James A. Bristol scite author profile

8-Cyclopentyl-1,3-dipropylxanthine (PD 116,948) is a very potent, very A1-selective adenosine antagonist, with a Ki of 0.46 nM in 3H-CHA binding to A1 receptors in rat whole brain membranes and 340 nM in 3H-NECA binding to A2 receptors in rat striatal membranes. Its 740-fold A1-selectivity is the highest reported for an adenosine antagonist. 3H-PD 116,948 (117 Ci/mmol) was prepared by reduction of the diallyl analog. 3H-PD 116,948 bound to a single site in rat whole brain membranes, with a Bmax of 46 pmol/g wet weight and Kd of 0.42 nM. Nonspecific binding was extremely low, amounting to about 3% of total binding under standard conditions and less than 1% when higher tissue concentrations were used. Affinities of compounds for inhibition of 3H-PD 116,948 binding were highly consistent with an A1 adenosine receptor. Antagonists were equally potent in 3H-PD 116,948 binding and in 3H-CHA binding, while agonists were consistently about 12-fold more potent in 3H-CHA binding. Hill coefficients were 1.0 for antagonists and about 0.65 for agonists. 3H-PD 116,948 should be a useful antagonist ligand for adenosine A1 receptors.

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A New Generation of Phosphodiesterase Inhibitors: Multiple Molecular Forms of Phosphodiesterase and the Potential for Drug Selectivity

Weishaar¹,

Cain²,

Bristol³

1985

J. Med. Chem.

258

137

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With several notable exceptions, interest in the area of multiple molecular forms of phosphodiesterase remained relatively dormant during the decade following Thompson's discovery of more than one phosphodiesterase in brain in 1971. Within the last several years, however, over 20 novel agents have been identified that exert selective inhibitory effects on the various molecular forms of phosphodiesterase present within different cells. In addition, several studies have documented that such agents can produce discrete changes in cyclic AMP and cyclic GMP, an action that is not shared by "first generation" phosphodiesterase inhibitors such as theophylline. The purpose of this Perspective is to provide some clarity to this rapidly evolving area of selective phosphodiesterase inhibitors. Thus, we have attempted to characterize the different forms of phosphodiesterase present in various tissues and cells according to their kinetic properties, substrate specificity, etc. and also to characterize those major classes of agents that have been shown to inhibit phosphodiesterase activity, whether selectively or nonselectively. In addition, we have described several therapeutic areas wherein selective phosphodiesterase inhibitors might prove efficacious, paying particular attention to those areas in which selective phosphodiesterase inhibitors have already been shown to exert beneficial effects, namely, stimulation of myocardial contractility, inhibition of mediator release, and inhibition of platelet aggregation. Although focusing on these three areas, it is obvious that the potential therapeutic utility of selective phosphodiesterase inhibitors could conceivably extend to several other areas in which modulation of cyclic nucleotides can have desirable effects, including cancer chemotherapy, analgesia, the treatment of depression, Parkinson's disease, and learning and memory disorders. For example, the selective type III phosphodiesterase inhibitor rolipram has been shown to antagonize reserpine-induced hypothermia and also to potentiate yohimbine lethality, two tests that are indicative of antidepressant activity. In addition, microinjection of the selective PDE III inhibitor Ro 20-1724 into the rat brain stem has been shown to produce analgesia.(ABSTRACT TRUNCATED AT 400 WORDS)

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PD 115,199: An antagonist ligand for adenosine A2 receptors

Bruns¹,

Fergus²,

Badger³

et al. 1987

Naunyn-Schmiedeberg's Arch Pharmacol

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PD 115,199, N-[2-(dimethylamino)ethyl]-N-methyl-4-(2,3,6,7-tetrahydro-2,6-dioxo-1,3- dipropyl-1H-purin-8-yl)benzenesulfonamide, was found to have high affinity for the A2 adenosine receptor labeled by 3H-NECA in rat striatal membranes (Ki 15.5 nM). Unlike other potent adenosine antagonists, which always showed some degree of selectivity for the A1 receptor, PD 115,199 had equal affinity at A1 and A2 receptors (Ki in 3H-CHA binding to A1 receptors 13.9 nM). 3H-PD 115,199 (126 Ci/mmol) was prepared by reduction of the diallyl analog, and binding experiments were performed with 0.5 nM 3H-PD 115,199 at 25 degrees C in rat striatal membranes. By nonlinear least-squares analysis of the concentration-inhibition curve for the highly A1-selective adenosine antagonist PD 116,948 (8-cyclopentyl-1,3-dipropylxanthine), it could be demonstrated that about 11% of specific 3H-PD 115,199 binding was to A1 receptors, and the remainder to A2 receptors. A 20 nM concentration of PD 116,948 was included in subsequent experiments to eliminate the A1 component of binding. The remaining binding had a Kd of 2.6 nM and Bmax of 56 pmol/g wet weight. Specific binding was about 79% of total binding. Affinities of compounds in the 3H-PD 115,199 assay were consistent with binding to a high-affinity A2 receptor: antagonists were consistently about three times more potent in 3H-PD 115,199 binding than in 3H-NECA binding, whereas agonists were consistently about fivefold less potent.(ABSTRACT TRUNCATED AT 250 WORDS)

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Cardiotonic agents. 1. 4,5-Dihydro-6-[4-(1H-imidazol-1-yl)phenyl]-3(2H)-pyridazinones: novel positive inotropic agents for the treatment of congestive heart failure

Bristol¹,

Sircar²,

Moos³

et al. 1984

J. Med. Chem.

160

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Adenosine receptors mediating cardiac depression

Evans¹,

Schenden²,

Bristol³

1982

Life Sciences

109

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James A. Bristol

Binding of the A1-selective adenosine antagonist 8-cyclopentyl-1,3-dipropylxanthine to rat brain membranes

A New Generation of Phosphodiesterase Inhibitors: Multiple Molecular Forms of Phosphodiesterase and the Potential for Drug Selectivity

PD 115,199: An antagonist ligand for adenosine A2 receptors

Cardiotonic agents. 1. 4,5-Dihydro-6-[4-(1H-imidazol-1-yl)phenyl]-3(2H)-pyridazinones: novel positive inotropic agents for the treatment of congestive heart failure

Adenosine receptors mediating cardiac depression

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