Luz María G. Carrasquero scite author profile

Previous work has established the presence of functional P2X 7 subunits in rat cerebellar astrocytes, which after stimulation with 3¢-O-(4-benzoyl)benzoyl ATP (BzATP) evoked morphological changes that were not reproduced by any other nucleotide. To further characterize the receptor(s) and signaling mechanisms involved in the action of BzATP, we have employed fura-2 microfluorometry and the patch-clamp technique. BzATP elicited intracellular calcium responses that typically exhibited two components: the first one was transient and metabotropic in nature -sensitive to phospholipase C inhibition and pertussis toxin treatment -, whereas the second one was sustained and depended on the presence of extracellular calcium. The ionotropic nature of this latter component was corroborated by measurements of Mn 2+ entry and macroscopic non-selective cation currents evoked by either BzATP (100 lM) or ATP (1 mM). The two components of the calcium response to BzATP differed in their pharmacological sensitivity. The metabotropic component was partially sensitive to pyridoxalphosphate-5¢-phosphate-6-azo-(-2-chloro-5-nitrophenyl)-2,4-disulfonate, a selective antagonist of P2Y 13 receptors, while the ionotropic component was modulated by external magnesium and markedly reduced by brilliant blue G and 3-(5-(2,3-dichlorophenyl)-1H-tetrazol-1-yl)methyl pyridine (A438079), thus implying the involvement of P2X 7 purinergic receptors. It is concluded that P2Y 13 and P2X 7 purinergic receptors are functionally expressed in rat cerebellar astrocytes and mediate the increase in intracellular calcium elicited by BzATP in these cells.

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Selective Impairment of P2Y Signaling by Prostaglandin E2 in Macrophages: Implications for Ca2+-Dependent Responses

Través

Pimentel-Santillana

Carrasquero

et al. 2013

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Extracellular nucleotides have been recognized as important modulators of inflammation via their action on specific pyrimidine receptors (P2). This regulation coexists with the temporal framework of proinflammatory and proresolution mediators released by the cells involved in the inflammatory response, including macrophages. Under proinflammatory conditions, the expression of cyclooxygenase-2 leads to the release of large amounts of PGs, such as PGE2, that exert their effects through EP receptors and other intracellular targets. The effect of these PGs on P2 receptors expressed in murine and human macrophages was investigated. In thioglycollate-elicited and alternatively activated macrophages, PGE2 selectively impairs P2Y but not P2X7 Ca2+ mobilization. This effect is absent in LPS-activated cells and is specific for PGE2 because it cannot be reproduced by other PGs with cyclopentenone structure. The inhibition of P2Y responses by PGE2 involves the activation of nPKCs (PKCε) and PKD that can be abrogated by selective inhibitors or by expression of dominant-negative forms of PKD. The inhibition of P2Y signaling by PGE2 has an impact on the cell migration elicited by P2Y agonists in thioglycollate-elicited and alternatively activated macrophages, which provide new clues to understand the resolution phase of inflammation, when accumulation of PGE2, anti-inflammatory and proresolving mediators occurs.

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Mechanisms of protein kinase D activation in response to P2Y₂ and P2X7 receptors in primary astrocytes

Carrasquero

Delicado

Sánchez‐Ruiloba

et al. 2010

Glia

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Protein kinase D (PKD) is a family of serine/threonine kinases that can be activated by many stimuli via protein kinase C in a variety of cells. This is the first report where PKD activation and localization is studied in glial cells. Herein, we demonstrate that P2Y(2) and P2X7 receptor stimulation of primary rat cerebellar astrocytes rapidly increases PKD1/2 phosphorylation and activity. P2Y(2) receptor response evokes a PKD1/2 activation that is dependent on a pertussis toxin-insensitive G protein, phospholipase C (PLC)-mediated generation of diacylglycerol, and protein kinase C. This mechanism is similar to the one described for other G-protein coupled receptors. In contrast, the way the ionotropic P2X7 receptor activates PKD1/2 is significantly different. Importantly, this response is not dependent on calcium entry, but depends on the activity of several phospholipases, including phosphoinositide-phospholipase C (PI-PLC), phosphatidylcholine-phospholipase C (PC-PLC) and also phospholipase D (PLD). Immunoblot and confocal microscopy analysis show that PKD1/2 activation by nucleotides is transient. The active kinase first moves to and concentrates in certain plasma membrane domains. Then, phosphorylated-PKD1/2 translocates to intracellular vesicles, where it remains active. All together, our results open the perspective of PKD1/2 being involved in many physiological functions where nucleotides play important roles not only in astrocytes but in other cell types bearing these receptors.

