Your search keyword '"Bailey, Justin J."' showing total 8 results

1. Efficient radiosynthesis and preclinical evaluation of [18F]FOMPyD as a positron emission tomography tracer candidate for TrkB/C receptor imaging.

Author

Singleton, Thomas A., Bdair, Hussein, Bailey, Justin J., Choi, Sangho, Aliaga, Arturo, Rosa‐Neto, Pedro, Schirrmacher, Ralf, Bernard‐Gauthier, Vadim, and Kostikov, Alexey

Subjects

AUTORADIOGRAPHY, POSITRON emission tomography, RADIOCHEMICAL purification, BORONIC acids, BRAIN imaging

Abstract

Herein we report an efficient radiolabeling of a 18F‐fluorinated derivative of dual inhibitor GW2580, with its subsequent evaluation as a positron emission tomography (PET) tracer candidate for imaging of two neuroreceptor targets implicated in the pathophysiology of neurodegeneration: tropomyosin receptor kinases (TrkB/C) and colony stimulating factor receptor (CSF‐1R). [18F]FOMPyD was synthesized from a boronic acid pinacolate precursor via copper‐mediated 18F‐fluorination concerted with thermal deprotection of the four Boc groups on a diaminopyrimidine moiety in an 8.7±2.8% radiochemical yield, a radiochemical purity >99%, and an effective molar activity of 187±93 GBq/μmol. [18F]FOMPyD showed moderate brain permeability in wild‐type rats (SUVmax = 0.75) and a slow washout rate. The brain uptake was partially reduced (ΔAUC40–90 = 11.6%) by administration of the nonradioactive FOMPyD (up to 30 μg/kg). In autoradiography, [18F]FOMPyD exhibits ubiquitous distribution in rat and human brain tissues with relatively high nonspecific binding revealed by self‐blocking experiment. The binding was blocked by TrkB/C inhibitors, but not with a CSF‐1R inhibitor, suggesting selective binding to the former receptor. Although an unfavorable pharmacokinetic profile will likely preclude application of [18F]FOMPyD as a PET tracer for brain imaging, the concomitant one‐pot copper‐mediated 18F‐fluorination/Boc‐deprotection is a practical technique for the automated radiosynthesis of acid‐sensitive PET tracers. [ABSTRACT FROM AUTHOR]

Published

2020

2. Automated synthesis of PET radiotracers by copper‐mediated 18F‐fluorination of organoborons: Importance of the order of addition and competing protodeborylation.

Author

Mossine, Andrew V., Brooks, Allen F., Bernard‐Gauthier, Vadim, Bailey, Justin J., Ichiishi, Naoko, Schirrmacher, Ralf, Sanford, Melanie S., and Scott, Peter J. H.

Subjects

POSITRON emission tomography, RADIOPHARMACEUTICALS, CHEMICAL synthesis, RADIOACTIVE tracers, DRUG development

Abstract

In this paper, we describe the use of Cu‐mediated [18F]fluorodeboronation for the automated production of positron emission tomography radiotracers suitable for clinical use. Two recurrent issues with the method, low radiochemical conversion on automation and protoarene byproduct purification issues, have been successfully addressed. The new method was utilized to produce sterile injectable doses of [18F]‐(±)‐IPMICF17, a positron emission tomography radiotracer for tropomyosin receptor kinase B/C, using an automated synthesis module. The product was isolated in 1.9 ± 0.1% isolated radiochemical yield, excellent radiochemical purity (>99%), and high specific activity (5294 ± 1227 Ci/mmol). Quality control testing confirmed that doses were suitable for clinical use. [ABSTRACT FROM AUTHOR]

Published

2018

3. Targeting Prostate-Specific Membrane Antigen (PSMA) with F-18-Labeled Compounds: the Influence of Prosthetic Groups on Tumor Uptake and Clearance Profile.

