Effects of linker elongation in a series of N-(2-benzofuranylmethyl)-N'-(methoxyphenylalkyl)piperazine σ₁ receptor ligands

In our continued exploration of disubstituted piperazine derivatives as sigma (σ) receptor ligands with central nervous system (CNS) activity, a series of N-(2-benzofuranylmethyl)-N'-(methoxyphenylalkyl)piperazines (16-21 and 26-31) were synthesized, anticipating that these ligands would better suit the structural requirements of the current σ(1) pharmacophore. Affinities of these ligands for σ(1) and σ(2) receptors were investigated by means of radioligand binding assays, with the identification of N-(2-benzofuranylmethyl)-N'-[3-(4-methoxyphenyl)propyl]piperazine (29, K(i)=3.1 nM, σ(2)/σ(1)=45) as a selective σ(1) ligand. The σ(1) affinities and subtype selectivities of piperazines 16-21 and 26-31 were generally comparable to the corresponding benzylic analogs. Additionally, the affinities of 16-21 and 26-31 for the 5-HT(2B) receptor were much lower than the relatively nonselective methoxybenzylic analogs 2-4, indicating that elongation of the alkyl tether generally improved selectivity for σ(1) receptors.     

Synthesis and evaluation of a 18F-labeled spirocyclic piperidine derivative as promising σ1 receptor imaging agent

Several spirocyclic piperidine derivatives were designed and synthesized as σ₁ receptor ligands. In vitro competition binding assays showed that the fluoroalkoxy analogues with small substituents possessed high affinity towards σ₁ receptors and subtype selectivity. Particularly for ligand 1′-((6-(2-fluoroethoxy)pyridin-3-yl)methyl)-3H-spiro[2-benzofuran-1,4′-piperidine] (2), high σ₁ receptor affinity (K_i = 2.30 nM) and high σ₁/σ₂ subtype selectivity (142-fold) as well as high σ₁/VAChT selectivity (234-fold) were observed. [¹⁸F]2 was synthesized using an efficient one-pot, two-step reaction method in a home-made automated synthesis module, with an overall isolated radiochemical yield of 8–10%, a radiochemical purity of higher than 99%, and specific activity of 56–78 GBq/μmol. Biodistribution studies of [¹⁸F]2 in ICR mice indicated high initial brain uptake and a relatively fast washout. Administration of haloperidol, compound 1 and different concentrations of SA4503 (3, 5, or 10 μmol/kg) 5 min prior to injection of [¹⁸F]2 significantly decreased the accumulation of radiotracer in organs known to contain σ₁ receptors. Ex vivo autoradiography in Sprague–Dawley rats demonstrated high accumulation of radiotracer in brain areas with high expression of σ₁ receptors. These encouraging results prove that [¹⁸F]2 is a suitable candidate for σ₁ receptor imaging with PET in humans.     

Synthesis and in vitro evaluation of a novel radioligand for αvβ3 integrin receptor imaging: [18F]FPPA-c(RGDfK)

The development of RGD-based antagonist of αvβ3 integrin receptor has enhanced the interest in PET probes to image this receptor for the early detection of cancer, to monitor the disease progression and the response to therapy. In this work, a novel prosthetic group (N-(4-fluorophenyl)pent-4-ynamide or FPPA) for the ¹⁸F-labeling of an αvβ3 selective RGD-peptide was successfully prepared. [¹⁸F]FPPA was obtained in three steps with a radiochemical yield of 44% (decay corrected). Conjugation to c(RGDfK(N₃)) by the Cu(II) catalyzed Huisgen azido alkyne cycloaddition provided the [¹⁸F]FPPA-c(RGDfK) with a radiochemical yield of 29% (decay corrected), in an overall synthesis time of 140 min.     

Synthesis and in vitro and in vivo evaluation of manganese(III) porphyrin–dextran as a novel MRI contrast agent

5-(4-Aminophenyl)-10,15,20-tris(4-sulfonatophenyl) manganese(III) porphyrin conjugated with dextran was synthesized. Its potential of being used as a tumor-targeting magnetic resonance imaging contrast agent was evaluated in vitro and in vivo. The results demonstrated that the compound has a longitudinal relaxivity (R₁) higher than Gd-DTPA, low cytotoxicity and binding specificity to tumor cell membrane.     

