Your search keyword '"Javier Burgueño"' showing total 55 results

1. Bispecific sigma-1 receptor antagonism and mu-opioid receptor partial agonism: WLB-73502, an analgesic with improved efficacy and safety profile compared to strong opioids

Author

Alba Vidal-Torres, Begoña Fernández-Pastor, Mónica García, Eva Ayet, Anna Cabot, Javier Burgueño, Xavier Monroy, Bertrand Aubel, Xavier Codony, Luz Romero, Rosalía Pascual, Maria Teresa Serafini, Gregorio Encina, Carmen Almansa, Daniel Zamanillo, Manuel Merlos, and José Miguel Vela

Subjects

WLB-73502, Sigma-1 receptor, Mu-opioid receptor, Biased agonist, Analgesic activity, Chronic pain, Therapeutics. Pharmacology, RM1-950

Abstract

Opioids are the most effective painkillers, but their benefit-risk balance often hinder their therapeutic use. WLB-73502 is a dual, bispecific compound that binds sigma-1 (S1R) and mu-opioid (MOR) receptors. WLB-73502 is an antagonist at the S1R. It behaved as a partial MOR agonist at the G-protein pathway and produced no/unsignificant β-arrestin-2 recruitment, thus demonstrating low intrinsic efficacy on MOR at both signalling pathways. Despite its partial MOR agonism, WLB-73502 exerted full antinociceptive efficacy, with potency superior to morphine and similar to oxycodone against nociceptive, inflammatory and osteoarthritis pain, and superior to both morphine and oxycodone against neuropathic pain. WLB-73502 crosses the blood–brain barrier and binds brain S1R and MOR to an extent consistent with its antinociceptive effect. Contrary to morphine and oxycodone, tolerance to its antinociceptive effect did not develop after repeated 4-week administration. Also, contrary to opioid comparators, WLB-73502 did not inhibit gastrointestinal transit or respiratory function in rats at doses inducing full efficacy, and it was devoid of proemetic effect (retching and vomiting) in ferrets at potentially effective doses. WLB-73502 benefits from its bivalent S1R antagonist and partial MOR agonist nature to provide an improved antinociceptive and safety profile respect to strong opioid therapy.

Published

2023

2. Identification of Sodium Transients Through NaV1.5 Channels as Regulators of Differentiation in Immortalized Dorsal Root Ganglia Neurons

Author

Antón L. Martínez, José Brea, Eduardo Domínguez, María J. Varela, Catarina Allegue, Raquel Cruz, Xavier Monroy, Manuel Merlos, Javier Burgueño, Ángel Carracedo, and María Isabel Loza

Subjects

neuronal differentiation, immortalized DRG neurons, functional transcriptomics, electrophysiology, sodium currents, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Neuronal differentiation is a complex process through which newborn neurons acquire the morphology of mature neurons and become excitable. We employed a combination of functional and transcriptomic approaches to deconvolute and identify key regulators of the differentiation process of a DRG neuron-derived cell line, and we focused our study on the NaV1.5 ion channel (encoded by Scn5a) as a channel involved in the acquisition of DRG neuronal features. Overexpression of Scn5a enhances the acquisition of neuronal phenotypic features and increases the KCl-elicited hyperexcitability response in a DRG-derived cell line. Moreover, pharmacologic inhibition of the NaV1.5 channel during differentiation hinders the acquisition of phenotypic features of neuronal cells and the hyperexcitability increase in response to changes in the extracellular medium ionic composition. Taken together, these data highlight the relevance of sodium transients in regulating the neuronal differentiation process in a DRG neuron-derived cell line.

Published

2022

3. EST79232 and EST79376, Two Novel Sigma-1 Receptor Ligands, Exert Neuroprotection on Models of Motoneuron Degeneration

Author

Núria Gaja-Capdevila, Neus Hernández, Sandra Yeste, Raquel F. Reinoso, Javier Burgueño, Ana Montero, Manuel Merlos, José M. Vela, Mireia Herrando-Grabulosa, and Xavier Navarro

