Your search keyword '"Gee, Antony D"' showing total 232 results

201. Open letter to journal editors on: International Consensus Radiochemistry Nomenclature Guidelines.

Author

Coenen HH, Gee AD, Adam M, Antoni G, Cutler CS, Fujibayashi Y, Jeong JM, Mach RH, Mindt TL, Pike VW, and Windhorst AD

Subjects

Humans, Internationality, Consensus Development Conferences as Topic, Periodicals as Topic, Radiochemistry, Scholarly Communication, Terminology as Topic

Published

2018

202. In-loop flow [ 11 C]CO 2 fixation and radiosynthesis of N,N'-[ 11 C]dibenzylurea.

Author

Downey J, Bongarzone S, Hader S, and Gee AD

Subjects

Benzyl Compounds chemistry, Cyclotrons, Fluorocarbons chemistry, Proof of Concept Study, Carbon Dioxide chemistry, Carbon Radioisotopes chemistry, Radiopharmaceuticals chemical synthesis, Urea analogs & derivatives

Abstract

Cyclotron-produced carbon-11 is a highly valuable radionuclide for the production of positron emission tomography (PET) radiotracers. It is typically produced as relatively unreactive carbon-11 carbon dioxide ([ 11 C]CO 2 ), which is most commonly converted into a more reactive precursor for synthesis of PET radiotracers. The development of [ 11 C]CO 2 fixation methods has more recently enabled the direct radiolabelling of a diverse array of structures directly from [ 11 C]CO 2 , and the advantages afforded by the use of a loop-based system used in 11 C-methylation and 11 C-carboxylation reactions inspired us to apply the [ 11 C]CO 2 fixation "in-loop." In this work, we developed and investigated a new ethylene tetrafluoroethylene (ETFE) loop-based [ 11 C]CO 2 fixation method, enabling the fast and efficient, direct-from-cyclotron, in-loop trapping of [ 11 C]CO 2 using mixed DBU/amine solutions. An optimised protocol was integrated into a proof-of-concept in-loop flow radiosynthesis of N,N'-[ 11 C]dibenzylurea. This reaction exhibited an average 78% trapping efficiency and a crude radiochemical purity of 83% (determined by radio-HPLC), giving an overall nonisolated radiochemical yield of 72% (decay-corrected) within just 3 minutes from end of bombardment. This proof-of-concept reaction has demonstrated that efficient [ 11 C]CO 2 fixation can be achieved in a low-volume (150 μL) ETFE loop and that this can be easily integrated into a rapid in-loop flow radiosynthesis of carbon-11-labelled products. This new in-loop methodology will allow fast radiolabelling reactions to be performed using cheap/disposable ETFE tubing setup (ideal for good manufacturing practice production) thereby contributing to the widespread usage of [ 11 C]CO 2 trapping/fixation reactions for the production of PET radiotracers., (© 2017 The Authors. Journal of Labelled Compounds and Radiopharmaceuticals Published by John Wiley & Sons, Ltd.)

Published

2018

203. Recent progress in [ 11 C]carbon dioxide ([ 11 C]CO 2 ) and [ 11 C]carbon monoxide ([ 11 C]CO) chemistry.

Author

Taddei C and Gee AD

Subjects

Positron-Emission Tomography methods, Carbon Dioxide chemistry, Carbon Monoxide chemistry, Carbon Radioisotopes chemistry, Radiopharmaceuticals chemical synthesis

Abstract

[ 11 C]Carbon dioxide ([ 11 C]CO 2 ) and [ 11 C]carbon monoxide ([ 11 C]CO) are 2 attractive precursors for labelling the carbonyl position (C═O) in a vast range of functionalised molecules (eg, ureas, amides, and carboxylic acids). The development of radiosynthetic methods to produce functionalised 11 C-labelled compounds is required to enhance the radiotracers available for positron emission tomography, molecular, and medical imaging applications. Following a brief summary of secondary 11 C-precursor production and uses, the review focuses on recent progress with direct 11 C-carboxylation routes with [ 11 C]CO 2 and 11 C-carbonylation with [ 11 C]CO. Novel approaches to generate [ 11 C]CO using CO-releasing molecules (CO-RMs), such as silacarboxylic acids and disilanes, applied to radiochemistry are described and compared with standard [ 11 C]CO production methods. These innovative [ 11 C]CO synthesis strategies represent efficient and reliable [ 11 C]CO production processes, enabling the widespread use of [ 11 C]CO chemistry within the wider radiochemistry community., (Copyright © 2017 John Wiley & Sons, Ltd.)

Published

2018

204. International Consensus Radiochemistry Nomenclature Guidelines.

Author

Coenen HH, Gee AD, Adam M, Antoni G, Cutler CS, Fujibayashi Y, Jeong JM, Mach RH, Mindt TL, Pike VW, and Windhorst AD

Subjects

Societies, Scientific, Nuclear Medicine standards, Practice Guidelines as Topic, Radiochemistry standards, Terminology as Topic

Abstract

Competing Interests: Disclosure The authors report no conflicts of interest in this work.