Synthesis of 18F-labelled 2-(4′-fluorophenyl)-1,3-benzothiazole and evaluation as amyloid imaging agent in comparison with [11C]PIB

2-(4′-[¹⁸F]fluorophenyl)-1,3-benzothiazole was synthesized as a fluorine-18 labelled derivative of the Pittsburg Compound-B (PIB), which has known affinity for amyloid β and promising characteristics as tracer for in vivo visualisation of amyloid deposits in patients suffering from Alzheimer’s disease (AD). Both the nitro-precursor 2-(4′-nitrophenyl)-1,3-benzothiazole and the non-radioactive reference compound were synthesized using a 1-step synthesis pathway. Labelling was achieved by direct aromatic nucleophilic substitution of the nitro-precursor using [¹⁸F]fluoride by heating for 20 min at 150 °C and with a radiochemical yield of 38%. The reference compound showed high affinity for amyloid in an in vitro competition binding study using human AD brain homogenates (K_i = 9.0 nM) and fluorescence imaging of incubated transgenic APP mouse brain slices confirmed binding to amyloid plaques. A biodistribution study in normal mice showed a high brain uptake at 2 min pi (3.20% ID/g) followed by a fast washout (60 min pi: 0.21% ID/g). A dynamic μPET study was performed in a transgenic APP and normal WT mouse, but, similar to [¹¹C]PIB, no difference was seen in tracer retention between both kind of mice. The new ¹⁸F-labelled 2-phenylbenzothiazole showed excellent preclinical characteristics comparable with those of the ¹¹C-labelled PIB.     

Synthesis and evaluation of 6-(3-[18F]fluoro-2-hydroxypropyl)-substituted 2-pyridylbenzothiophenes and 2-pyridylbenzothiazoles as potential PET tracers for imaging Aβ plaques

3-[¹⁸F]Fluoro-2-hydroxypropyl substituted compounds were synthesized and evaluated as novel ¹⁸F-labeled PET tracers for imaging Aβ plaque in a living brain. All compounds exhibited high binding affinities toward the synthetic Aβ_1–42 aggregate and/or Alzheimer’s disease brain homogenate. In the microPET study with normal mice, the 3-[¹⁸F]fluoro-2-hydroxypropyl substituted compounds resulted in fast brain washout by reducing the lipophilicities of the compounds. Intriguingly, (S)-configured PET tracers, (S)-[¹⁸F]1b and (S)-[¹⁸F]1c, exhibited a 2.8 and 4.0-fold faster brain washout rate at a peak/30 min in the mouse brain than the corresponding (R)-configured PET tracers despite there being no meaningful difference in binding affinities toward Aβ plaque. A further evaluation of (S)-[¹⁸F]1c with healthy rhesus monkeys also revealed excellent clearance from the frontal cortex with ratios of 7.0, 16.0, 30.0 and 49.0 at a peak/30, 60, 90, and 120 min, respectively. These results suggest that (S)-[¹⁸F]1c may be a potential PET tracer for imaging Aβ plaque in a living brain.     

Synthesis of [¹⁸F]-labeled (2-(2-fluoroethoxy)ethyl)triphenylphosphonium cation as a potential agent for myocardial imaging using positron emission tomography

[(18)F]-labeled molecular probe for the detection of myocardial perfusion deficit is driving particular interest due to its high clinical applicability. Thus, we synthesized (2-(2-[(18)F]fluoroethoxy)ethyl)triphenylphosphonium salt ([(18)F]3) that specifically accumulates in myocardium according to mitochondrial membrane potential. Here, we evaluated the performance of [(18)F]3 as a mitochondrial voltage sensor in vitro and in vivo. The [(18)F]3 was synthesized with 20～30% radiochemical yield and radiochemical purity was >98% by analytical HPLC. Specific activity was >6.7TBq/μmol. The cellular uptake assay showed preferential uptake of [(18)F]3 in cardiomyocytes. The results of biodistribution and micro-PET imaging studies of [(18)F]3 in mice and rats showed preferential accumulation in the myocardium. The results suggest that this compound would be a promising candidate for myocardial imaging.     

