Search results for " purinergic receptors"

showing 4 items of 4 documents

Bidirectional Control between Cholesterol Shuttle and Purine Signal at the Central Nervous System.

2022

Recent studies have highlighted the mechanisms controlling the formation of cerebral cholesterol, which is synthesized in situ primarily by astrocytes, where it is loaded onto apolipoproteins and delivered to neurons and oligodendrocytes through interactions with specific lipoprotein receptors. The “cholesterol shuttle” is influenced by numerous proteins or carbohydrates, which mainly modulate the lipoprotein receptor activity, function and signaling. These molecules, provided with enzymatic/proteolytic activity leading to the formation of peptide fragments of different sizes and specific sequences, could be also responsible for machinery malfunctions, which are associated with neurological…

Central Nervous SystemNeuronsNiemann-Pick DiseasesOrganic ChemistryReceptors PurinergicLDL receptorLDL receptors; cholesterol; purinergic receptors; Cholesterol; Humans; Neurons; Purines; Receptors Purinergic; Central Nervous System; Niemann-Pick DiseasesPurinergicGeneral MedicineRECEPTORESCatalysisComputer Science ApplicationsInorganic ChemistryCholesterolPurinespurinergic receptorsReceptorsLDL receptorsHumansPhysical and Theoretical ChemistryMolecular BiologySpectroscopyInternational journal of molecular sciences
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Modulation of the TGF-β1-induced epithelial to mesenchymal transition (EMT) mediated by P1 and P2 purine receptors in MDCK cells

2017

Epithelial to mesenchymal transition (EMT) occurs during embryogenesis or under pathological conditions such as hypoxia, injury, chronic inflammation, or tissue fibrosis. In renal tubular epithelial cells (MDCK), TGF-β1 induces EMT by reducing or increasing epithelial or mesenchymal marker expression, respectively. In this study, we confirmed that the cAMP analogues, 8-CPT-cAMP or N6-Ph-cAMP, inhibited the TGF-β1-driven overexpression of the mesenchymal markers ZEB-1, Slug, Fibronectin, and α-SMA. Furthermore, we showed that A1, A2A, P2Y1, P2Y11, and P2X7 purine receptor agonists modulated the TGF-β1-induced EMT through the involvement of PKA and/or MAPK/ERK signaling. The stimulation o…

0301 basic medicineMAPK/ERK pathwayMadin Darby canine kidney cellEpithelial-Mesenchymal TransitionFibrosiCellTransforming growth factor β1InflammationStimulationBiologyEpithelial to mesenchymal transition; Fibrosis; Madin Darby canine kidney cells; P1/P2 purinergic receptors; Transforming growth factor β1; Molecular Biology; Cellular and Molecular Neuroscience; Cell BiologyTransforming Growth Factor beta103 medical and health sciencesCellular and Molecular Neuroscience0302 clinical medicineDogsmedicineAnimalsEpithelial–mesenchymal transitionReceptorMolecular BiologyEpithelial to mesenchymal transitionP1/P2 purinergic receptorReceptors Purinergic P2Mesenchymal stem cellReceptors Purinergic P1Cell BiologyMadin Darby canine kidney cellsFibrosisCell biologyFibronectin030104 developmental biologymedicine.anatomical_structure030220 oncology & carcinogenesisbiology.proteinP1/P2 purinergic receptorsOriginal ArticleTransforming growth factor β1medicine.symptomTransforming growth factor
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The Guanine-Based Purinergic System: The Tale of An Orphan Neuromodulation.

2016

Guanine-based purines (GBPs) have been recently proposed to be not only metabolic agents but also extracellular signaling molecules that regulate important functions in the central nervous system. In such way, GBPs-mediated neuroprotection, behavioral responses and neuronal plasticity have been broadly described in the literature. However, while a number of these functions (i.e., GBPs neurothophic effects) have been well-established, the molecular mechanisms behind these GBPs-dependent effects are still unknown. Furthermore, no plasma membrane receptors for GBPs have been described so far, thus GBPs are still considered orphan neuromodulators. Interestingly, an intricate and controversial f…

0301 basic medicineCell signalingAdenosineAdenosinaguanine-based purines; guanosine; neuroprotectionReviewBiologySettore BIO/09 - FisiologiaNeuroprotection03 medical and health sciences0302 clinical medicineguanine-based purinespurinergic receptorsmedicineGuanosine triphosphatasePharmacology (medical)ReceptorPharmacologyTrifosfat de guanosinasynaptic plasticityPurinergic receptorAdenosine; Guanine-based purines; Guanosine; Neuroprotection; Purinergic receptors; Synaptic plasticity; Pharmacology; Pharmacology (medical)Adenosine receptorAdenosineNeuromodulation (medicine)guanosine030104 developmental biologyBiochemistryPurinesadenosineSynaptic plasticityneuroprotectionNeurosciencePurinergic receptor030217 neurology & neurosurgeryGuanine-based purinemedicine.drugFrontiers in pharmacology
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Inhibitory purinergic transmission in mouse caecum: Role for P2Y1 receptors as prejunctional modulators of ATP release

2007

Using conventional microelectrode recording techniques, we investigated, in the circular muscle of the mouse caecum, the neurotransmitter(s) involved in the neurally-evoked inhibitory junction potentials (IJPs) and the existence of possible prejunctional mechanisms controlling neurotransmitter release. Electrical field stimulation with single pulses elicited IJPs, consisting only of a "fast" hyperpolarization, while using train stimuli (30-50 Hz) the initial fast hyperpolarization was followed by a slower hyperpolarization. The fast and the slow component were selectively antagonized by apamin, a blocker of calcium-activated potassium channels, and N(omega)-nitro-l-arginine methyl ester (l-…

MaleP2Y receptormedicine.medical_specialtyAntineoplastic AgentsSuraminNitric OxideApaminSettore BIO/09 - FisiologiaSynaptic TransmissionEnteric Nervous SystemMembrane PotentialsMiceReceptors Purinergic P2Y1chemistry.chemical_compoundAdenosine TriphosphateInternal medicinePurinergic P2 Receptor AntagonistsmedicineAnimalsPPADSReceptorCecumMembrane potentialReceptors Purinergic P2General NeurosciencePurinergic receptorMembrane ProteinsHyperpolarization (biology)Electric StimulationReceptors Purinergic P2Y12Potassium channelMice Inbred C57BLEndocrinologyApaminchemistryBiophysicsenteric nerves intestinal muscle ATP purinergic receptors inhibitory junction potentialsNeuroscience
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