Tracey Boyden scite author profile

Delivery of drug therapeutics across the blood–brain barrier is a challenging task for pharmaceutical scientists. Nasal-to-CNS drug delivery has shown promising results in preclinical efficacy models and investigatory human clinical trials. The further development of this technology with respect to the establishment of valid, predictable preclinical species models, translatable pharmacokinetic–pharmacodynamic relationships and definition of toxicology impact will help attract additional pharmaceutical investment in this drug-delivery approach. Further discoveries in nasal nanotechnology, targeted delivery devices and diagnostic olfactory imaging will serve to fuel the advancements in this area of drug delivery.

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Application of Structure-Based Design and Parallel Chemistry to Identify a Potent, Selective, and Brain Penetrant Phosphodiesterase 2A Inhibitor

Helal

Arnold

Boyden

et al. 2017

J. Med. Chem.

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Phosphodiesterase 2A (PDE2A) inhibitors have been reported to demonstrate in vivo activity in preclinical models of cognition. To more fully explore the biology of PDE2A inhibition, we sought to identify potent PDE2A inhibitors with improved brain penetration as compared to current literature compounds. Applying estimated human dose calculations while simultaneously leveraging synthetically enabled chemistry and structure-based drug design has resulted in a highly potent, selective, brain penetrant compound 71 (PF-05085727) that effects in vivo biochemical changes commensurate with PDE2A inhibition along with behavioral and electrophysiological reversal of the effects of NMDA antagonists in rodents. This data supports the ability of PDE2A inhibitors to potentiate NMDA signaling and their further development for clinical cognition indications.

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Current Advances in Delivery of Biotherapeutics Across the Blood-Brain Barrier

Rajadhyaksha¹,

Boyden²,

Liras³

et al. 2011

CDDT

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Significant efforts through genomic approaches have been dedicated toward the identification of novel protein-protein interactions as promising therapeutic targets for indications such as Alzheimer's disease, Parkinson's disease and neuropsychiatric disorders. Additionally, the number of biotherapeutic agents entering the Pharmaceutical sector continues to increase and according to EvaluatePharma's "World Preview 2014" report, "the compounded annual growth rate of biologics is expected to be 8.5 percent from 2008-2014, eight to 10 times greater than the growth rate of small molecules". However, there are limited examples of success in developing biotherapeutic modalities for central nervous system (CNS) diseases in the drug development pipeline. A primary reason for the lack of application of biotherapeutics to neuroscience targets, is that the blood-brain barrier (BBB) isolates and protects CNS structures creating a unique biochemically and immunologically privileged environment, therefore passage of macromolecules across this barrier has additional challenges. An understanding of the anatomical and physiological properties of this barrier with respect to penetration of biotherapeutics is presented in this review document. In this summary, recent advances in biotherapeutic delivery mechanisms across the BBB including transcranial brain drug delivery, focused ultrasound technology, nasal delivery, absorptive endocytosis, and receptor mediated endocytosis are evaluated using an industrial perspective. With acknowledgement that each approach has advantages and disadvantages, this review discusses the opportunities and challenges that are encountered during application of these methods across a variety of therapeutic areas such as, pain, obesity, neuroscience, and oncology. Utilizing an industrial perspective, including consideration of cost of goods and commercial feasibility for these approaches, this review highlights technology features which would enable industry investments toward novel BBB delivery technologies for biologics. Through continued development and improvement of such technology, new therapeutic options to treat and potentially cure central nervous system diseases could eventually evolve.

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Preclinical Evaluation of ¹⁸F-PF-05270430, a Novel PET Radioligand for the Phosphodiesterase 2A Enzyme

et al. 2016

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The enzyme phosphodiesterase 2A (PF-05270430) is a potential target for development of novel therapeutic agents for the treatment of cognitive impairments. The goal of the present study was to evaluate the PDE2A ligand 18 F-PF-05270430, 4-(3-fluoroazetidin- ,2,4]triazine, in nonhuman primates. Methods: 18 F-PF-05270430 was radiolabeled by 2 methods via nucleophilic substitution of its tosylate precursor. Tissue metabolite analysis in rodents and PET imaging in nonhuman primates under baseline and blocking conditions were performed to determine the pharmacokinetic and binding characteristics of the new radioligand. Various kinetic modeling approaches were assessed to select the optimal method for analysis of imaging data. Results: 18 F-PF-05270430 was synthesized in greater than 98% radiochemical purity and high specific activity. In the nonhuman primate brain, uptake of 18 F-PF-05270430 was fast, with peak concentration (SUVs of 1.5-1.8 in rhesus monkeys) achieved within 7 min after injection. The rank order of uptake was striatum . neocortical regions . cerebellum. Regional time-activity curves were well fitted by the 2-tissuecompartment model and the multilinear analysis-1 (MA1) method to arrive at reliable estimates of regional distribution volume (V T ) and binding potential (BP ND ) with 120 min of scan data. Regional V T values (MA1) ranged from 1.28 mL/cm 3 in the cerebellum to 3.71 mL/cm 3 in the putamen, with a BP ND of 0.25 in the temporal cortex and 1.92 in the putamen. Regional BP ND values estimated by the simplified reference tissue model (SRTM) were similar to those from MA1. Test-retest variability in high-binding regions (striatum) was 4% ± 6% for MA1 V T , 13% ± 6% for MA1 BP ND , and 13% ± 7% SRTM BP ND , respectively. Pretreatment of animals with the PDE2A inhibitor PF-05180999 resulted in a dose-dependent reduction of 18 F-PF-05270430 specific binding, with a half maximal effective concentration of 69.4 ng/mL in plasma PF-05180999 concentration. Conclusion: 18 F-PF-05270430 displayed fast and reversible kinetics in nonhuman primates, as well as specific binding blockable by a PDE2A inhibitor. This is the first PET tracer with desirable imaging properties and demonstrated ability to image and quantify PDE2A in vivo.

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Tracey Boyden

Discovery of PF-04449913, a Potent and Orally Bioavailable Inhibitor of Smoothened

Nasal-to-CNS Drug Delivery: Where are We Now and Where are We heading? an Industrial Perspective

Application of Structure-Based Design and Parallel Chemistry to Identify a Potent, Selective, and Brain Penetrant Phosphodiesterase 2A Inhibitor

Current Advances in Delivery of Biotherapeutics Across the Blood-Brain Barrier

Preclinical Evaluation of ¹⁸F-PF-05270430, a Novel PET Radioligand for the Phosphodiesterase 2A Enzyme

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Tracey Boyden

Discovery of PF-04449913, a Potent and Orally Bioavailable Inhibitor of Smoothened

Nasal-to-CNS Drug Delivery: Where are We Now and Where are We heading? an Industrial Perspective

Application of Structure-Based Design and Parallel Chemistry to Identify a Potent, Selective, and Brain Penetrant Phosphodiesterase 2A Inhibitor

Current Advances in Delivery of Biotherapeutics Across the Blood-Brain Barrier

Preclinical Evaluation of 18F-PF-05270430, a Novel PET Radioligand for the Phosphodiesterase 2A Enzyme

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Product

Resources

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Preclinical Evaluation of ¹⁸F-PF-05270430, a Novel PET Radioligand for the Phosphodiesterase 2A Enzyme