Subjects

amyotrophic lateral sclerosis, motoneuron degeneration, sigma-1 receptor, SOD1G93A mice, spinal nerve injury, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Motor neuron diseases (MNDs) include sporadic and hereditary neurological disorders characterized by progressive degeneration of motor neurons (MNs). Sigma-1 receptor (Sig-1R) is a protein enriched in MNs, and mutations on its gene lead to various types of MND. Previous studies have suggested that Sig-1R is a target to prevent MN degeneration. In this study, two novel synthesized Sig-1R ligands, coded EST79232 and EST79376, from the same chemical series, with the same scaffold and similar physicochemical properties but opposite functionality on Sig-1R, were evaluated as neuroprotective compounds to prevent MN degeneration. We used an in vitro model of spinal cord organotypic cultures under chronic excitotoxicity and two in vivo models, the spinal nerve injury and the superoxide dismutase 1 (SOD1)G93A mice, to characterize the effects of these Sig-1R ligands on MN survival and modulation of glial reactivity. The antagonist EST79376 preserved MNs in vitro and after spinal nerve injury but was not able to improve MN death in SOD1G93A mice. In contrast, the agonist EST79232 significantly increased MN survival in the three models of MN degeneration evaluated and had a mild beneficial effect on motor function in SOD1G93A mice. In vivo, Sig-1R ligand EST79232 had a more potent effect on preventing MN degeneration than EST79376. These data further support the interest in Sig-1R as a therapeutic target for neurodegeneration.

Published

2022

4. Development of a novel in vitro assay to screen for neuroprotective drugs against iatrogenic neurite shortening.

Author

Antón L Martínez, José Brea, Mateo Barro, Xavier Monroy, Manuel Merlos, Javier Burgueño, and María Isabel Loza

Subjects

Medicine, Science

Abstract

This work tries to help overcome the lack of relevant translational screening assays, as a limitation for the identification of novel analgesics for neuropathic pain. Hyperexcitability and neurite shortening are common adverse effects of antiviral and antitumor drugs, leading to neuropathic pain. Now, as seen in the drug screening that we developed here, a high-content microscopy-based assay with immortalized dorsal root ganglia (DRG) neurons (differentiated F11 cells) allowed to identify drugs able to protect against the iatrogenic neurite shortening induced by the antitumor drug vincristine and the antiviral drug rilpivirine. We observed that vincristine and rilpivirine induced a significant reduction in the neurite length, which was reverted by α-lipoic acid. We had also evidenced protective effects of pregabalin and melatonin, acting through the α2δ-2 subunit of the voltage-dependent calcium channels and the MT1 receptor, respectively. Additionally, two hits originated from a previous primary screening aimed to detect inhibitors of hyperexcitability to inflammatory mediators in DRG neurons (nitrendipine and felodipine) also prevented neurite shortening in our model. In summary, in this work we developed a novel secondary assay for identifying hits with neuroprotective effect against iatrogenic neurite shortening, consistent with the anti-hyperexcitability action previously tested: highlighting nitrendipine and felodipine against iatrogenic damage in DRG neurons.

Published

2021

5. Development of a Novel σ1 Receptor Biosensor Based on Its Heterodimerization with Binding Immunoglobulin Protein in Living Cells

Author

Xavier Morató, Víctor Fernández-Dueñas, Pilar Pérez-Villamor, Marta Valle-León, José Miguel Vela, Manuel Merlos, Javier Burgueño, and Francisco Ciruela

Subjects

Oligòmers, Disseny de medicaments, Biosensors, Proteïnes portadores, Carrier proteins, Physiology, Oligomers, Cognitive Neuroscience, Cell Biology, General Medicine, Biochemistry, Drug design

Abstract

The σ1 receptor (S1R) is a ligand-regulated non-opioid intracellular receptor involved in several pathological conditions. The development of S1R-based drugs as therapeutic agents is a challenge due to the lack of simple functional assays to identify and classify S1R ligands. We have developed a novel nanoluciferase binary technology (NanoBiT) assay based on the ability of S1R to heteromerize with the binding immunoglobulin protein (BiP) in living cells. The S1R-BiP heterodimerization biosensor allows for rapid and accurate identification of S1R ligands by monitoring the dynamics of association-dissociation of S1R and BiP. Acute treatment of cells with the S1R agonist PRE-084 produced rapid and transient dissociation of the S1R-BiP heterodimer, which was blocked by haloperidol. The effect of PRE-084 was enhanced by calcium depletion, leading to a higher reduction in heterodimerization even in the presence of haloperidol. Prolonged incubation of cells with S1R antagonists (haloperidol, NE-100, BD-1047, and PD-144418) increased the formation of S1R-BiP heteromers, while agonists (PRE-084, 4-IBP, and pentazocine) did not alter heterodimerization under the same experimental conditions. The newly developed S1R-BiP biosensor is a simple and effective tool for exploring S1R pharmacology in an easy cellular setting. This biosensor is suitable for high-throughput applications and a valuable resource in the researcher's toolkit.

