Kevin M. Ruley scite author profile

Objectives:This is a first-inhuman study of the PET radiotracer 11 C-LSN3172176 for the muscarinic acetylcholine receptor subtype 1 (M1). The objectives of this study were to determine the appropriate kinetic model to quantify the tracer's binding to M1 receptors, and the reliability of the chosen quantification method. Methods: Six healthy subjects completed the test-retest protocol and five healthy subjects completed the baseline-scopolamine blocking protocol. Multiple modeling methods were applied to calculate volume of distribution (V T) and binding potentials (BP ND) in various brain regions. The reference region was selected from the blocking study. The occupancy plot was applied to compute receptor occupancy by scopolamine and nondisplaceable distribution volume (V ND). Results:Tracer uptake was highest in the striatum, followed by neocortical regions and white matter, and lowest in the cerebellum. Regional time-activity curves were fitted well by all models. The two-tissue compartment (2TC) model fits were good, but the 2TC parameters often could not be reliably estimated. There was an excellent correlation of V T between 2TC and one-tissue compartment (1TC) models after excluding unreliable estimates, so the 1TC model was chosen as the most appropriate. The cerebellum showed the lowest V T , consistent with preclinical studies showing little to no specific binding in the region. Further, cerebellar V T did not change between baseline and blocking scans, indicating that the cerebellum is a suitable reference region. The simplified reference tissue model (SRTM) slightly underestimated 1TC BP ND and SRTM2 improved BP ND estimation. An 80-min scan duration was sufficient to quantify V T and BP ND. The test-retest study showed excellent absolute test-retest variability for 1TC V T (≤5%) and BP ND (≤10%). In the baseline and blocking study, the striatum displayed lower occupancy values than non-striatal regions, which may be attributed to differences in regional acetylcholine concentrations. Conclusion:The 1TC and SRTM2 models are appropriate methods for quantitative analysis of 11 C-LSN3172176 imaging data. 11 C-LSN3172176 displayed excellent test-retest reproducibility and is a highly promising ligand to quantify M1 receptors in the human brain.

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PET ligands [ ¹⁸ F]LSN3316612 and [ ¹¹ C]LSN3316612 quantify O -linked-β- N -acetyl-glucosamine hydrolase in the brain

Haskali

Ruley

et al. 2020

Sci. Transl. Med.

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We aimed to develop effective radioligands for quantifying brain O-linked-β-N-acetyl-glucosamine (O-GlcNAc) hydrolase (OGA) using positron emission tomography in living subjects as tools for evaluating drug target engagement. Posttranslational modifications of tau, a biomarker of Alzheimer’s disease, by O-GlcNAc through the enzyme pair OGA and O-GlcNAc transferase (OGT) are inversely related to the amounts of its insoluble hyperphosphorylated form. Increase in tau O-GlcNAcylation by OGA inhibition is believed to reduce tau aggregation. LSN3316612, a highly selective and potent OGA ligand [half-maximal inhibitory concentration (IC50) = 1.9 nM], emerged as a lead ligand after in silico analysis and in vitro evaluations. [3H]LSN3316612 imaged and quantified OGA in postmortem brains of rat, monkey, and human. The presence of fluorine and carbonyl functionality in LSN3316612 enabled labeling with positron-emitting fluorine-18 or carbon-11. Both [18F]LSN3316612 and [11C]LSN3316612 bound reversibly to OGA in vivo, and such binding was blocked by pharmacological doses of thiamet G, an OGA inhibitor of different chemotype, in monkeys. [18F]LSN3316612 entered healthy human brain avidly (~4 SUV) without radiodefluorination or adverse effect from other radiometabolites, as evidenced by stable brain total volume of distribution (VT) values by 110 min of scanning. Overall, [18F]LSN3316612 is preferred over [11C]LSN3316612 for future human studies, whereas either may be an effective positron emission tomography radioligand for quantifying brain OGA in rodent and monkey.

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Radiolabeling of a high potency cannabinoid subtype‐1 receptor ligand, N‐(4‐fluoro‐benzyl)‐4‐(3‐(piperidin‐1‐yl)‐indole‐1‐sulfonyl)benzamide (PipISB), with carbon‐11 or fluorine‐18

Donohue

Halldin

Schou

et al. 2008

Labelled Comp Radiopharmac

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PipISB [N‐(4‐fluoro‐benzyl)‐4‐(3‐(piperidin‐1‐yl)‐indole‐1‐sulfonyl)benzamide, 9] was identified as a selective high potency CB1 receptor ligand. Here we describe the labeling of 9 with positron‐emitters to provide candidate radioligands for imaging brain CB1 receptors with positron emission tomography (PET). The radiolabeling of 9 was achieved by two methods, method A with carbon‐11 and method B with fluorine‐18. In method A, [11C]9 was prepared in one step from [11C]carbon monoxide, itself prepared from cyclotron‐produced [11C]carbon dioxide. In method B, [18F]9 was prepared from cyclotron‐produced [18F]fluoride ion in a two‐stage, four‐step synthesis with [18F]4‐fluoro‐benzyl bromide as a labeling agent. The radiosynthesis time for method A was 44 min; decay‐corrected radiochemical yields (RCYs) from [11C]carbon monoxide ranged from 3.1 to 11.6% and specific radioactivities ranged from 21 to 67 GBq/µmol. The radiosynthesis time for method B was 115 min; RCYs from [18F]fluoride ion ranged from 1.5 to 5.6% and specific radioactivities ranged from 200 to 348 GBq/µmol. With these methods, [11C]9 and [18F]9 may be prepared in adequate activity and quality for future evaluation as PET radioligands. Copyright © 2008 John Wiley & Sons, Ltd.