Synthesis and evaluation of [¹¹C]Cimbi-806 as a potential PET ligand for 5-HT₇ receptor imaging

2-(2',6'-Dimethoxy-[1,1'-biphenyl]-3-yl)-N,N-dimethylethanamine has been identified as a potent ligand for the serotonin 7 (5-HT(7)) receptor. In this study, we describe the synthesis, radiolabeling and in vivo evaluation of [(11)C]2-(2',6'-dimethoxy-[1,1'-biphenyl]-3-yl)-N,N-dimethylethanamine ([(11)C]Cimbi-806) as a radioligand for imaging brain 5-HT(7) receptors with positron emission tomography (PET). Precursor and reference compound was synthesized and subsequent (11)C-labelling with [(11)C]methyltriflate produced [(11)C]Cimbi-806 in specific activities ranging from 50 to 300 GBq/μmol. Following intravenous injection, brain uptake and distribution of [(11)C]Cimbi-806 was assessed with PET in Danish Landrace pigs. The time-activity curves revealed high brain uptake in thalamic and striatal regions (SUV ～2.5) and kinetic modeling resulted in distribution volumes (V(T)) ranging from 6 mL/cm(3) in the cerebellum to 12 mL/cm(3) in the thalamus. Pretreatment with the 5-HT(7) receptor antagonist SB-269970 did not result in any significant changes in [(11)C]Cimbi-806 binding in any of the analyzed regions. Despite the high brain uptake and relevant distribution pattern, the absence of appropriate in vivo blocking with a 5-HT(7) receptor selective compounds renders the conclusion that [(11)C]Cimbi-806 is not an appropriate PET radioligand for imaging the 5-HT(7) receptor in vivo.     

Synthesis and evaluation of [¹⁸F]fluororasagiline, a novel positron emission tomography (PET) radioligand for monoamine oxidase B (MAO-B)

The aim of this study was to synthesize and evaluate a novel fluorine-18 labeled analogue of rasagiline (6) as a PET radioligand for monoamine oxidase B (MAO-B). The corresponding non-radioactive fluorine-19 ligand, (1S,2S)-2-fluoro-N-(prop-2-yn-1-yl)indan-1-amine (4), was characterized in in vitro assays. The precursor compound (3aS,8aR)-3-(prop-2-yn-1-yl)-3,3a,8,8a-tetrahydroindeno[1,2-d][1,2,3]oxathiazole 2,2-dioxide (3) and reference standard 4 were synthesized in multi-step syntheses. Recombinant human MAO-B and MAO-A enzyme preparations were used in order to determine IC(50) values for compound 4 by use of an enzymatic assay employing kynuramine as substrate. Radiolabeling was accomplished by a two-step synthesis, compromising a nucleophilic substitution followed by hydrolysis of the sulphamidate group. Human whole hemisphere autoradiography (ARG) was performed with [(18)F]fluororasagiline. Blocking experiments with pirlindole (MAO-A), L-deprenyl and rasagiline (MAO-B) were conducted to demonstrate the specificity of the binding. A positron emission tomography (PET) study was carried out in a cynomolgus monkey where time activity curves for whole brain and regions with high and low MAO-B activity were recorded. Radiometabolites were measured in monkey plasma using gradient HPLC. Compound 4 inhibited MAO-B with an IC(50) of 27 nM and MAO-A with an IC(50) of 2.3 μM. Radiolabeling of precursor 3 and subsequent hydrolysis of the protecting group towards (1S,2S)-2-[(18)F]fluoro-N-(prop-2-yn-1-yl)indan-1-amine (6) was successfully accomplished with an radiochemical yield of 40-70%, a radiochemical purity higher than 99% and a specific radioactivity higher than 200GBq/μmol. ARG demonstrated selective binding for [(18)F]fluororasagiline (6) to MAO-B containing brain regions, for example, striatum. The initial uptake in the monkey brain was 250% SUV at 4 min post injection. The highest amounts of radioactivity were observed in the striatum and thalamus as expected whereas in the cortex and cerebellum lower levels were observed. Metabolite studies demonstrated 30% unchanged radioligand at 90 min post injection. Our investigations demonstrated that the new ligand [(18)F]fluororasagiline (6) binds specifically to MAO-B in vitro and has a MAO-B specific binding pattern in vivo. Thus, it could serve as a novel potential candidate for human PET studies.     

