P. Suresh Jayasekara scite author profile

The nucleotide-sugar-activated P2Y 14 receptor (P2Y 14 -R) is highly expressed in hematopoietic cells. Although the physiologic functions of this receptor remain undefined, it has been strongly implicated recently in immune and inflammatory responses. Lack of availability of receptor-selective high-affinity antagonists has impeded progress in studies of this and most of the eight nucleotide-activated P2Y receptors. A series of molecules recently were identified by Gauthier et al. ) that exhibited antagonist activity at the P2Y 14 -R. We synthesized one of these molecules, a 4,7-disubstituted 2-naphthoic acid derivative (PPTN), and studied its pharmacological properties in detail. The concentration-effect curve of UDP-glucose for promoting inhibition of adenylyl cyclase in C6 glioma cells stably expressing the P2Y 14 -R was shifted to the right in a concentration-dependent manner by PPTN.Schild analyses revealed that PPTN-mediated inhibition followed competitive kinetics, with a K B of 434 pM observed. In contrast, 1 mM PPTN exhibited no agonist or antagonist effect at the P2Y 1 , P2Y 2 , P2Y 4 , P2Y 6 , P2Y 11 , P2Y 12 , or P2Y 13 receptors. UDP-glucose-promoted chemotaxis of differentiated HL-60 human promyelocytic leukemia cells was blocked by PPTN with a concentration dependence consistent with the K B determined with recombinant P2Y 14 -R. In contrast, the chemotactic response evoked by the chemoattractant peptide fMetLeuPhe was unaffected by PPTN. UDP-glucose-promoted chemotaxis of freshly isolated human neutrophils also was blocked by PPTN. In summary, this work establishes PPTN as a highly selective high-affinity antagonist of the P2Y 14 -R that is useful for interrogating the action of this receptor in physiologic systems.

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P2Y2 receptor agonist with enhanced stability protects the heart from ischemic damage in vitro and in vivo

Hochhauser

Cohen

Waldman

et al. 2013

Purinergic Signalling

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Extracellular nucleotides acting via P2 receptors play important roles in cardiovascular physiology/pathophysiology. Pyrimidine nucleotides activate four G protein-coupled P2Y receptors (P2YRs): P2Y 2 and P2Y 4 (UTP-activated), P2Y 6 , and P2Y 14 . Previously, we showed that uridine 5′-triphosphate (UTP) activating P2Y 2 R reduced infarct size and improved mouse heart function after myocardial infarct (MI). Here, we examined the cardioprotective role of P2Y 2 R in vitro and in vivo following MI using uridine-5′-tetraphosphate δ-phenyl ester tetrasodium salt (MRS2768), a selective and more stable P2Y 2 R agonist. Cultured rat cardiomyocytes pretreated with MRS2768 displayed protection from hypoxia [as revealed by lactate dehydrogenase (LDH) release and propidium iodide (PI) binding], which was reduced by P2Y 2 R antagonist, AR-C118925 (5-((5-(2,8-dimethyl-5H-dibenzo [a,d][7]annulen-5-yl)-2-oxo-4-thioxo-3,4-dihydropyrimidin-1(2H)-yl)methyl)-N-(1H-tetrazol-5-yl)furan-2-carboxamide). In vivo, echocardiography and infarct size staining of triphenyltetrazolium chloride (TTC) in 3 groups of mice 24 h post-MI: sham, MI, and MI+MRS2768 indicated protection. Fractional shortening (FS) was higher in MRS2768-treated mice than in MI alone (40.0±3.1 % vs. 33.4±2.7 %, p < 0.001). Troponin T and tumor necrosis factor-α (TNF-α) measurements demonstrated that MRS2768 pretreatment reduced myocardial damage (p<0.05) and c-Jun phosphorylation increased. Thus, P2Y 2 R activation protects cardiomyocytes from hypoxia in vitro and reduces post-ischemic myocardial damage in vivo.

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4-Alkyloxyimino Derivatives of Uridine-5′-triphosphate: Distal Modification of Potent Agonists as a Strategy for Molecular Probes of P2Y₂, P2Y₄, and P2Y₆ Receptors

et al. 2014

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Extended N4-(3-arylpropyl)oxy derivatives of uridine-5′-triphosphate were synthesized and potently stimulated phospholipase C stimulation in astrocytoma cells expressing G protein-coupled human (h) P2Y receptors (P2YRs) activated by UTP (P2Y2/4R) or UDP (P2Y6R). The potent P2Y4R-selective N4-(3-phenylpropyl)oxy agonist was phenyl ring-substituted or replaced with terminal heterocyclic or naphthyl rings with retention of P2YR potency. This broad tolerance for steric bulk in a distal region was not observed for dinucleoside tetraphosphate agonists with both nucleobases substituted. The potent N4-(3-(4-methoxyphenyl)-propyl)oxy analogue 19 (EC50: P2Y2R, 47 nM; P2Y4R, 23 nM) was functionalized for chain extension using click tethering of fluorophores as prosthetic groups. The BODIPY 630/650 conjugate 28 (MRS4162) exhibited EC50 values of 70, 66, and 23 nM at the hP2Y2/4/6Rs, respectively, and specifically labeled cells expressing the P2Y6R. Thus, an extended N4-(3-arylpropyl)oxy group accessed a structurally permissive region on three Gq-coupled P2YRs, and potency and selectivity were modulated by distal structural changes. This freedom of substitution was utilized to design of a pan-agonist fluorescent probe of a subset of uracil nucleotide-activated hP2YRs.

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