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Methods to determine biotin-binding capacity of streptavidin-coated magnetic particles

Dorgan¹,

Magnotti²,

Hou³

et al. 1999

Journal of Magnetism and Magnetic Materials

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Selective Phosphodiesterase 1 Inhibitor BTTQ Reduces Blood Pressure in Spontaneously Hypertensive and Dahl Salt Sensitive Rats: Role of Peripheral Vasodilation

et al. 2020

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Regulation of the peripheral vascular resistance via modulating the vessel diameter has been considered as a main determinant of the arterial blood pressure. Phosphodiesterase enzymes (PDE1-11) hydrolyse cyclic nucleotides, which are key players controlling the vessel diameter and, thus, peripheral resistance. Here, we have tested and reported the effects of a novel selective PDE1 inhibitor (BTTQ) on the cardiovascular system. Normal Sprague Dawley, spontaneously hypertensive (SHR), and Dahl salt-sensitive rats were used to test in vivo the efficacy of the compound. Phosphodiesterase radiometric enzyme assay revealed that BTTQ inhibited all three isoforms of PDE1 in nanomolar concentration, while micromolar concentrations were needed to induce effective inhibition for other PDEs. The myography study conducted on mesenteric arteries revealed a potent vasodilatory effect of the drug, which was confirmed in vivo by an increase in the blood flow in the rat ear arteriols reflected by the rise in the temperature. Furthermore, BTTQ proved a high efficacy in lowering the blood pressure about 9, 36, and 24 mmHg in normal Sprague Dawley, SHR and, Dahl salt-sensitive rats, respectively, compared to the vehicle-treated group. Moreover, additional blood pressure lowering of about 22 mmHg could be achieved when BTTQ was administered on top of ACE inhibitor lisinopril, a current standard of care in the treatment of hypertension. Therefore, PDE1 inhibition induced efficient vasodilation that was accompanied by a significant reduction of blood pressure in different hypertensive rat models. Administration of BTTQ was also associated with increased heart rate in both models of hypertension as well as in the normotensive rats. Thus, PDE1 appears to be an attractive therapeutic target for the treatment of resistant hypertension, while tachycardia needs to be addressed by further compound structural optimization.

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Kevin M. Ruley

First-in-Human Assessment of ¹¹C-LSN3172176, an M1 Muscarinic Acetylcholine Receptor PET Radiotracer

PET ligands [ ¹⁸ F]LSN3316612 and [ ¹¹ C]LSN3316612 quantify O -linked-β- N -acetyl-glucosamine hydrolase in the brain

Radiolabeling of a high potency cannabinoid subtype‐1 receptor ligand, N‐(4‐fluoro‐benzyl)‐4‐(3‐(piperidin‐1‐yl)‐indole‐1‐sulfonyl)benzamide (PipISB), with carbon‐11 or fluorine‐18

Methods to determine biotin-binding capacity of streptavidin-coated magnetic particles

Selective Phosphodiesterase 1 Inhibitor BTTQ Reduces Blood Pressure in Spontaneously Hypertensive and Dahl Salt Sensitive Rats: Role of Peripheral Vasodilation

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Kevin M. Ruley

First-in-Human Assessment of 11C-LSN3172176, an M1 Muscarinic Acetylcholine Receptor PET Radiotracer

PET ligands [ 18 F]LSN3316612 and [ 11 C]LSN3316612 quantify O -linked-β- N -acetyl-glucosamine hydrolase in the brain

Radiolabeling of a high potency cannabinoid subtype‐1 receptor ligand, N‐(4‐fluoro‐benzyl)‐4‐(3‐(piperidin‐1‐yl)‐indole‐1‐sulfonyl)benzamide (PipISB), with carbon‐11 or fluorine‐18

Methods to determine biotin-binding capacity of streptavidin-coated magnetic particles

Selective Phosphodiesterase 1 Inhibitor BTTQ Reduces Blood Pressure in Spontaneously Hypertensive and Dahl Salt Sensitive Rats: Role of Peripheral Vasodilation

Contact Info

Product

Resources

About

First-in-Human Assessment of ¹¹C-LSN3172176, an M1 Muscarinic Acetylcholine Receptor PET Radiotracer

PET ligands [ ¹⁸ F]LSN3316612 and [ ¹¹ C]LSN3316612 quantify O -linked-β- N -acetyl-glucosamine hydrolase in the brain