Synthesis of 6-[¹⁸F]fluoro-PBR28, a novel radiotracer for imaging the TSPO 18 kDa with PET

6-Fluoro-PBR28 (N-(6-fluoro-4-phenoxypyridin-3-yl)-N-(2-methoxybenzyl)acetamide), a fluorinated analogue of the recently developed TSPO 18 kDa ligand PBR28, was synthesized and labelled with fluorine-18. 6-Fluoro-PBR28 and its 6-chloro/6-bromo counterparts were synthesized in six chemical steps and obtained in 16%, 10% and 19% overall yields, respectively. Labelling with fluorine-18 was performed in one single step (chlorine/bromine-for-fluorine heteroaromatic substitution) using a Zymate-XP robotic system affording HPLC-purified, ready-to-inject, 6-[¹⁸F]fluoro-PBR28 (>95% radiochemically pure). Non-decay-corrected overall yields were 9-10% and specific radioactivities ranged from 74 to 148 GBq/μmol. In vitro binding experiments, dynamic μPET studies performed in a rat model of acute neuroinflammation (unilaterally, AMPA-induced, striatum-lesioned rats) and ex vivo autoradiography on the same model demonstrated the potential of 6-[¹⁸F]fluoro-PBR28 to image the TSPO 18 kDa using PET.     

New N-substituted 9-azabicyclo[3.3.1]nonan-3α-yl phenylcarbamate analogs as σ2 receptor ligands: Synthesis,in vitro characterization,and evaluation as PET imaging and chemosensitization agents

A series of N-substituted 9-azabicyclo[3.3.1]nonan-3α-yl phenylcarbamate analogs were synthesized. Among them, WC-26 and WC-59 were identified as the most potent σ₂ receptor ligands (K_i = 2.58 and 0.82 nM, respectively) with high selectivity against σ₁ (K_i of σ₁/σ₂ ratio = 557 and 2087, respectively). [¹⁸F]WC-59 was radiolabeled via a nucleophilic substitution of a mesylate precursor by [¹⁸F]fluoride, and in vitro direct binding studies of [¹⁸F]WC-59 were conducted using membrane preparations from murine EMT-6 solid breast tumors. The results indicate that [¹⁸F]WC-59 binds specifically to σ₂ receptors in vitro (K_d = ～2 nM). Biodistribution studies of [¹⁸F]WC-59 in EMT-6 tumor-bearing mice indicated that the tracer was a less suitable candidate for clinical imaging studies than existing F-18 labeled σ₂ receptor ligands. The ability of WC-26 to enhance the cytotoxic effects of the chemotherapy drug, doxorubicin, was evaluated in cell culture using the mouse breast tumor EMT-6 and the human tumor MDA-MB435. WC-26 greatly increased the ability of doxorubicin to kill these two tumor cell lines in vitro. These results indicate that WC-26 is potentially a useful chemosensitizer for the treatment of cancer when combined with conventional chemotherapeutics.     

Radiofluorinated histamine H₃ receptor antagonist as a potential probe for in vivo PET imaging: radiosynthesis and pharmacological evaluation

The histamine H(3) receptor (H(3)R) plays a role in cognition and memory processes and is implicated in different neurological disorders, including Alzheimer's disease, schizophrenia, and narcolepsy. In vivo studies of the H(3)R occupancy using a radiolabeled PET tracer would be very useful for CNS drug discovery and development. We report here the radiosynthesis, in vitro and in vivo evaluation of a novel (18)F-labeled high-affinity H(3)R antagonist (18)F-ST889. The radiosynthesis was accomplished via nucleophilic substitution of the mesylate leaving group with a radiochemical yield of 8-20%, radiochemical purity >99%, and specific radioactivity > 65 GBq/μmol. (18)F-ST889 exhibited high in vivo stability and rather low lipophilicity (logD(7.4)=0.35 ± 0.09). In vitro autoradiography showed specific binding in H(3)R-rich brain regions such as striatum and cortex. However, in vivo PET imaging of the rat brain with (18)F-ST889 was not successful. Possible reasons are discussed.     

¹⁸F]GE-180: a novel fluorine-18 labelled PET tracer for imaging Translocator protein 18 kDa (TSPO)

A series of tricyclic compounds have been synthesised and evaluated in vitro for affinity against Translocator protein 18 kDa (TSPO) and for preferred imaging properties. The most promising of the compounds were radiolabelled and evaluated in vivo to determine biodistribution and specificity for high expressing TSPO regions. Metabolite profiling in brain and plasma was also investigated. Evaluation in an autoradiography model of neuroinflammation was also carried out for the best compound, 12a ([(18)F]GE-180).     