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Dinucleoside polyphosphates and their interaction with other nucleotide signaling pathways

Delicado

Miras‐Portugal

Carrasquero

et al. 2006

Pflugers Arch - Eur J Physiol

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Dinucleoside polyphosphates or Ap(n)A are a family of dinucleotides formed by two adenosines joined by a variable number of phosphates. Ap(4)A, Ap(5)A, and Ap(6)A are stored together with other neurotransmitters into secretory vesicles and are co-released to the extracellular medium upon stimulation. These compounds can interact extracellularly with some ATP receptors, both metabotropic (P2Y) and ionotropic (P2X). However, specific receptors for these substances, other than ATP receptors, have been described in presynaptic terminals form rat midbrain. These specific dinucleotide receptors are of ionotropic nature and their activation induces calcium entry into the terminals and the subsequent neurotransmitter release. Calcium signals that cannot be attributable to the interaction of Ap(n)A with ATP receptors have also been described in cerebellar synaptosomes and granule cell neurons in culture, where Ap(5)A induces CaMKII activation. In addition, cerebellar astrocytes express a specific Ap(5)A receptor coupled to ERK activation. Ap(5)A engaged to MAPK cascade by a mechanism that was insensitive to pertussis toxin and required the involvement of src and ras proteins. Diadenosine polyphosphates, acting on their specific receptors and/or ATP receptors, can also interact with other neurotransmitter systems. This broad range of actions and interactions open a promising perspective for some relevant physiological roles for the dinucleotides. However, the physiological significance of these compounds in the CNS is still to be determined.

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Cerebellar astrocytes co-express several ADP receptors. Presence of functional P2Y13-like receptors

Carrasquero

Delicado

Jiménez

et al. 2005

Purinergic Signalling

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Astrocytes exhibit a form of excitability based on variations of intracellular Ca 2+ concentration in response to various stimuli, including ADP, ATP, UTP and dinucleotides. Here, we investigate the presence of the recently cloned ADPsensitive receptors, P2Y 12 and P2Y 13 subtypes, which are negatively coupled to adenylate cyclase, in cerebellar astrocytes. We checked the effect of specific agonists, 2-methylthioadenosine diphosphate (2MeSADP) and ADP, on adenylate cyclase stimulation induced by isoproterenol. Both agonists significantly reduced the cAMP accumulation induced by isoproterenol. The inhibitory effect was concentration-dependent with IC 50 values of 46 T 13 and 23 T 14 nM for 2MeSADP and ADP, respectively. The experiments were carried out in the presence of MRS-2179, a specific antagonist of P2Y 1 receptor, to avoid any contribution of this receptor. Using fura-2 microfluorimetry we also proved that astrocytes responded to 2MeSADP stimulations with calcium responses in the absence and also in the presence of MRS-2179. Both effects, inhibition of adenylate cyclase and intracellular calcium mobilization, were not modified by 2MeSAMP, an antagonist of P2Y 12 receptor, suggesting that were mediated by P2Y 13 -like receptors.Abbreviations: 2MeSADP -2-methylthioadenosine diphosphate; 2MeSAMP -2-methylthioadenosine monophosphate; MRS-2179 -N6-methyl-2 ¶-deoxyadenosine 3 ¶,5 ¶-bisphosphate

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