Author

Bouvet, Vincent, Wuest, Melinda, Bailey, Justin, Bergman, Cody, Janzen, Nancy, Valliant, John, Wuest, Frank, Bailey, Justin J, and Valliant, John F

Subjects

DIAGNOSIS, PROSTATE cancer, PROSTATE-specific membrane antigen, POSITRON emission tomography, FLUORODEOXYGLUCOSE F18, BIOMARKERS, RADIOACTIVE tracers, ANIMAL experimentation, CELL lines, FLUORINE isotopes, MICE, PROSTATE tumors, RADIOISOTOPES, TIME

Abstract

Purpose: Prostate-specific membrane antigen (PSMA) is an important biomarker expressed in the majority of prostate cancers. The favorable positron emission tomography (PET) imaging profile of the PSMA imaging agent 2-(3-(1-carboxy-5-[(6-[18F]fluoro-pyridine-3-carbonyl)-amino]-pentyl)-ureido)-pentane-dioic acid [18F]DCFPyL in preclinical prostate cancer models and in prostate cancer patients stimulated the development and validation of other fluorine-containing PSMA inhibitors to further enhance pharmacokinetics and simplify production methods. Here, we describe the synthesis and radiopharmacological evaluation of various F-18-labeled PSMA inhibitors which were prepared through different prosthetic group chemistry strategies.Procedures: Prosthetic groups N-succinimidyl-4-[18F]fluorobenzoate ([18F]SFB), 4-[18F]fluorobenzaldehyde, and 2-deoxy-2-[18F]fluoro-D-glucose ([18F]FDG) were used for bioconjugation reactions to PSMA-binding lysine-urea-glutamate scaffold via acylation and oxime formation. All fluorine-containing PSMA inhibitors were tested for their PSMA inhibitory potency in an in vitro competitive binding assay in comparison to an established reference compound [125I]TAAG-PSMA. Tumor uptake and clearance profiles of three F-18-labeled PSMA inhibitors ([18F]4, [18F]7, and [18F]8) were studied with dynamic PET imaging using LNCaP tumor-bearing mice.Results: F-18-labeled PSMA inhibitors were synthesized in 32-69 % radiochemical yields using (1) acylation reaction at the primary amino group of the lysine residue with [18F]SFB and (2) oxime formation with 4-[18F]fluorobenzaldehyde and [18F]FDG using the respective aminooxy-functionalized lysine residue. Compound 7 displayed an IC50 value of 6 nM reflecting very high affinity for PSMA. Compounds 4 and 8 showed IC50 values of 13 and 62 nM, respectively. The IC50 value of reference compound DCFPyL was 13 nM. Dynamic PET imaging revealed the following SUV60min for radiotracer uptake in PSMA(+) LNCaP tumors: 0.98 ([18F]DCFPyL), 2.11 ([18F]7), 0.40 ([18F]4), and 0.19 ([18F]8).Conclusion: The observed tumor uptake and clearance profiles demonstrate the importance of the selected prosthetic group on the pharmacokinetic profile of analyzed PSMA-targeting radiotracers. Radiotracer [18F]7 displayed the highest uptake and retention in LNCaP tumors, which exceeded uptake values of reference compound [18F]DCFPyL by more than 100 %. Despite the higher kidney and liver uptake and retention of compound [18F]7, the simple radiosynthesis and the exceptionally high tumor uptake (SUV60min 2.11) and retention make radiotracer [18F]7 an interesting alternative to radiotracer [18F]DCFPyL for PET imaging of PSMA in prostate cancer. [ABSTRACT FROM AUTHOR]

Published

2017

4. A Kinome-Wide Selective Radiolabeled TrkB/C Inhibitor for in Vitro and in Vivo Neuroimaging: Synthesis, Preclinical Evaluation, and First-in-Human.

