Agonist derived molecular probes for A2 adenosine receptors |
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Authors: | K A Jacobson L K Pannell X D Ji M F Jarvis M Williams A J Hutchison W W Barrington G L Stiles |
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Institution: | National Institute of Diabetes, and Digestive and Kidney Diseases, National Institutes of Health, Bethesda, MD 20892. |
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Abstract: | The adenosine agonist 2-(4-(2-carboxyethyl)phenylethylamino)-5'-N- ethylcarboxamidoadenos ine (CGS21680) was recently reported to be selective for the A2 adenosine receptor subtype, which mediates its hypotensive action. To investigate structure/activity relationships at a distal site, CGS21680 was derivatized using a functionalized congener approach. The carboxylic group of CGS21680 has been esterified to form a methyl ester, which was then treated with ethylenediamine to produce an amine congener. The amine congener was an intermediate for acylation reactions, in which the reactive acyl species contained a reported group, or the precursor for such. For radioiodination, derivatives of p-hydroxyphenylpropionic, 2-thiophenylacetic, and p-aminophenylacetic acids were prepared. The latter derivative (PAPA-APEC) was iodinated electrophilically using 125I]iodide resulting in a radioligand which was used for studies of competition of binding to striatal A2 adenosine receptors in bovine brain. A biotin conjugate and an aryl sulfonate were at least 350-fold selective for A2 receptors. For spectroscopic detection, a derivative of the stable free radical tetramethyl-1-piperidinyloxy (TEMPO) was prepared. For irreversible inhibition of receptors, meta- and para-phenylenediisothiocyanate groups were incorporated in the analogs. We have demonstrated that binding at A2 receptors is relatively insensitive to distal structural changes at the 2-position, and we report high affinity molecular probes for receptor characterization by radioactive, spectroscopic and affinity labelling methodology. |
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