Published

2018

205. Letter to the Editor: International Consensus Radiochemistry Nomenclature Guidelines.

Author

Coenen HH, Gee AD, Adam M, Antoni G, Cutler CS, Fujibayashi Y, Jeong JM, Mach RH, Mindt TL, Pike VW, and Windhorst AD

Subjects

Consensus, Humans, Guidelines as Topic, Internationality, Radiochemistry, Terminology as Topic

Published

2018

206. Consensus nomenclature rules for radiopharmaceutical chemistry - Setting the record straight.

Author

Coenen HH, Gee AD, Adam M, Antoni G, Cutler CS, Fujibayashi Y, Jeong JM, Mach RH, Mindt TL, Pike VW, and Windhorst AD

Subjects

Radioactivity, Radioisotopes chemistry, Consensus, Radiochemistry, Radiopharmaceuticals chemistry, Terminology as Topic

Abstract

Over recent years, within the community of radiopharmaceutical sciences, there has been an increased incidence of incorrect usage of established scientific terms and conventions, and even the emergence of 'self-invented' terms. In order to address these concerns, an international Working Group on 'Nomenclature in Radiopharmaceutical Chemistry and related areas' was established in 2015 to achieve clarification of terms and to generate consensus on the utilisation of a standardised nomenclature pertinent to the field. Upon open consultation, the following consensus guidelines were agreed, which aim to., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

207. Targeting the Receptor for Advanced Glycation Endproducts (RAGE): A Medicinal Chemistry Perspective.

Author

Bongarzone S, Savickas V, Luzi F, and Gee AD

Subjects

Animals, Cardiovascular Diseases drug therapy, Cardiovascular Diseases metabolism, Diabetes Mellitus drug therapy, Diabetes Mellitus metabolism, Glycation End Products, Advanced metabolism, Humans, Molecular Targeted Therapy methods, Neoplasms drug therapy, Neoplasms metabolism, Neurodegenerative Diseases drug therapy, Neurodegenerative Diseases metabolism, Protein Domains drug effects, Protein Isoforms antagonists & inhibitors, Protein Isoforms chemistry, Protein Isoforms metabolism, Reactive Oxygen Species metabolism, Receptor for Advanced Glycation End Products chemistry, Small Molecule Libraries therapeutic use, Drug Discovery methods, Receptor for Advanced Glycation End Products antagonists & inhibitors, Receptor for Advanced Glycation End Products metabolism, Small Molecule Libraries chemistry, Small Molecule Libraries pharmacology

Abstract

The receptor for advanced glycation endproducts (RAGE) is an ubiquitous, transmembrane, immunoglobulin-like receptor that exists in multiple isoforms and binds to a diverse range of endogenous extracellular ligands and intracellular effectors. Ligand binding at the extracellular domain of RAGE initiates a complex intracellular signaling cascade, resulting in the production of reactive oxygen species (ROS), immunoinflammatory effects, cellular proliferation, or apoptosis with concomitant upregulation of RAGE itself. To date, research has mainly focused on the correlation between RAGE activity and pathological conditions, such as cancer, diabetes, cardiovascular diseases, and neurodegeneration. Because RAGE plays a role in many pathological disorders, it has become an attractive target for the development of inhibitors at the extracellular and intracellular domains. This review describes the role of endogenous RAGE ligands/effectors in normo- and pathophysiological processes, summarizes the current status of exogenous small-molecule inhibitors of RAGE and concludes by identifying key strategies for future therapeutic intervention.

Published

2017

208. Instantaneous Conversion of [ 11 C]CO 2 to [ 11 C]CO via Fluoride-Activated Disilane Species.

Author

Taddei C, Bongarzone S, and Gee AD

Abstract

The development of a fast and novel methodology to generate carbon-11 carbon monoxide ([ 11 C]CO) from cyclotron-produced carbon-11 carbon dioxide ([ 11 C]CO 2 ) mediated by a fluoride-activated disilane species is described. This methodology allows up to 74 % conversion of [ 11 C]CO 2 to [ 11 C]CO using commercially available reagents, readily available laboratory equipment and mild reaction conditions (room temperature). As proof of utility, radiochemically pure [carbonyl- 11 C]N-benzylbenzamide was successfully synthesized from produced [ 11 C]CO in up to 74 % radiochemical yield (RCY) and >99 % radiochemical purity (RCP) in ≤10 min from end of [ 11 C]CO 2 delivery., (© 2017 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.)

Published

2017

209. Electrochemical [ 11 C]CO 2 to [ 11 C]CO conversion for PET imaging.

Author

Anders DA, Bongarzone S, Fortt R, Gee AD, and Long NJ

Abstract

The development of a novel electrochemical methodology to generate carbon-11 carbon monoxide ([ 11 C]CO) from cyclotron-produced carbon-11 carbon dioxide ([ 11 C]CO 2 ) using Ni(cyclam) and Zn(cyclen) complexes is described. This methodology allows up to 10% yields of [ 11 C]CO from [ 11 C]CO 2 . Produced [ 11 C]CO was subsequently converted to [ 11 C]N-benzylbenzamide under mild conditions with a radiochemical purity (RCP) of >98%.