Author

Bernard-Gauthier, Vadim, Bailey, Justin J., Mossine, Andrew V., Lindner, Simon, Vomacka, Lena, Aliaga, Arturo, Xia Shao, Quesada, Carole A., Sherman, Phillip, Mahringer, Anne, Kostikov, Alexey, Grand'Maison, Marilyn, Rosa-Neto, Pedro, Soucy, Jean-Paul, Thiel, Alexander, Kaplan, David R., Fricker, Gert, Wangler, Bjorn, Bartenstein, Peter, and Schirrmacher, Ralf

Subjects

*TROPOMYOSINS, *PROTO-oncogenes, *NEUROBIOLOGY, *BRAIN imaging, *POSITRON emission tomography, *KINASE inhibitors

Abstract

The proto-oncogenes NTRK1/2/3 encode the tropomyosin receptor kinases TrkA/B/C which play pivotal roles in neurobiology and cancer. We describe herein the discovery of [11C]-(R)-3 ([11C]-(R)-IPMICF16), a first-in-class positron emission tomography (PET) TrkB/C-targeting radiolabeled kinase inhibitor lead. Relying on extensive human kinome vetting, we show that (R)-3 is the most potent and most selective TrkB/C inhibitor characterized to date. It is demonstrated that [11C]-(R)-3 readily crosses the blood-brain barrier (BBB) in rodents and selectively binds to TrkB/C receptors in vivo, as evidenced by entrectinib blocking studies. Substantial TrkB/C-specific binding in human brain tissue is observed in vitro, with specific reduction in the hippocampus of Alzheimer's disease (AD) versus healthy brains. We additionally provide preliminary translational data regarding the brain disposition of [11C]-(R)-3 in primates including first-in-human assessment. These results illustrate for the first time the use of a kinome-wide selective radioactive chemical probe for endogenous kinase PET neuroimaging in human. [ABSTRACT FROM AUTHOR]

Published

2017

5. Recent Advances in the Development and Application of Radiolabeled Kinase Inhibitors for PET Imaging.

Author

Bernard-Gauthier, Vadim, Bailey, Justin J., Berke, Sheldon, and Schirrmacher, Ralf

Subjects

*KINASE inhibitors, *NILOTINIB, *RADIOLABELED MIBG (Chemical), *ENZYME inhibitors, *CANCER treatment

Abstract

Over the last 20 years, intensive investigation and multiple clinical successes targeting protein kinases, mostly for cancer treatment, have identified small molecule kinase inhibitors as a prominent therapeutic class. In the course of those investigations, radiolabeled kinase inhibitors for positron emission tomography (PET) imaging have been synthesized and evaluated as diagnostic imaging probes for cancer characterization. Given that inhibitor coverage of the kinome is continuously expanding, in vivo PET imaging will likely find increasing applications for therapy monitoring and receptor density studies both in- and outside of oncological conditions. Early investigated radiolabeled inhibitors, which are mostly based on clinically approved tyrosine kinase inhibitor (TKI) isotopologues, have now entered clinical trials. Novel radioligands for cancer and PET neuroimaging originating from novel but relevant target kinases are currently being explored in preclinical studies. This article reviews the literature involving radiotracer design, radiochemistry approaches, biological tracer evaluation and nuclear imaging results of radiolabeled kinase inhibitors for PET reported between 2010 and mid-2015. Aspects regarding the usefulness of pursuing selective vs. promiscuous inhibitor scaffolds and the inherent challenges associated with intracellular enzyme imaging will be discussed. [ABSTRACT FROM AUTHOR]

Published

2015

6. Recent Advances in the Clinical Translation of Silicon Fluoride Acceptor (SiFA) 18 F-Radiopharmaceuticals.

Author

Gower-Fry, Lexi, Kronemann, Travis, Dorian, Andreas, Pu, Yinglan, Jaworski, Carolin, Wängler, Carmen, Bartenstein, Peter, Beyer, Leonie, Lindner, Simon, Jurkschat, Klaus, Wängler, Björn, Bailey, Justin J., and Schirrmacher, Ralf

Subjects

RADIOACTIVE tracers, SMALL molecules, SILICON, POSITRON emission tomography, FLUORIDES

