A BINDING-SITE MODEL AND STRUCTURE-ACTIVITY-RELATIONSHIPS FOR THE RAT A(3)-ADENOSINE RECEPTOR

被引:0
|
作者
VANGALEN, PJM
VANBERGEN, AH
GALLORODRIQUEZ, C
MELMAN, N
OLAH, ME
IJZERMAN, AP
STILES, GL
JACOBSON, KA
机构
[1] NIDDK,BIOORGAN CHEM LAB,MOLEC RECOGNIT SECT,BETHESDA,MD 20892
[2] DUKE UNIV,MED CTR,DEPT MED,DURHAM,NC 27710
[3] DUKE UNIV,MED CTR,DEPT PHARMACOL,DURHAM,NC 27710
[4] CTR BIOPHARMACEUT SCI,DIV MED CHEM,2300 RA LEIDEN,NETHERLANDS
来源
MOLECULAR PHARMACOLOGY | 1994年 / 45卷 / 06期
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中图分类号
R9 [药学];
学科分类号
1007 ;
摘要
A novel adenosine receptor, the A(3) receptor, has recently been cloned. We have systematically investigated the hitherto largely unexplored structure-activity relationships (SARs) for binding at A(3) receptors, using (125)l-N-6-2-(4-aminophenyl)ethyladenosine as a radioligand and membranes from Chinese hamster ovary cells stably transfected with the rat A(3)-cDNA. As is the case for A(1) and A(2A) receptors, substitutions at the N-6 and 5' positions of adenosine, the prototypic agonist ligand, may yield fairly potent compounds. However, the highest affinity and A(3) selectivity is found for N-6,5'-disubstituted compounds, in contrast to A(1) and A(2a) receptors. Thus, N-6-benzyladenosine-5'-N-ethylcarboxamide is highly potent (K-I, 6.8 nM) and moderately selective (13- and 14-fold versus A(1) and A(2a)) The N-6 region of the A(3) receptor also appears to tolerate hydrophilic substitutions, in sharp contrast to the other subtypes. Potencies of N-6,5'-disubstituted compounds in inhibition of adenylate cyclase via A(3) receptors parallel their high affinity in the binding assay. None of the typical xanthine or nonxanthine (A(1)/A(2)) antagonists tested show any appreciable affinity for rat A(3) receptors. 1,3-Dialkylxanthines did not antagonize the A(3) agonist-induced inhibition of adenylate cyclase. A His residue in helix 6 that is absent in A(3) receptors but present in A(1)/A(2) receptors may be causal in this respect. In a molecular model for the rat A(3) receptor, this mutation, together with an increased bulkiness of residues surrounding the ligand, make antagonist binding unfavorable when compared with a previously developed A(1) receptor model. Second, this A(3) receptor model predicted similarities with A(1) and A(2) receptors in the binding requirements for the ribose moiety and that xanthine-7-ribosides would bind to rat A(3) receptors. This hypothesis was supported experimentally by the moderate affinity (K-l 6 mu M) of 7-riboside of 1,3-dibutylxanthine, which appears to be a partial agonist at rat A(3) receptors. The model presented here, which is consistent with the detailed SAR found in this study, may serve to suggest future chemical modification, site-directed mutagenesis, and SAR studies to further define essential characteristics of the ligand-receptor interaction and to develop even more potent and selective A(3) receptor ligands.
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页码:1101 / 1111
页数:11
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