The synthesis of a series of 9-ethyladenine derivatives bearing alkynyl chains in 2- or 8-position was undertaken, based on the observation that replacement of the sugar moiety in adenosine derivatives with alkyl groups led to adenosine receptor antagonists. All the synthesized compounds were tested for their affinity at human and rat A(1), A(2A), and A(3) adenosine receptors in binding assays; the activity at the human A(2B) receptor was determined in adenylyl cyclase experiments. Biological data showed that the 2-alkynyl derivatives possess good affinity and are slightly selective for the human A(2A) receptor. The same compounds tested on the rat A(1) and A(2A) subtypes showed in general lower affinity for both receptors. On the other hand, the affinity of the 8-alkynyl derivatives at the human A(1), A(2A), and A(2B) receptors proved to be lower than that of the corresponding 2-alkynyl derivatives. On the contrary, the affinity of the same compounds for the human A(3) receptor was improved, resulting in A(3) selectivity. As in the case of the 2-alkynyl-substituted compounds, the 8-alkynyl derivatives showed decreased affinity for rat receptors. However, it is worthwhile to note that the 8-phenylethynyl-9-ethyladenine was the most active compound of the two series (K (i) in the nanomolar range) at both the human and rat A(3) subtype. Docking experiments of the 2- and 8-phenylethynyl-9-ethyladenines, at a rhodopsin-based homology model, gave a rational explanation of the preference of the human A(3) receptor for the 8-substituted compound.

2- and 8-alkynyl-9-ethyladenines: synthesis and biological activity at human and rat adenosine receptors

MARTINI, CLAUDIA;TRINCAVELLI, MARIA LETIZIA;
2005-01-01

Abstract

The synthesis of a series of 9-ethyladenine derivatives bearing alkynyl chains in 2- or 8-position was undertaken, based on the observation that replacement of the sugar moiety in adenosine derivatives with alkyl groups led to adenosine receptor antagonists. All the synthesized compounds were tested for their affinity at human and rat A(1), A(2A), and A(3) adenosine receptors in binding assays; the activity at the human A(2B) receptor was determined in adenylyl cyclase experiments. Biological data showed that the 2-alkynyl derivatives possess good affinity and are slightly selective for the human A(2A) receptor. The same compounds tested on the rat A(1) and A(2A) subtypes showed in general lower affinity for both receptors. On the other hand, the affinity of the 8-alkynyl derivatives at the human A(1), A(2A), and A(2B) receptors proved to be lower than that of the corresponding 2-alkynyl derivatives. On the contrary, the affinity of the same compounds for the human A(3) receptor was improved, resulting in A(3) selectivity. As in the case of the 2-alkynyl-substituted compounds, the 8-alkynyl derivatives showed decreased affinity for rat receptors. However, it is worthwhile to note that the 8-phenylethynyl-9-ethyladenine was the most active compound of the two series (K (i) in the nanomolar range) at both the human and rat A(3) subtype. Docking experiments of the 2- and 8-phenylethynyl-9-ethyladenines, at a rhodopsin-based homology model, gave a rational explanation of the preference of the human A(3) receptor for the 8-substituted compound.
2005
Volpini, R.; Costanzi, S.; Lambertucci, K.; Vittori, S.; Martini, Claudia; Trincavelli, MARIA LETIZIA; Klotz, K. N.; Cristalli, G.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11568/181011
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