Published

2017

210. Do we say what we mean and mean what we say?: Setting the record straight on radiochemistry nomenclature.

Author

Coenen HH and Gee AD

Subjects

Humans, Communication, Comprehension, Radiochemistry, Terminology as Topic

Published

2017

211. Convergent synthesis of 13 N-labelled Peptidic structures using aqueous [ 13 N]NH 3 .

Author

Blower JE, Cousin SF, and Gee AD

Abstract

Background: Nitrogen-13 has a 10-min half-life which places time constraints on the complexity of viable synthetic methods for its incorporation into PET imaging agents. In exploring ways to overcome this limitation, we have used the Ugi reaction to develop a rapid one-pot method for radiolabelling peptidic molecules using [ 13 N]NH 3 as a synthetic precursor., Methods: Carrier-added [ 13 N]NH 3 (50 μL) was added to a solution of carboxylic acid, aldehyde, and isocyanide in 2,2,2-TFE (200 μL). The mixture was heated in a microwave synthesiser at 120 °C for 10 min. Reactions were analysed by radio-HPLC and radio-LCMS. Isolation of the target 13 N-labelled peptidic Ugi compound was achieved via semi-preparative radio-HPLC as demonstrated for Ugi 1., Results: Radio-HPLC analysis of each reaction confirmed the formation of radioactive products co-eluting with their respective reference standards with radiochemical yields of the crude products ranging from 11% to 23%. Two cyclic γ-lactam structures were also achieved via intra-molecular reactions. Additional radioactive by-products observed in the radio-chromatogram were identified as 13 N-labelled di-imines formed from the reaction of [ 13 N]NH 3 with two isocyanide molecules. The desired 13 N-labelled Ugi product was isolated using semi-preparative HPLC., Conclusion: We have developed a one-pot method that opens up new routes to radiolabel complex, peptidic molecules with 13 N using aqueous [ 13 N]NH 3 as a synthetic precursor., Competing Interests: Not applicableNot applicableNot applicableThe authors declare that they have no competing interests.Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Published

2017

212. 18F-Fluorosulfate for PET Imaging of the Sodium-Iodide Symporter: Synthesis and Biologic Evaluation In Vitro and In Vivo.

Author

Khoshnevisan A, Chuamsaamarkkee K, Boudjemeline M, Jackson A, Smith GE, Gee AD, Fruhwirth GO, and Blower PJ

Subjects

Animals, Female, Isotope Labeling methods, Metabolic Clearance Rate, Mice, Mice, Inbred BALB C, Organ Specificity, Radiopharmaceuticals chemical synthesis, Radiopharmaceuticals pharmacokinetics, Reproducibility of Results, Sensitivity and Specificity, Thyroid Gland diagnostic imaging, Tissue Distribution, Fluorides pharmacokinetics, Fluorine Radioisotopes pharmacokinetics, Molecular Imaging methods, Positron-Emission Tomography methods, Sulfuric Acids pharmacokinetics, Symporters metabolism, Thyroid Gland metabolism

Abstract

Anion transport by the human sodium-iodide symporter (hNIS) is an established target for molecular imaging and radionuclide therapy. Current radiotracers for PET of hNIS expression are limited to 124 I - and 18 F-BF 4 - We sought new 18 F-labeled hNIS substrates offering higher specific activity, higher affinity, and simpler radiochemical synthesis than 18 F-BF 4 - METHODS: The ability of a range of anions, some containing fluorine, to block 99m TcO 4 - uptake in hNIS-expressing cells was measured. SO 3 F - emerged as a promising candidate. 18 F-SO 3 F - was synthesized by reaction of 18 F - with SO 3 -pyridine complex in MeCN and purified using alumina and quaternary methyl ammonium solid-phase extraction cartridges. Chemical and radiochemical purity and serum stability were determined by radiochromatography. Radiotracer uptake and efflux in hNIS-transduced HCT116-C19 cells and the hNIS-negative parent cell line were evaluated in vitro in the presence and absence of a known competitive inhibitor (NaClO 4 ). PET/CT imaging and ex vivo biodistribution measurement were conducted on BALB/c mice, with and without NaClO 4 inhibition., Results: Fluorosulfate was identified as a potent inhibitor of 99m TcO 4 - uptake via hNIS in vitro (half-maximal inhibitory concentration, 0.55-0.56 μM (in comparison with 0.29-4.5 μM for BF 4 - , 0.07 μM for TcO 4 - , and 2.7-4.7 μM for I - ). Radiolabeling to produce 18 F-SO 3 F - was simple and afforded high radiochemical purity suitable for biologic evaluation (radiochemical purity > 95%, decay-corrected radiochemical yield = 31.6%, specific activity ≥ 48.5 GBq/μmol). Specific, blockable hNIS-mediated uptake in HCT116-C19 cells was observed in vitro, and PET/CT imaging of normal mice showed uptake in thyroid, salivary glands (percentage injected dose/g at 30 min, 563 ± 140 and 32 ± 9, respectively), and stomach (percentage injected dose/g at 90 min, 68 ± 21)., Conclusion: Fluorosulfate is a high-affinity hNIS substrate. 18 F-SO 3 F - is easily synthesized in high yield and very high specific activity and is a promising candidate for preclinical and clinical PET imaging of hNIS expression and thyroid-related disease; it is the first example of in vivo PET imaging with a tracer containing an S- 18 F bond., (© 2017 by the Society of Nuclear Medicine and Molecular Imaging.)

Published

2017

213. [(18)F]tetrafluoroborate as a PET tracer for the sodium/iodide symporter: the importance of specific activity.

