30466-96-7Relevant academic research and scientific papers
Istradefylline derivative and preparation method and application thereof
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Paragraph 0259-0260; 0262-0263, (2021/01/24)
The invention provides an istradefylline derivative and a preparation method and application thereof, the istradefylline derivative comprises pharmacological activity of the compound, in order to meetrequirements of various dosage forms and search candidate compounds with equivalent or better pharmacological activity, istradefylline is used as a lead compound, and under the premise of keeping theheterocyclic center of an istradefylline pharmacophore unchanged, the compound is structurally modified, and pharmacological activity screening is performed on the obtained compound, so that candidate drugs with better pharmacological activity and smaller toxic and side effects are expected to be obtained. The invention also relates to a method for researching the biological activity of the novelcompound of the selective adenosine A2A receptor antagonist.
Structure-activity relationships of adenine and deazaadenine derivatives as ligands for adenine receptors, a new purinergic receptor family
Borrmann, Thomas,Abdelrahman, Aliaa,Volpini, Rosaria,Lambertucci, Catia,Alksnis, Edgars,Gorzalka, Simone,Knospe, Melanie,Schiedel, Anke C.,Cristalli, Gloria,Müller, Christa E.
supporting information; experimental part, p. 5974 - 5989 (2010/03/24)
Adenine derivatives bearing substituents in the 2-, N6-, 7-, 8-, and/or 9-position and a series of deazapurines were synthesized and investigated in [3H]adenine binding studies at the adenine receptor in rat brain cortical membrane preparations (rAde1R). Steep structure-activity relationships were observed. Substitution in the 8-position (amino, dimethylamino, piperidinyl, piperazinyl) or in the 9-position (2-morpholinoethyl) with basic residues or introduction of polar substituents at the 6-amino function (hydroxy, amino, acetyl) represented the best modifications. Functional evaluation of selected adenine derivatives in adenylate cyclase assays at 1321N1 astrocytoma cells stably expressing the rAde1R showed that all compounds investigated were agonists or partial agonists. A subset of compounds was additionally investigated in binding studies at human embryonic kidney (HEK293) cells, which also express a high-affinity adenine binding site. Structure-affinity relationships at the human cell line were similar to those at the rAde1R, but not identical. In particular, N 6-acetyladenine (25, Ki rat: 2.85 μM; Ki human: 0.515 μM) and 8-aminoadenine (33, Ki rat: 6.51 μM; Ki human: 0.0341 μM) were much more potent at the human as compared to the rat binding site. The new AdeR ligands may serve as lead structures and contribute to the elucidation of the functions of the adenine receptor family. 2009 American Chemical Society.
