPβS appear to bind sites that do not correspond to known functional P2 receptor subtypes. The apparent lack of specificity of these radioligands for labeling P2 receptors is similar to that reported for other radiolabeled nucleotides and illustrates the need for caution in interpreting the apparent pharmacology of native P2 receptors on the basis of binding data alone. Drug Dev. Res. 48:84–93, 1999. © 1999 Wiley‐Liss, Inc.     

Binding studies with the 5-HT1B receptor agonist [3H]CP-96,501 in brain tissues

Binding studies in rat brain membranes have shown that [³H]CP-96,501 is a selective, high affinity radioligand for 5-HT_1B receptors. Additional studies with [³H]CP-96,501 in brain tissues of several other species were undertaken to investigate its utility in detecting this receptor subtype. The presence of 5-HT_1B receptors in brain membranes of the hamster and gerbil was demonstrated with [³H]CP-96,501. This finding was confirmed by [³H]5-HT binding experiments that also indicated the presence of other 5-HT₁ subtypes (possibly 5-HT_1D, 5-HT_1E) in these species as well as the rat. Negligible specific binding of [³H]CP-96,501 was found in membranes of guinea pig brain, dog hypothalamus, bovine caudate, pig choroid plexus, and several human brain tissues, consistent with the reported absence of the 5-HT_1B receptor subtype in these species. Autoradiographic examination of rat brain sections labeled by [³H]CP-96,501 showed a dense localization in areas known to be enriched in 5-HT_1B receptors (e.g., globus pallidus, substantia nigra, superior colliculus, subiculum). On the other hand, brain sections of dog and guinea pig appeared to show no specific binding of [³H]CP-96,501 by autoradiography, in agreement with the lack of brain 5-HT_1B receptors in these tissues. © 1992 Wiley-Liss, Inc.     

Flixotide™‐pressurized metered‐dose inhalers loaded with [18F]fluticasone propionate particles for drug deposition studies in humans with PET–formulation and analysis

Fluticasone propionate (FP) is a potent anti‐inflammatory synthetic steroid, used for the treatment of asthma. Flixotide? is a formulated pressurized metered‐dose inhaler (pMDI) that contains small‐micronized FP particles in a blend of CFC propellants. Our objective was to develop a radiotracer method for accurately measuring the regional deposition of FP within the human lung using positron emission tomography (PET), which would be of important clinical interest. Flixotide? pMDIs were used to prepare [¹⁸F]FP pMDIs labeled isotopically with the positron emitter, fluorine‐18 (t_1/2=109.7 min). FP particles from Flixotide? pMDIs were mixed with [¹⁸F]FP formulated into a pMDI and sonicated at room temperature. The drug delivery of [¹⁸F]FP pMDI (250 μg of FP per actuation dose) was assessed for particle size distribution and dose uniformity. The distributions of FP and [¹⁸F]FP across particle size in such preparations were measured with an Andersen cascade impactor. This procedure was shown to provide an emitted dose from a [¹⁸F]FP pMDI of 246±19 μg/per metered dose. The particle size distribution as measured by mass median aerodynamic diameter (MMAD) (The mass median aerodynamic diameter (MMAD) and the geometric standard deviation (GSD) for each distribution were calculated. MMAD is defined as the aerodynamic diameter around which the mass of particles is equally distributed and the GSD is a measure of the dispersion of these particle diameters around the MMAD) from a commercial Flixotide? pMDI was 2.6±0.2 μm and agreed well with that from an [¹⁸F]FP pMDI (2.8±0.1 μm). The MMAD and geometric standard deviation (GSD) of newly formulated [¹⁸F]FP pMDIs were unaffected by the formulation procedure. [¹⁸F]FP was distributed with good uniformity with respect to the mass of FP for particles greater than 0.43 μm. Hence, the radiolabeled pMDI is a suitable source of radiotracer for the regional measurement of lung deposition for inhaled FP in human subjects with PET. Copyright © 2003 John Wiley & Sons, Ltd.     

Assessment of the pharmacological properties of 5-methoxyindole derivatives at 5-HT4 receptors

Objectives The aim was to examine the biological activity of 5‐methoxytryptamine derivatives at the 5‐hydroxytryptamine (5‐HT)₄ receptor to explore the effect of substitution on the aliphatic amine of the 5‐methoxyamine scaffold. Methods Three compounds were tested for affinity at the 5‐HT₄ receptor by radioligand binding and functional activity using guinea‐pig ileum and human colon circular muscle preparations and also in the mouse whole gut transit test. Key findings The three compounds all had agonist properties at the 5‐HT₄ receptor but their efficacy differed in the different functional tests. Compound 3 had the highest affinity for the 5‐HT₄ receptor and was a full agonist at relaxing human colon circular muscle with efficacy closest to 5‐HT. Compounds 1 and 2 were partial agonists in this assay with lower efficacies; compound 2 was a full agonist in the guinea‐pig ileum assay whereas compound 3 was a partial agonist. Compounds 1 and 2 also showed activity in the mouse gut transit assay while compound 3 had no activity. Conclusions Of the compounds tested, compound 3 was the most promising 5‐HT₄ receptor agonist and the results highlight the value of using human tissue in functional tests when assessing compounds for potential activity.     