Author

Khoshnevisan A, Jauregui-Osoro M, Shaw K, Torres JB, Young JD, Ramakrishnan NK, Jackson A, Smith GE, Gee AD, and Blower PJ

Abstract

Background: [(18)F]BF4 (-), the first (18)F-labelled PET imaging agent for the sodium/iodide symporter (NIS), was produced by isotopic exchange yielding a product with limited specific activity (SA, ca. 1 GBq/μmol) posing a risk of sub-optimal target-to-background ratios (TBR) in PET images due to saturation of NIS in vivo. We sought to quantify this risk and to develop a method of production of [(18)F]BF4 (-) with higher SA., Methods: A new radiosynthesis of [(18)F]BF4 (-) was developed, involving reaction of [(18)F]F(-) with boron trifluoride diethyl etherate under anhydrous conditions, guided by (11)B and (19)F NMR studies of equilibria involving BF4 (-) and BF3. The SA of the product was determined by ion chromatography. The IC50 of [(19)F]BF4 (-) as an inhibitor of [(18)F]BF4 (-) uptake was determined in vitro using HCT116-C19 human colon cancer cells expressing the human form of NIS (hNIS). The influence of [(19)F]BF4 (-) dose on biodistribution in vivo was evaluated in normal mice by nanoPET imaging and ex vivo tissue counting., Results: An IC50 of 4.8 μΜ was found in vitro indicating a significant risk of in vivo NIS saturation at SA achieved by the isotopic exchange labelling method. In vivo thyroid and salivary gland uptake decreased significantly with [(19)F]BF4 (-) doses above ca. 10 μg/kg. The new radiosynthesis gave high radiochemical purity (>99 %) and moderate yield (15 %) and improved SA (>5 GBq/μmol) from a starting activity of only 1.5 GBq., Conclusions: [(18)F]BF4 (-) produced at previously reported levels of SA (1 GBq/μmol) can lead to reduced uptake in NIS-expressing tissues in mice. This is much less likely in humans. The synthetic approach described provides an alternative for production of [(18)F]BF4 (-) at higher SA with sufficient yield and without need for unusually high starting activity of [(18)F]fluoride, removing the risk of NIS saturation in vivo even in mice., Trial Registration: ISRCTN75827286 .

Published

2016

214. A lipophilic copper(ii) complex as an optical probe for intracellular detection of NO.

Author

Wilson N, Mak LH, Cilibrizzi A, Gee AD, Long NJ, Woscholski R, and Vilar R

Abstract

A new chemical sensor for cellular imaging of NO is presented. This cell-permeable probe is based on a complex where copper(ii) is coordinated to a tridentate ligand substituted with a fluorophore (NBD) and an octyl group. The fluorescence response of this complex towards a range of reactive species (namely NO, NO 2 - , NO 3 - , H 2 O 2 , ClO - , O 2 - and ONOO - ) has been studied in vitro showing that the probe is highly selective for NO. The probe is readily taken up by cells and is able to image the cellular concentrations of NO.

Published

2016

215. (11)C[double bond, length as m-dash]O bonds made easily for positron emission tomography radiopharmaceuticals.

Author

Rotstein BH, Liang SH, Placzek MS, Hooker JM, Gee AD, Dollé F, Wilson AA, and Vasdev N

Subjects

Dacarbazine analogs & derivatives, Dacarbazine chemistry, Humans, Molecular Structure, Temozolomide, Carbon Radioisotopes chemistry, Oxygen chemistry, Positron-Emission Tomography instrumentation, Radiopharmaceuticals chemistry

Abstract

The positron-emitting radionuclide carbon-11 ((11)C, t1/2 = 20.3 min) possesses the unique potential for radiolabeling of any biological, naturally occurring, or synthetic organic molecule for in vivo positron emission tomography (PET) imaging. Carbon-11 is most often incorporated into small molecules by methylation of alcohol, thiol, amine or carboxylic acid precursors using [(11)C]methyl iodide or [(11)C]methyl triflate (generated from [(11)C]carbon dioxide or [(11)C]methane). Consequently, small molecules that lack an easily substituted (11)C-methyl group are often considered to have non-obvious strategies for radiolabeling and require a more customized approach. [(11)C]Carbon dioxide itself, [(11)C]carbon monoxide, [(11)C]cyanide, and [(11)C]phosgene represent alternative reactants to enable (11)C-carbonylation. Methodologies developed for preparation of (11)C-carbonyl groups have had a tremendous impact on the development of novel PET tracers and provided key tools for clinical research. (11)C-Carbonyl radiopharmaceuticals based on labeled carboxylic acids, amides, carbamates and ureas now account for a substantial number of important imaging agents that have seen translation to higher species and clinical research of previously inaccessible targets, which is a testament to the creativity, utility and practicality of the underlying radiochemistry.

Published

2016

216. Benzyl [(11)C]Hippurate as an Agent for Measuring the Activities of Organic Anion Transporter 3 in the Brain and Multidrug Resistance-Associated Protein 4 in the Heart of Mice.

Author

Kikuchi T, Okamura T, Okada M, Ogawa M, Suzuki C, Wakizaka H, Yui J, Fukumura T, Gee AD, and Zhang MR

Subjects

Administration, Intravenous, Animals, Carbon Radioisotopes, Heart, Hippurates administration & dosage, Hippurates chemical synthesis, Hippurates chemistry, Mice, Mice, Inbred C57BL, Mice, Knockout, Multidrug Resistance-Associated Proteins deficiency, Organic Anion Transporters, Sodium-Independent deficiency, Positron-Emission Tomography, Tissue Distribution, Brain metabolism, Hippurates pharmacokinetics, Multidrug Resistance-Associated Proteins metabolism, Organic Anion Transporters, Sodium-Independent metabolism

Abstract

Multidrug resistance-associated protein 4 (MRP4) and organic anion transporter 3 (OAT3) mediate the efflux of organic anions from the brain and heart. In this study, we have developed a probe for estimating the activity of these transporters in these tissues using positron emission tomography. Several (11)C-labeled hippuric acid ester derivatives were screened with the expectation that they would be hydrolyzed in situ to form the corresponding (11)C-labeled organic acids in target tissues. Among the compounds screened, benzyl [(11)C]hippurate showed favorable hydrolysis rates and uptake properties in the target tissues of mice. Subsequent evaluation using transporter knockout mice revealed that radioactivity was retained in the brain and heart of Oat3(-/-) and Mrp4(-/-) mice, respectively, compared with that of control mice after the intravenous administration of benzyl [(11)C]hippurate. Benzyl [(11)C]hippurate could therefore be used as a probe for estimating the activities of OAT3 and MRP4 in mouse brain and heart, respectively.

