Journal ArticleDOI
Solubilities of adenosine antagonists determined by radioreceptor assay.
R F Bruns,J H Fergus +1 more
TLDR
From literature data on functional activity, it is apparent that useful adenosine antagonist activity in‐vivo is only seen in compounds with solubility/affinity ratios greater than 100.Abstract:
The practical use of many adenosine receptor antagonists is limited by poor aqueous solubility. In some cases, solubilities are so low that they are difficult to measure by conventional means. To determine solubilities of adenosine antagonists, a sensitive radioreceptor method has been developed. Solubilities in Tris buffer (pH 7.7) ranged from 141 nM for 8-(2-amino-4-chlorophenyl)-1,3-dipropylxanthine to 945 microM for the amino-substituted xanthine PD 113,297. Ratios between solubility and adenosine receptor affinity varied from 15.8 for the A2-selective antagonist HTQZ to 169,000 for PD 113,297. From literature data on functional activity, it is apparent that useful adenosine antagonist activity in-vivo is only seen in compounds with solubility/affinity ratios greater than 100.read more
Citations
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Journal ArticleDOI
Adenosine A1 and A2 receptors: Structure–function relationships
TL;DR: This review will focus on the strueture of adenosine receptor ligands, and on the structural information contained in the deduced amino acid sequences of the recently cloned adenoine receptor cDNAs.
Journal ArticleDOI
Adenosine receptors and their modulators.
Christa E. Müller,Thomas Scior +1 more
TL;DR: The present article focusses on aspects of pharmaceutical/medicinal chemistry related to adenosine receptor system and the discovery and development of new agonists and antagonists.
Book ChapterDOI
Xanthines as Adenosine Receptor Antagonists
TL;DR: Very potent antagonists have been developed with selectivity for each of the four AR subtypes with micromolar affinities and are non-selective.
Journal ArticleDOI
A1-Adenosine receptor antagonists
TL;DR: The problem of low water solubility found with these groups of compounds has been addressed with the introduction of hydrophilic groups in positions tolerated by the receptor.
Journal ArticleDOI
Adenosine receptors. Roles and pharmacology.
TL;DR: This article will attempt to answer three questions that are central to adenosine research that are also relevant to the extracellular actions of ATP, and in fact analogous questions can be framed for ATP.
References
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Book
Substituent constants for correlation analysis in chemistry and biology
Corwin Hansch,Albert J. Leo +1 more
TL;DR: In this paper, the book is the window to get in the world and you can open the world easily, and these wise words are really familiar with you, so bring home now the book enPDFd substituent constants for correlation analysis in chemistry and biology to be your sources when going to read.
Journal Article
Characterization of the A2 adenosine receptor labeled by [^3H]NECA in rat striatal membranes
R F Bruns,G. H. Lu,T A Pugsley +2 more
TL;DR: The regional distribution of [3H]NECA binding and the affinities of adenosine agonists and antagonists for inhibition of binding indicate that the site labeled by [3NECA belongs to the high affinity, or A2a, subclass of A2 receptor.
Journal Article
The Effect of Adenosine and Adenine Nucleotides on the Cyclic Adenosine 3',5'-Phosphate Content of Guinea Pig Cerebral Cortex Slices
Albert Sattin,T. W. Rall +1 more
TL;DR: Changes in the tissue compartmentation of adenine nucleotides probably play a major role in producing the previously observed increase of cyclic adenosine 39,59-phosphate during electrical stimulation of slices.
Journal ArticleDOI
Adenosine and the concept of ‘retaliatory metabolites’
TL;DR: Adenosine can modulate a bewildering array of physiological processes including vascular tone, hormone action, neural function, platelet aggregation and lymphocyte differentiation, and its unique mechanism of formation suggests instead that adenosine is a new type of cellular regulator.
Journal ArticleDOI
Binding of the A1-selective adenosine antagonist 8-cyclopentyl-1,3-dipropylxanthine to rat brain membranes.
Robert F. Bruns,James H. Fergus,Edward W. Badger,J. A. Bristol,Lisa A. Santay,Jon D. Hartman,Sheryl J. Hays,Che C. Huang +7 more
TL;DR: 8-Cyclopentyl-1,3-dipropylxanthine (PD 116,948) is a very potent, very A1-selective adenosine antagonist, with a Ki of 0.46 nM involved in 3H-CHA binding to A1 receptors in rat whole brain membranes and 340 nM in3H-NECA binding in rat striatal membranes.
Related Papers (5)
Characterization of the A2 adenosine receptor labeled by [^3H]NECA in rat striatal membranes
R F Bruns,G. H. Lu,T A Pugsley +2 more