[3H]MDL 100,907: a novel selective 5-HT2A receptor ligand

In studies using standard radioligands, unlabeled MDL 100,907 (R-(+)--(2,3-dimethoxyphenyl)-1-[2-(4-fluorophenyl)ethyl]-4-piperidinemethanol) has been shown to have a high degree of selectivity for the 5-HT_2A receptor. The present study was undertaken to investigate the receptor binding characteristics of [³H]MDL 100,907 in rat cortical homogenates. [³H]MDL 100,907 was found to reach equilibrium at 37°C after 15 min. Saturation experiments indicated binding to a single site with a K_D of 0.56 nM, Hill slope of 1.15, and a B_max of 512 fmol/mg protein. In parallel experiments with the standard 5-HT_2A receptor radioligand, [³H]ketanserin, with prazosin added to block ₁ receptors, a similar Hill slope and B_max was noted but a two-fold higher K_D was found. In competition binding studies using 0.5 nM [³H]MDL 100,907, some 19 standard ligands to various receptors including the 5HT_1A, D₂, ₁, and receptors resulted in estimated K_I values that were consistent with [³H]MDL 100,907 selectively binding to the 5-HT_2A receptor. A comparison of the K_I values for 17 standard 5-HT_2A receptor agonists and antagonists displacing [³H]MDL 100,907 versus [³H]ketanserin resulted in a highly significant linear correlation (R² = 0.96, P<0.001). Taken together these results suggest that [³H]MDL 100,907 is binding to the 5-HT_2A receptor with a sub-nanomolar affinity without the use of secondary blocking agents.     

Synthesis and in vitro evaluation of 18F‐β‐carboline alkaloids as PET ligands

A one‐step ¹⁸F‐labelling strategy was used to prepare four ¹⁸F‐labelled analogues of 7‐methoxy‐1‐methyl‐9H‐β‐carboline (harmine): 7‐(2‐[¹⁸F]fluoroethoxy)‐1‐methyl‐9H‐β‐carboline (5), 7‐(3‐[¹⁸F]fluoro‐propoxy)‐1‐methyl‐9H‐β‐carboline (6), 7‐[2‐(2‐[¹⁸F]fluoroethoxy)ethoxy]‐1‐methyl‐9H‐β‐carboline (7), and 7‐{2‐[2‐(2‐[¹⁸F]fluoroethoxy)ethoxy]‐ethoxy}‐1‐methyl‐9H‐β‐carboline (8). These were synthesized as potential positron emission tomography ligands for monoamine oxidase A (MAO‐A). A solution of pure labelled compound in buffer was obtained in <70 min from end of radionuclide production, with a decay‐corrected yield of up to 23%. The average specific binding to MAO‐A in rat brain, determined by autoradiography experiments, was highest for compounds 7 and 8 (89±2 and 96±1%, respectively), which was obtained at <1 nM radioligand concentration. Copyright © 2008 John Wiley & Sons, Ltd.     

Automated preparation of 2‐[18F]fluoropropionate labeled peptides using a flexible,multi‐stage synthesis platform (iPHASE Flexlab)

Radiolabelled peptides are vital tools used in positron emission tomography imaging for the diagnosis of disease, drug discovery, and biomedical research. Peptides are typically labeled through conjugation to a radiolabelled prosthetic group, which usually necessitates complex, multi‐step procedures, especially for fluorine‐18 labeled peptides. Herein, we describe the automated synthesis and formulation of 2‐[¹⁸F]fluoropropionate labeled RGD‐peptides through use of the iPHASE Flexlab as an effective dual‐stage radiochemical synthesis module. The fully automated preparation of the monomeric RGD‐peptides, [¹⁸F]FP‐GalactoRGD and [¹⁸F]FP‐c(RGDy(SO₃)K), was accomplished in under 90 minutes with n.d.c. radiochemical yields ca. 7% from fluoride. Similarly, the automated preparation of the dimeric RGD‐peptides, [¹⁸F]F‐PRGD₂ and [¹⁸F]FP‐E(RGDy(SO₃)K)₂, was accomplished in under 105 minutes with n.d.c. yields ca. 4% from fluoride.     

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.