Plant natural products as source of new P2 receptors ligands.

In recent years, interest in the research of P2 receptor (P2R)-mediated responses has grown significantly due to the recognition of the involvement of these receptors in various physiological and pathological processes. Despite all the progress made in the functional characterization of P2Rs, purinergic signaling research is still limited by the lack of selective or efficient ligands for different receptor subtypes. In this sense, several molecules have been tested towards these receptors as agonists or antagonists. Historically, natural products have always been sources of new bioactive substances for diverse purposes. However, compared to synthetic molecules, the number of natural products assessed for P2R ligands is still low. In this review, we present examples of studies that demonstrated plant natural products acting directly on P2R and modulating their functionality. In some cases, we highlight that the pharmacological activity previously described for the original organism could be correlated to an agonist or antagonist activity of a specific natural product on these receptors. These examples reinforce the need for more studies to investigate the pharmacological potential of new or known natural compounds targeting P2 receptors.

Arylboronic acids inhibit P2X7 receptor function and the acute inflammatory response.

The P2X7 receptor (P2X7R) is an ion channel which is activated by interactions with the extracellular ATP molecules. The molecular complex P2X7R/ATP induces conformational changes in the protein subunits, opening a pore in the ion channel macromolecular structure. Currently, the P2X7R has been studied as a potential therapeutic target of anti-inflammatory drugs. Based on this, a series of eight boronic acids (NO) analogs were evaluated on the biologic effect of this pharmacophoric group on the human and murine P2X7R. The boronic acids derivatives NO-01 and NO-12 inhibited in vitro human and murine P2X7R function. These analogs compounds showed effect better than compound BBG and similar to inhibitor A740003 for inhibiting dye uptake, in vitro IL-1ß release and ATP-induced paw edema in vivo. In both, in vitro and in vivo assays the compound NO-01 showed to be the hit compound in the present series of the arylboronic acids analogs. The molecular docking suggests that the NO derivatives bind into the upper body domain of the P2X7 pore and that the main intermolecular interaction with the two most active NO derivatives occur with the residues Phe 95, 103 and 293 by hydrophobic interactions and with Leu97, Gln98 and Ser101 by hydrogen bonds.. These results indicate that the boronic acid derivative NO-01 shows the lead compound characteristics to be used as a scaffold structure to the development of new P2X7R inhibitors with anti-inflammatory action.