Synthesis of N₄'-[¹⁸F]fluoroalkylated ciprofloxacin as a potential bacterial infection imaging agent for PET study

Syntheses and evaluation of fluoroalkylated ciprofloxacin analogues are described. Among these analogues, N?'-3-fluoropropylciprofloxacin (16) showed the most efficient antibacterial activity against E. coli strains (DH5α and TOP10) and a high binding affinity for DNA gyrase of bacteria. To develop bacteria-specific infection imaging agents for positron emission tomography (PET), no-carrier-added N?-3-[1?F]fluoropropylciprofloxacin ([1?F]16) was prepared in two steps from N?-3-methanesufonyloxypropylciprofloxacin, resulting in a 40% radiochemical yield (decay corrected for 100 min) via the tert-alcohol media radiofluorination protocol with high radiochemical purity (> 99%) as well as high specific activity (149 ± 75 GBq/μmol). The agent was stable (> 90%), as shown by an in vitro human serum stability assay. A bacterial uptake and blocking study of [1?F]16 using authentic compound 16 in TOP10 cells demonstrated its high specific bacterial uptake. The results suggest that this radiotracer holds promise as a useful bacterial infection radiopharmaceutical for PET imaging.     

Preparation and evaluation of 17-ethynyl-substituted 16α-[18F]fluoroestradiols: Selective receptor-based PET imaging agents

We have prepared and studied six new analogs of 16α-fluoroestradiol (FES): 17α- and 17β-ethynyl-FES (7 [FEES]and 7a), and the 11β-ethyl (8 and 8a) and 11β-methoxy (9 and 9a) derivatives, novel estrogen receptor-based PET imaging agents. The relative binding affinity (RBA) for the estrogen receptor (ER) versus FES is increased for 7, 9 and 9a but decreased for 7a, 8 and 8a. All six analogs have been labeled in the 16α position with ¹⁸F by the nucleophilic displacement of the corresponding 16β-trifluoromethanesulfonate with nBu₄N¹⁸F. Subsequent ethynylation with lithium trimethylsilylacetylide yielded the FEES analogs (total synthesis time: 120 min; effective specific activity: 200–2400 Ci/mmol). Selective uptake in the uterus was high for [¹⁸F)7, [¹⁸F]8, [¹⁸F]9 and [¹⁸F]9a (% ID/g values at 1 h: 11.2, 12.9, 9.9 and 8.3, respectively), while uptake was effectively blocked by coinjection of an excess of unlabeled estradiol. The FEES analogs, [¹⁸F]7, [¹⁸F]8 and [¹⁸F]9, exhibited the highest selectivity, in terms of target (uterus)-to-blood ratios, ever seen amongst estrogen radiopharmaceuticals, 154, 145 and 169, respectively. The analogs [¹⁸F]7a and [¹⁸F]8a displayed no uptake in the uterus, consistent with their low RBAs. Metabolism studies revealed that most of the uterine activity is unmetabolized while the blood exhibits a rapid and subsequently sustained mixture of metabolites. The muscle shows a metabolic profile intermediate to the uterus and blood. These analogs provide an array of desirable characteristics for the optimal PET imaging of ER-rich target tissues.     

Synthesis and biological evaluation of both enantiomers of [18F]flubatine,promising radiotracers with fast kinetics for the imaging of α4β2-nicotinic acetylcholine receptors

Both enantiomers of the epibatidine analogue flubatine display high affinity towards the α4β2 nicotinic acetylcholine receptor (nAChR) in vitro, accompanied by negligible interactions with diverse off-target proteins. Extended single dose toxicity studies in rodent indicated a NOEL (No Observed Effect Level) of 6.2 μg/kg for (−)-flubatine and 1.55 μg/kg for (+)-flubatine. We developed syntheses for both flubatine enantiomers and their corresponding precursors for radiolabeling. The newly synthesized trimethylammonium precursors allowed for highly efficient ¹⁸F-radiolabelling in radiochemical yields >60% and specific activities >750 GBq/μmol, thus making the radioligands practical for clinical investigation.     