Published

2016

217. EANM guideline for the preparation of an Investigational Medicinal Product Dossier (IMPD).

Author

Todde S, Windhorst AD, Behe M, Bormans G, Decristoforo C, Faivre-Chauvet A, Ferrari V, Gee AD, Gulyas B, Halldin C, Peitl PK, Koziorowski J, Mindt TL, Sollini M, Vercouillie J, Ballinger JR, and Elsinga PH

Subjects

Clinical Trials as Topic, Drug Stability, Government Regulation, Quality Control, Reference Standards, Terminology as Topic, Nuclear Medicine legislation & jurisprudence, Nuclear Medicine standards, Radiopharmaceuticals therapeutic use, Societies, Scientific

Abstract

The preparation of an Investigational Medicinal Product Dossier (IMPD) for a radiopharmaceutical to be used in a clinical trial is a challenging proposition for radiopharmaceutical scientists working in small-scale radiopharmacies. In addition to the vast quantity of information to be assembled, the structure of a standard IMPD is not well suited to the special characteristics of radiopharmaceuticals. This guideline aims to take radiopharmaceutical scientists through the practicalities of preparing an IMPD, in particular giving advice where the standard format is not suitable. Examples of generic IMPDs for three classes of radiopharmaceuticals are given: a small molecule, a kit-based diagnostic test and a therapeutic radiopharmaceutical.

Published

2014

218. Palladium-mediated oxidative carbonylation reactions for the synthesis of (11) C-radiolabelled ureas.

Author

Kealey S, Husbands SM, Bennacef I, Gee AD, and Passchier J

Subjects

Benzimidazoles, Carbon Radioisotopes, Catalysis, Isotope Labeling, Oxidation-Reduction, Carbon Monoxide chemistry, Palladium chemistry, Radiochemistry methods, Urea chemistry

Abstract

Palladium(II)-mediated oxidative carbonylation reactions have been used to synthesize (11) C-radiolabelled ureas via the coupling of amines with [(11) C]carbon monoxide, in a one-pot process. Following trapping of (11) CO in a solution of copper(I) tris(3,5-dimethylpyrazolyl)borate, homocoupling reactions of primary aliphatic amines proceed in the presence of Pd(PPh3 )2 Cl2 to give the corresponding N,N-disubstituted [(11) C]ureas. Secondary amines do not produce the corresponding N,N,N,N-tetrasubsituted [(11) C]ureas under these conditions. This difference in reactivity allows for the formation of unsymmetrical N,N',N'-trisubstituted [(11) C]ureas using a mixture of a primary amine and a reactive secondary amine. The potential use of this method in positron emission tomography (PET) was demonstrated by the synthesis of the M1 muscarinic acetylcholine receptor radiotracer, [(11) C-carbonyl]GSK1034702., (Copyright © 2013 John Wiley & Sons, Ltd.)

Published

2014

219. A comparison of the behavior of (64)Cu-acetate and (64)Cu-ATSM in vitro and in vivo.

Author

Hueting R, Kersemans V, Cornelissen B, Tredwell M, Hussien K, Christlieb M, Gee AD, Passchier J, Smart SC, Dilworth JR, Gouverneur V, and Muschel RJ

Subjects

Animals, Cell Line, Cell Line, Tumor, Coordination Complexes, Copper chemistry, Female, Humans, Hypoxia, Immunohistochemistry, Mice, Mice, Inbred CBA, Neoplasm Transplantation, Oxygen chemistry, Positron-Emission Tomography, Prognosis, Time Factors, Acetates pharmacology, Copper Radioisotopes pharmacology, Organometallic Compounds pharmacology, Thiosemicarbazones pharmacology

Abstract

Unlabelled: (64)Cu-diacetyl-bis(N(4)-methylthiosemicarbazonate), (64)Cu-ATSM, continues to be investigated clinically as a PET agent both for delineation of tumor hypoxia and as an effective indicator of patient prognosis, but there are still aspects of the mechanism of action that are not fully understood., Methods: The retention of radioactivity in tumors after administration of (64)Cu-ATSM in vivo is substantially higher for tumors with a significant hypoxic fraction. This hypoxia-dependent retention is believed to involve the reduction of Cu-ATSM, followed by the loss of copper to cellular copper processing. To shed light on a possible role of copper metabolism in hypoxia targeting, we have compared (64)Cu retention in vitro and in vivo in CaNT and EMT6 cells or cancers after the administration of (64)Cu-ATSM or (64)Cu-acetate., Results: In vivo in mice bearing CaNT or EMT6 tumors, biodistributions and dynamic PET data are broadly similar for (64)Cu-ATSM and (64)Cu-acetate. Copper retention in tumors at 15 min is higher after injection of (64)Cu-acetate than (64)Cu-ATSM, but similar values result at 2 and 16 h for both. Colocalization with hypoxia as measured by EF5 immunohistochemistry is evident for both at 16 h after administration but not at 15 min or 2 h. Interestingly, at 2 h tumor retention for (64)Cu-acetate and (64)Cu-ATSM, although not colocalizing with hypoxia, is reduced by similar amounts by increased tumor oxygenation due to inhalation of increased O2. In vitro, substantially less uptake is observed for (64)Cu-acetate, although this uptake had some hypoxia selectivity. Although (64)Cu-ATSM is stable in mouse serum alone, there is rapid disappearance of intact complex from the blood in vivo and comparable amounts of serum bound activity for both (64)Cu-ATSM and (64)Cu-acetate., Conclusion: That in vivo, in the EMT6 and CaNT tumors studied, the distribution of radiocopper from (64)Cu-ATSM in tumors essentially mirrors that of (64)Cu-acetate suggests that copper metabolism may also play a role in the mechanism of selectivity of Cu-ATSM.

