In previous research, several 7-amino-2-arylpyrazolo[4,3-d]pyrimidine derivatives were identified as highly potent and selective antagonists at the human A3 adenosine receptor. Structure-activity relationship studies highlighted that affinity and selectivity depended on the nature of the substituents at the 5- and 7-positions of the pyrazolo[4,3-d]pyrimidine scaffold. In particular, small lipophilic residues at the 5-position and a free amino group at position 7 afforded compounds able to bind all four human (h) adenosine receptors. Hence, to shift affinity toward the hA1 and/or hA(2A) subtypes, alkyl and arylalkyl chains of different length were appended at position 5 of the 2-phenylpyrazolo[4,3-d]pyrimidin-7-amine. Among the new compounds, a dual hA1/hA(2A) receptor antagonist was identified, namely the 5-(3-phenylpropyl) derivative 25, which shows high affinity both at human A1 (K(i) = 5.31 nM) and A(2A) (K(i) = 55 nM) receptors. We also obtained some potent and selective antagonists for the A1 receptor, such as the 5-(3-arylpropyl)-substituted compounds 26-31, whose affinities fall in the low nanomolar range (K(i) = 0.15-18 nM). Through an in silico receptor-driven approach, the obtained binding data were rationalized and the molecular bases of the hA1 and hA(2A) AR affinity and selectivity of derivatives 25-31 are explained.
Keywords: A(1) and A(2A) adenosine receptor antagonists; Dual A(1)/A(2A) adenosine receptor antagonists; G protein-coupled receptors; Ligand–adenosine receptor modeling studies; Pyrazolo[4,3-d]pyrimidines.
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