P2 receptors are a class of plasma membrane receptors ligated by extracellular nucleotides and expressed ubiquitously throughout the body. Two main families are known: P2X and P2Y. P2X are ligand (ATP)-gated channels, while P2Y are G-protein-coupled seven membrane-spanning receptors. The P2X and the P2Y subfamilies comprise seven and eight members, respectively. While ATP is the only known physiological ligand of P2X receptors, P2Y receptors are known to be also activated by ADP, UTP, UDP and UDP-glucose in a subtype-specific manner. Several P2 subtypes are expressed by leukocytes where they have been implicated in a host of different responses ranging from chemotaxis to differentiation, from proliferation to cytotoxicity, from secretion of inflammatory mediators to cell fusion. However, until recently there was no in vivo proof of the participation of P2 receptors in inflammatory or proliferative disorders and, in addition, few pharmacological modulators of P2 function were available. During the last two years animal and human studies have produced preliminary but nevertheless compelling evidence in support of an important function of P2 receptors in inflammation and hematological tumors. Importantly, selective blockers of these receptors have been synthesized, thus paving the way to the possible development of P2-targeted anti-inflammatory and anti-tumoral therapies.

LEUKOCYTES P2 RECEPTORS: A NOVEL TARGET FOR ANTI-INFLAMMATORY AND ANTI-TUMOR THERAPY

DI VIRGILIO, Francesco;BARICORDI, Olavio;ROMAGNOLI, Romeo;BARALDI, Pier Giovanni
2005

Abstract

P2 receptors are a class of plasma membrane receptors ligated by extracellular nucleotides and expressed ubiquitously throughout the body. Two main families are known: P2X and P2Y. P2X are ligand (ATP)-gated channels, while P2Y are G-protein-coupled seven membrane-spanning receptors. The P2X and the P2Y subfamilies comprise seven and eight members, respectively. While ATP is the only known physiological ligand of P2X receptors, P2Y receptors are known to be also activated by ADP, UTP, UDP and UDP-glucose in a subtype-specific manner. Several P2 subtypes are expressed by leukocytes where they have been implicated in a host of different responses ranging from chemotaxis to differentiation, from proliferation to cytotoxicity, from secretion of inflammatory mediators to cell fusion. However, until recently there was no in vivo proof of the participation of P2 receptors in inflammatory or proliferative disorders and, in addition, few pharmacological modulators of P2 function were available. During the last two years animal and human studies have produced preliminary but nevertheless compelling evidence in support of an important function of P2 receptors in inflammation and hematological tumors. Importantly, selective blockers of these receptors have been synthesized, thus paving the way to the possible development of P2-targeted anti-inflammatory and anti-tumoral therapies.
2005
DI VIRGILIO, Francesco; Baricordi, Olavio; Romagnoli, Romeo; Baraldi, Pier Giovanni
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/1197278
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