Synthesis of 2-[11C]methoxy-3,17β-O,O-bis(sulfamoyl)estradiol as a new potential PET agent for imaging of steroid sulfatase (STS) in cancers

Steroid sulfatase (STS) catalyzes the hydrolysis of steroid sulfates to estrones, the main source of estrogens in tumors. Carbonic anhydrase II (CAII) is highly expressed in red blood cells through a coordination of the monoanionic form of the sulfamate moiety to the zinc atom in the enzyme active site, and CAII is highly expressed in several tumors. 2-Methoxy-3,17β-O,O-bis(sulfamoyl)estradiol (5) is a dual-function STS-CAII inhibitor inhibited STS with 39 nM IC(50) value selectively over CAII with 379 nM IC(50) value. This compound exhibited potent antiproferative activity with mean graph midpoint value of 87 nM in the NCI 60-cell-line panel, and antiangiogenic in vitro and in vivo activity in an early-stage Lewis lung model as well. The compound has been recently developed as a multitargeted anticancer agent. Both STS and CAII are over-expressed in cancers and have become attractive targets for cancer treatment and molecular imaging of cancer. Here we report the first design and synthesis of 2-[(11)C]methoxy-3,17β-O,O-bis(sulfamoyl)estradiol ([(11)C]5) as a new potential imaging agent for biomedical imaging technique positron emission tomography (PET) to image STS in cancers. The authentic standard 5 was synthesized from 17β-estradiol by published procedures in 5 steps with 40% overall chemical yield. The precursor 2-hydroxy-3,17β-O,O-bis(sulfamoyl)estradiol (14a) for radiolabeling was synthesized from 17β-estradiol in 10 steps with 5% overall chemical yield. The target tracer [(11)C]5 was prepared from the precursor 14a with [(11)C]CH(3)OTf through O-[(11)C]methylation and isolated by HPLC combined with solid-phase extraction (SPE) purification in 40-50% radiochemical yields based on [(11)C]CO(2) and decay corrected to end of bombardment (EOB), with 370-740 GBq/μmol specific activity at EOB.     

Radiosynthesis and first evaluation in mice of [18F]NS14490 for molecular imaging of α7 nicotinic acetylcholine receptors

[¹⁸F]NS14490, a new potential radiotracer for neuroimaging of α7 nicotinic acetylcholine receptors (α7 nAChRs), was synthesized and evaluated in vitro and in vivo. Radioligand binding studies using [³H]methyllycaconitine and NS14490 as competitor showed a good target affinity (K_i,α7 = 2.5 nM) and a high selectivity towards other nAChRs. Radiosynthesis of [¹⁸F]NS14490 was performed by two different labelling procedures: a two-step synthesis using a prosthetic group, which led to 7% labelling yield, and the convenient direct nucleophilic substitution of the corresponding tosylate precursor, which resulted in 70% labelling yield. After optimisation of the isolation, purification and formulation process, biodistribution studies were performed in CD-1 mice. The brain uptake of [¹⁸F]NS14490 was comparably low (0.16% ID g^?1 wet weight at 5 min p.i.). The radiotracer showed a high metabolic stability in plasma and brain. Also, the target specificity was proven by pre-administration of a highly affine α7 ligand providing a rationale basis for further in vivo evaluation.     

Synthesis and biological evaluation of 18F-labled 2-phenylindole derivatives as PET imaging probes for β-amyloid plaques

A novel series of fluorinated 2-phenylindole derivatives were synthesized and evaluated as β-amyloid imaging probes for PET. The in vitro inhibition assay demonstrated that their binding affinities for Aβ_1–42 aggregates ranged from 28.4 to 1097.8 nM. One ligand was labeled with ¹⁸F ([¹⁸F]1a) for its high affinity (K_i = 28.4 nM), which was also confirmed by in vitro autoradiography experiments on brain sections of transgenic mouse (C57BL6, APPswe/PSEN1, 11 months old, male). In vivo biodistribution experiments in normal mice showed that this radiotracer displayed high initial uptake (5.82 ± 0.51% ID/g at 2 min) into and moderate washout (2.77 ± 0.31% ID/g at 60 min) from the brain. [¹⁸F]1a could be developed as a promising new PET imaging probe for Aβ plaques although necessary modifications are still needed.