Published

2014

220. Imaging imidazoline-I2 binding sites in porcine brain using 11C-BU99008.

Author

Kealey S, Turner EM, Husbands SM, Salinas CA, Jakobsen S, Tyacke RJ, Nutt DJ, Parker CA, and Gee AD

Subjects

Animals, Binding Sites, Carbon Radioisotopes, Kinetics, Ligands, Radiochemistry, Swine, Brain diagnostic imaging, Brain metabolism, Imidazoles blood, Imidazoles chemistry, Imidazoles metabolism, Imidazolines metabolism, Indoles blood, Indoles chemistry, Indoles metabolism, Positron-Emission Tomography methods

Abstract

Unlabelled: Changes in the density of imidazoline-I(2) binding sites have been observed in a range of neurologic disorders including Alzheimer's disease, Huntington's chorea, and glial tumor; however, the precise function of these sites remains unclear. A PET probe for I(2) binding sites would further our understanding of the target and may find application as a biomarker for early disease diagnosis. Compound BU99008 has previously been identified as a promising I(2) ligand from autoradiography studies, displaying high affinity and good selectivity toward the target. In this study, BU99008 was radiolabeled with (11)C in order to image the I(2) binding sites in vivo using PET., Methods: (11)C-BU99008 was radiolabeled by N-alkylation of the desmethyl precursor using (11)C-methyl iodide. A series of PET experiments was performed to investigate the binding of (11)C-BU99008 in porcine brains, in the presence or absence of a nonradiolabeled, competing I(2) ligand, BU224., Results: (11)C-BU99008 was obtained in good yield and specific activity. In vivo, (11)C-BU99008 displayed good brain penetration and gave a heterogeneous distribution with high uptake in the thalamus and low uptake in the cortex and cerebellum. (11)C-BU99008 brain kinetics were well described by the 1-tissue-compartment model, which was used to provide estimates for the total volume of distribution (V(T)) across brain regions of interest. Baseline V(T) values were ranked in the following order: thalamus > striatum > hippocampus > frontal cortex ≥ cerebellum, consistent with the known distribution and concentration of I(2) binding sites. Administration of a selective I(2) binding site ligand, BU224, reduced the V(T) to near-homogeneous levels in all brain regions., Conclusion: (11)C-BU99008 appears to be a suitable PET radioligand for imaging the I(2) binding sites in vivo.

Published

2013

221. Recommendations for measurement of tumour vascularity with positron emission tomography in early phase clinical trials.

Author

Aboagye EO, Gilbert FJ, Fleming IN, Beer AJ, Cunningham VJ, Marsden PK, Visvikis D, Gee AD, Groves AM, Kenny LM, Cook GJ, Kinahan PE, Myers M, and Clarke L

Subjects

Europe, Humans, Neoplasms blood supply, North America, Reference Standards, Clinical Trials as Topic standards, Neoplasms diagnostic imaging, Neovascularization, Pathologic diagnostic imaging, Positron-Emission Tomography standards, Practice Guidelines as Topic, Radiopharmaceuticals standards

Abstract

The evaluation of drug pharmacodynamics and early tumour response are integral to current clinical trials of novel cancer therapeutics to explain or predict long term clinical benefit or to confirm dose selection. Tumour vascularity assessment by positron emission tomography could be viewed as a generic pharmacodynamic endpoint or tool for monitoring response to treatment. This review discusses methods for semi-quantitative and quantitative assessment of tumour vascularity. The radioligands and radiotracers range from direct physiological functional tracers like [(15)O]-water to macromolecular probes targeting integrin receptors expressed on neovasculature. Finally we make recommendations on ways to incorporate such measurements of tumour vascularity into early clinical trials of novel therapeutics. Key Points • [ ( 15 ) O]-water is the gold standard for blood flow/tissue perfusion with PET • In some instances dynamic [ ( 18 ) F]-FDG uptake may be used to estimate perfusion • Radiopharmaceuticals that target integrins are now being evaluated for measuring tumour vascularity.