Published

2023

6. Propionamide Derivatives as Dual μ-Opioid Receptor Agonists and σ1 Receptor Antagonists for the Treatment of Pain

Author

Magda Bordas, Virginia Llorente, Javier Burgueño, Enrique Portillo-Salido, Begoña Fernández, Mónica García, Carmen Almansa, Marta Pujol, Sergi Rodríguez-Escrich, Lourdes Garriga, Georgia Gris, Albert Dordal, Eva Ayet, Ute Christmann, Marina Virgili, and José Miguel Vela

Subjects

Chemistry, medicine.drug_class, Analgesic, Pharmacology, σ1 receptor, Opioid receptor, Drug Discovery, medicine, Molecular Medicine, Sciatic nerve, Ligation, Receptor, Oxycodone, PAW pressure, medicine.drug

Abstract

A new series of propionamide derivatives was developed as dual μ-opioid receptor agonists and σ1 receptor antagonists. Modification of a high-throughput screening hit originated a series of piperazinylcycloalkylmethyl propionamides, which were explored to overcome the challenge of achieving balanced dual activity and convenient drug-like properties. The lead compound identified, 18g, showed good analgesic effects in several animal models of both acute (paw pressure) and chronic (partial sciatic nerve ligation) pain, with reduced gastrointestinal effects in comparison with oxycodone.

Published

2021

7. Discovery of EST73502, a Dual μ-Opioid Receptor Agonist and σ1 Receptor Antagonist Clinical Candidate for the Treatment of Pain

Author

Magda Bordas, Begoña Fernández, Joan Farran, Manuel Merlos, Carmen Almansa, Carlos R. Plata-Salamán, Marina Virgili, Rosalia Pascual, Antonio R. Fernández de Henestrosa, Mónica García, Javier Burgueño, Mònica Alonso, Eva Ayet, José Miguel Vela, Carles Alegret, and Alba Vidal-Torres

Subjects

Agonist, 0303 health sciences, Chemistry, medicine.drug_class, Analgesic, Chronic pain, Antagonist, Biological activity, Pharmacology, medicine.disease, 01 natural sciences, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, 03 medical and health sciences, Opioid, Drug Discovery, medicine, Molecular Medicine, Oxycodone, 030304 developmental biology, ADME, medicine.drug

Abstract

The synthesis and pharmacological activity of a new series of 4-alkyl-1-oxa-4,9-diazaspiro[5.5]undecane derivatives as potent dual ligands for the σ1 receptor (σ1R) and the μ-opioid receptor (MOR) are reported. A lead optimization program over the initial 4-aryl analogues provided 4-alkyl derivatives with the desired functionality and good selectivity and ADME profiles. Compound 14u (EST73502) showed MOR agonism and σ1R antagonism and a potent analgesic activity, comparable to the MOR agonist oxycodone in animal models of acute and chronic pain after single and repeated administration. Contrary to oxycodone, 14u produces analgesic activity with reduced opioid-induced relevant adverse events, like intestinal transit inhibition and naloxone-precipitated behavioral signs of opiate withdrawal. These results provide evidence that dual MOR agonism and σ1R antagonism may be a useful strategy for obtaining potent and safer analgesics and were the basis for the selection of 14u as a clinical candidate for the treatment of pain.

Published

2020

8. Identification of Sodium Transients Through Na

Author

Antón L, Martínez, José, Brea, Eduardo, Domínguez, María J, Varela, Catarina, Allegue, Raquel, Cruz, Xavier, Monroy, Manuel, Merlos, Javier, Burgueño, Ángel, Carracedo, and María Isabel, Loza

Abstract

Neuronal differentiation is a complex process through which newborn neurons acquire the morphology of mature neurons and become excitable. We employed a combination of functional and transcriptomic approaches to deconvolute and identify key regulators of the differentiation process of a DRG neuron-derived cell line, and we focused our study on the Na

Published

2021

9. Propionamide Derivatives as Dual μ-Opioid Receptor Agonists and σ

Author

Mónica, García, Virginia, Llorente, Lourdes, Garriga, Ute, Christmann, Sergi, Rodríguez-Escrich, Marina, Virgili, Begoña, Fernández, Magda, Bordas, Eva, Ayet, Javier, Burgueño, Marta, Pujol, Albert, Dordal, Enrique, Portillo-Salido, Georgia, Gris, José Miguel, Vela, and Carmen, Almansa

Subjects

Analgesics, Opioid, Mice, Structure-Activity Relationship, Dose-Response Relationship, Drug, Molecular Structure, Narcotic Antagonists, Receptors, Opioid, mu, Animals, Humans, Pain, Receptors, sigma, Amides

Abstract

A new series of propionamide derivatives was developed as dual μ-opioid receptor agonists and σ

Published

2021

10. Identification of Novel Regulators of Zalcitabine-Induced Neuropathic Pain

Author

Raquel Cruz, Catarina Allegue, Xavier Monroy, María J. Varela, Manuel Merlos, María Isabel Loza, Eduardo Domínguez, José Brea, Antón L. Martínez, Javier Burgueño, Marta Cimadevila, and Angel Carracedo