Abstract

The incorporation of silicon fluoride acceptor (SiFA) moieties into a variety of molecules, such as peptides, proteins and biologically relevant small molecules, has improved the generation of 18F-radiopharmaceuticals for medical imaging. The efficient isotopic exchange radiofluorination process, in combination with the enhanced [18F]SiFA in vivo stability, make it a suitable strategy for fluorine-18 incorporation. This review will highlight the clinical applicability of [18F]SiFA-labeled compounds and discuss the significant radiotracers currently in clinical use. [ABSTRACT FROM AUTHOR]

Published

2021

7. Radioligands for Tropomyosin Receptor Kinase (Trk) Positron Emission Tomography Imaging.

Author

Schirrmacher, Ralf, Bailey, Justin J., Mossine, Andrew V., Scott, Peter J. H., Kaiser, Lena, Bartenstein, Peter, Lindner, Simon, Kaplan, David R., Kostikov, Alexey, Fricker, Gert, Mahringer, Anne, Rosa-Neto, Pedro, Schirrmacher, Esther, Wängler, Carmen, Wängler, Björn, Thiel, Alexander, Soucy, Jean-Paul, and Bernard-Gauthier, Vadim

Subjects

*POSITRON emission tomography, *TROPOMYOSINS, *ALZHEIMER'S disease, *PHARMACEUTICAL chemistry, *NEUROLOGICAL disorders, *TRANSLOCATOR proteins, *SMALL molecules

Abstract

The tropomyosin receptor kinases family (TrkA, TrkB, and TrkC) supports neuronal growth, survival, and differentiation during development, adult life, and aging. TrkA/B/C downregulation is a prominent hallmark of various neurological disorders including Alzheimer's disease (AD). Abnormally expressed or overexpressed full-length or oncogenic fusion TrkA/B/C proteins were shown to drive tumorigenesis in a variety of neurogenic and non-neurogenic human cancers and are currently the focus of intensive clinical research. Neurologic and oncologic studies of the spatiotemporal alterations in TrkA/B/C expression and density and the determination of target engagement of emerging antineoplastic clinical inhibitors in normal and diseased tissue are crucially needed but have remained largely unexplored due to the lack of suitable non-invasive probes. Here, we review the recent development of carbon-11- and fluorine-18-labeled positron emission tomography (PET) radioligands based on specifically designed small molecule kinase catalytic domain-binding inhibitors of TrkA/B/C. Basic developments in medicinal chemistry, radiolabeling and translational PET imaging in multiple species including humans are highlighted. [ABSTRACT FROM AUTHOR]

Published

2019

8. Identification of [18F]TRACK, a Fluorine-18-Labeled Tropomyosin Receptor Kinase (Trk) Inhibitor for PET Imaging.

Author

Bernard-Gauthier, Vadim, Mossine, Andrew V., Mahringer, Anne, Aliaga, Arturo, Bailey, Justin J., Xia Shao, Stauff, Jenelle, Arteaga, Janna, Sherman, Phillip, Grand'maison, Marilyn, Rochon, Pierre-Luc, Wängler, Björn, Wängler, Carmen, Bartenstein, Peter, Kostikov, Alexey, Kaplan, David R., Fricker, Gert, Rosa-Neto, Pedro, Scott, Peter J. H., and Schirrmacher, Ralf

Subjects

*TROPOMYOSINS, *KINASES, *ENZYME inhibitors, *POSITRON emission tomography, *NEUROLOGICAL disorders

Abstract

Changes in expression and dysfunctional signaling of TrkA/B/C receptors and oncogenic Trk fusion proteins are found in neurological diseases and cancers. Here, we describe the development of a first 18F-labeled optimized lead suitable for in vivo imaging of Trk, [18F]TRACK, which is radiosynthesized with ease from a nonactivated aryl precursor concurrently combining largely reduced P-gp liability and improved brain kinetics compared to previous leads while displaying high on-target affinity and human kinome selectivity. [ABSTRACT FROM AUTHOR]

Published

2018