Published

2012

222. Gas-liquid segmented flow microfluidics for screening Pd-catalyzed carbonylation reactions.

Author

Gong X, Miller PW, Gee AD, Long NJ, de Mello AJ, and Vilar R

Subjects

Catalysis, Combinatorial Chemistry Techniques, Gases, Molecular Structure, Carbon Monoxide chemistry, Microfluidics, Palladium chemistry

Published

2012

223. Au(I) /Au(III) catalysis: an alternative approach for C-C oxidative coupling.

Author

Hopkinson MN, Gee AD, and Gouverneur V

Abstract

When reacted in the presence of external oxidants, gold complexes are capable of catalyzing oxidative homo- and cross-coupling reactions involving the formation of new C-C bonds. Over the last few years, several cascade processes have been reported in which coupling is preceded by a gold-mediated aryl C-H functionalization or nucleophilic addition. These reactions combine the unique reactivity of gold with oxidative coupling, enabling the construction of C-C bonds between coupling partners that are not easily accessed using alternative catalysts. In this Concept paper, the development of gold-catalyzed oxidative coupling reactions is discussed focusing on C-C bond-forming reactions of broad synthetic appeal., (Copyright © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2011

224. Palladium-catalyzed allylic fluorination.

Author

Hollingworth C, Hazari A, Hopkinson MN, Tredwell M, Benedetto E, Huiban M, Gee AD, Brown JM, and Gouverneur V

Subjects

Catalysis, Molecular Structure, Allyl Compounds chemistry, Fluorine chemistry, Palladium chemistry

Published

2011

225. Rapid carbon-11 radiolabelling for PET using microfluidics.

Author

Miller PW, Audrain H, Bender D, deMello AJ, Gee AD, Long NJ, and Vilar R

Subjects

Amides chemistry, Carbon Radioisotopes, Combinatorial Chemistry Techniques, Lactones chemical synthesis, Lactones chemistry, Microfluidic Analytical Techniques methods, Molecular Structure, Palladium chemistry, Positron-Emission Tomography methods, Amides chemical synthesis, Microfluidic Analytical Techniques instrumentation, Positron-Emission Tomography instrumentation

Published

2011

226. Gold-catalyzed cascade cyclization-oxidative alkynylation of allenoates.

Author

Hopkinson MN, Ross JE, Giuffredi GT, Gee AD, and Gouverneur V

Subjects

Catalysis, Crystallography, X-Ray, Cyclization, Models, Molecular, Molecular Structure, Oxidation-Reduction, Alkynes chemistry, Gold chemistry, Naphthalenes chemistry

Abstract

A gold(I)-catalyzed cascade cyclization-oxidative cross-coupling process has been applied to prepare β-alkynyl-γ-butenolides directly from allenoates and various terminal alkynes. Following an initial gold-catalyzed C-O bond forming allenoate cyclization, a mechanism based on a Au(I)/Au(III) redox cycle has been proposed with Selectfluor acting as the external oxidant.

Published

2010

227. Gold-catalyzed intramolecular oxidative cross-coupling of nonactivated arenes.

Author

Hopkinson MN, Tessier A, Salisbury A, Giuffredi GT, Combettes LE, Gee AD, and Gouverneur V

Published

2010

228. Synthesis of 11C, 18F, 15O, and 13N radiolabels for positron emission tomography.

Author

Miller PW, Long NJ, Vilar R, and Gee AD

Subjects

Carbon Radioisotopes chemistry, Carbon Radioisotopes metabolism, Fluorine Radioisotopes chemistry, Fluorine Radioisotopes metabolism, Humans, Nitrogen Radioisotopes chemistry, Nitrogen Radioisotopes metabolism, Oxygen Radioisotopes chemistry, Oxygen Radioisotopes metabolism, Radioisotopes metabolism, Isotope Labeling, Positron-Emission Tomography instrumentation, Positron-Emission Tomography methods, Positron-Emission Tomography statistics & numerical data, Radioisotopes chemistry

Abstract

Positron emission tomography (PET) is a powerful and rapidly developing area of molecular imaging that is used to study and visualize human physiology by the detection of positron-emitting radiopharmaceuticals. Information about metabolism, receptor/enzyme function, and biochemical mechanisms in living tissue can be obtained directly from PET experiments. Unlike magnetic resonance imaging (MRI) or computerized tomography (CT), which mainly provide detailed anatomical images, PET can measure chemical changes that occur before macroscopic anatomical signs of a disease are observed. PET is emerging as a revolutionary method for measuring body function and tailoring disease treatment in living subjects. The development of synthetic strategies for the synthesis of new positron-emitting molecules is, however, not trivial. This Review highlights key aspects of the synthesis of PET radiotracers with the short-lived positron-emitting radionuclides (11)C, (18)F, (15)O, and (13)N, with emphasis on the most recent strategies.

Published

2008

229. PET studies in drug development: Methodological considerations.

Author

Cunningham VJ, Parker CA, Rabiner EA, Gee AD, and Gunn RN

Abstract

Positron emission tomography (PET), as an in vivo pharmacological imaging tool in experimental medicine, is playing an increasing role in drug development. There are two areas where PET is particularly useful in this respect, namely biodistribution and drug occupancy studies. Radiotracer design, the properties of the molecular targets which can be studied and the quantitative estimation of pharmacological endpoints will be discussed in relation to these applications, with particular reference to studies in brain.:, (© 2005 Elsevier Ltd . All rights reserved.)

Published

2005

230. Quantification of brain phosphodiesterase 4 in rat with (R)-[11C]Rolipram-PET.

Author

Fujita M, Zoghbi SS, Crescenzo MS, Hong J, Musachio JL, Lu JQ, Liow JS, Seneca N, Tipre DN, Cropley VL, Imaizumi M, Gee AD, Seidel J, Green MV, Pike VW, and Innis RB

Subjects

Algorithms, Animals, Autoradiography, Blood Proteins metabolism, Chromatography, High Pressure Liquid, Cyclic Nucleotide Phosphodiesterases, Type 4, Image Interpretation, Computer-Assisted, Isotope Labeling, Least-Squares Analysis, Male, Nonlinear Dynamics, Positron-Emission Tomography, Protein Binding, Rats, Rats, Sprague-Dawley, 3',5'-Cyclic-AMP Phosphodiesterases analysis, Brain diagnostic imaging, Brain enzymology, Phosphodiesterase Inhibitors blood, Phosphodiesterase Inhibitors pharmacokinetics, Radiopharmaceuticals blood, Radiopharmaceuticals pharmacokinetics, Rolipram blood, Rolipram pharmacokinetics

Abstract

Objective: Phosphodiesterase 4 (PDE4) catabolizes the second messenger 3', 5'-cyclic adenosine monophosphate and may play a critical role in brain diseases. Our aim was to quantify PDE4 in rats with positron emission tomography (PET)., Methods: High (n = 6) and low specific activity (SA) (n = 2) higher affinity ((R)-[(11)C]rolipram) and high SA lower affinity ((S)-[(11)C]rolipram) (n = 2) enantiomers were intravenously administered to Sprague-Dawley rats. Brain data were acquired using the ATLAS PET scanner and reconstructed using the 3D-ordered subset expectation maximization algorithm. Arterial samples were taken to measure unmetabolized [(11)C]rolipram. Total distribution volumes (V(T)') were calculated using a 1-tissue compartment (1C) and an unconstrained 2-tissue compartment (2C) model., Results: High SA R experiments showed later and greater brain uptake, and slower washout than low SA R and S experiments. In all regions and in all experiments, the 2C model gave significantly better fitting than the 1C model. The poor fitting by the latter caused underestimation of V(T)' by 19-31%. The 2C model identified V(T)' reasonably well with coefficients of variation less than 10%. V(T)' values by this model were 16.4-29.2 mL/cm(3) in high SA R, 2.9-3.5 in low SA R, and 3.1-3.7 in S experiments., Conclusions: Specific binding of (R)-[(11)C]rolipram was accurately measured in living rats. In high SA R experiments, approximately 86% of V(T)' was specific binding. Distribution and changes of PDE4 in animal models can now be studied by measuring V(T)' of high SA (R)-[(11)C]rolipram.

Published

2005

231. Delineation of positron emission tomography imaging agent binding sites on beta-amyloid peptide fibrils.

Author

Ye L, Morgenstern JL, Gee AD, Hong G, Brown J, and Lockhart A

Subjects

1-Naphthylamine metabolism, Alzheimer Disease metabolism, Benzothiazoles, Binding Sites, Congo Red metabolism, Fluorescence, Humans, Positron-Emission Tomography, Radioligand Assay, Thiazoles metabolism, Alzheimer Disease diagnostic imaging, Amyloid beta-Peptides metabolism, Contrast Media

Abstract

A range of imaging agents for use in the positron emission tomography of Alzheimer's disease is currently under development. Each of the main compound classes, derived from thioflavin T (PIB), Congo Red (BSB), and aminonaphthalene (FDDNP) are believed to bind to mutually exclusive sites on the beta-amyloid (Abeta) peptide fibrils. We recently reported the presence of three classes of binding sites (BS1, BS2, BS3) on the Abeta fibrils for thioflavin T derivatives and now extend these findings to demonstrate that these sites are also able to accommodate ligands from the other chemotype classes. The results from competition assays using [3H]Me-BTA-1 (BS3 probe) indicated that both PIB and FDDNP were able to displace the radioligand with Ki values of 25 and 42 nM, respectively. BSB was unable to displace the radioligand tracer from the Abeta fibrils. In contrast, each of the compounds examined were able to displace thioflavin T (BS1 probe) from the Abeta fibrils when evaluated in a fluorescence competition assay with Ki values for PIB, FDDNP, and BSB of 1865, 335, and 600 nM, respectively. Finally, the Kd values for FDDNP and BSB binding to Abeta fibrils were directly determined by monitoring the increases in the ligand intrinsic fluorescence, which were 290 and 104 nM, respectively. The results from these assays indicate that (i) the three classes of thioflavin T binding sites are able to accommodate a wide range of chemotype structures, (ii) BSB binds to two sites on the Abeta fibrils, one of which is BS2, and the other is distinct from the thioflavin T derivative binding sites, and (iii) there is no independent binding site on the fibrils for FDDNP, and the ligand binds to both the BS1 and BS3 sites with significantly lower affinities than previously reported.

Published

2005

232. Neuropharmacology and drug development.

Author

Gee AD

Subjects

Drug Design, Humans, Radiopharmaceuticals, Brain drug effects, Brain metabolism, Neuropharmacology methods, Tomography, Emission-Computed

Abstract

Positron emission tomography (PET) and allied non-invasive imaging techniques are being increasingly embraced by the pharmaceutical industry. These imaging modalities allow the assessment of novel drug action in man at a very early stage of the drug's discovery and development process; in turn, this enables earlier decision making about the developmental potential of novel and potential therapeutics. The in vivo characterisation of novel molecular targets and disease mechanisms in man is intimately connected with future developments in the diagnosis, management and treatment of human disease. The utility of non-invasive imaging modalities within the pharmaceutical industry is discussed with particular reference to the use of PET in drug discovery and development in the 21st century.

Published

2003