Subjects

Sensory Receptor Cells, Physiology, Cognitive Neuroscience, Pharmacology, medicine.disease_cause, Biochemistry, 03 medical and health sciences, Zalcitabine, 0302 clinical medicine, Downregulation and upregulation, Ganglia, Spinal, medicine, Animals, Humans, Calcium Signaling, 030304 developmental biology, Calcium signaling, Calcium metabolism, 0303 health sciences, business.industry, Cell Biology, General Medicine, Calcium ATPase, Disease Models, Animal, Hyperalgesia, Neuropathic pain, Quality of Life, Neuralgia, business, 030217 neurology & neurosurgery, Intracellular, Oxidative stress, medicine.drug

Abstract

Neuropathic pain is one of the foremost adverse effects that worsens quality of life for patients undergoing an antiretroviral treatment. Currently, there are no effective analgesics for relieving it; thus, there is an urgent need to develop novel treatments for neuropathic pain. Previously, we described and validated F11 cells as a model of DRG (dorsal root ganglia) neurons. In the current work, we employed F11 cells to identify regulators of antiretroviral-induced neuropathic pain combining functional and transcriptomic analysis. The antiretroviral zalcitabine (ddC) increased the excitability of differentiated F11 cells associated with calcium signaling without morphological changes in the neuronal phenotype, mimicking the observed increase of painful signaling in patients suffering from antiretroviral-induced neuropathic pain. Employing RNA sequencing, we observed that zalcitabine treatment upregulated genes related with oxidative stress and calcium homeostasis. The functional impact of the transcriptomic changes was explored, finding that the exposure to zalcitabine significantly increased intracellular oxidative stress and reduced store-operated calcium entry (SOCE). Because the functional and transcriptomic evidence points toward fundamental changes in calcium signaling and oxidative stress upon zalcitabine exposure, we identified that NAD(P)H quinone dehydrogenase and the sarcoplasmic/endoplasmic reticulum calcium ATPase 3 were involved in zalcitabine-induced hyperexcitability of F11 cells. Overexpression of those genes increases the calcium-elicited hyperexcitability response and reduces SOCE, as well as increases intracellular ROS levels. These data do not only mimic the effects of zalcitabine but also highlight the relevance of oxidative stress and of calcium-mediated signaling in antiretroviral-induced hyperexcitability of sensory neurons, shedding light on new therapeutic targets for antiviral-induced neuropathic pain.

Published

2021

11. A New Model of Sensorial Neuron-Like Cells for HTS of Novel Analgesics for Neuropathic Pain

Author

Xavier Monroy, Antón L. Martínez, José Brea, Javier Burgueño, Manuel Merlos, and María Isabel Loza

Subjects

0301 basic medicine, Neurite, Cellular differentiation, Pharmacology, Tropomyosin receptor kinase A, Models, Biological, Biochemistry, Calcium in biology, Cell Line, Potassium Chloride, Analytical Chemistry, Chemical library, Inhibitory Concentration 50, 03 medical and health sciences, chemistry.chemical_compound, Adenosine Triphosphate, 0302 clinical medicine, Ganglia, Spinal, medicine, Animals, Humans, Neurons, Analgesics, Chemistry, Cell Differentiation, High-Throughput Screening Assays, 030104 developmental biology, medicine.anatomical_structure, Cell culture, Neuropathic pain, Neuralgia, Molecular Medicine, Neuron, 030217 neurology & neurosurgery, Biotechnology

Abstract

In this study we developed a new translational phenotypic in vitro model for high-throughput screening (HTS) of novel analgesics for treating neuropathic pain, in order to address the poor translation of traditional recombinant models. The immortalized dorsal root ganglia (DRG) neuron-like F11 cell line was selected based on its phenotype after differentiation. The acquisition of neuronal characteristics was evaluated by measuring the expression of TrkA as a DRG neuron marker ( p < 0.01) as well as by measuring the global neurite length ( p < 0.001). The response of F11 cells to ATP and KCl was obtained by measuring intracellular calcium concentration, dynamic mass redistribution, and membrane potential. A KCl-induced increase of intracellular calcium levels was chosen as the readout because of the better signal quality, higher reproducibility, and greater compatibility with HTS assay requirements compared with other methods. The response to KCl differed significantly between differentiated and undifferentiated cells ( p < 0.05), with an EC50 value of 5 mM in differentiated cells. The model was validated by screening the Prestwick Chemical Library. Five hits already proposed for neuropathic-related pain were identified, with IC50 values between 1 and 7 µM. This cell model provides a new tool for screening novel analgesics for the relief of neuropathic pain.

Published

2019

12. Development of a novel in vitro assay to screen for neuroprotective drugs against iatrogenic neurite shortening

Author

Javier Burgueño, Manuel Merlos, María Isabel Loza, Antón L. Martínez, Mateo Barro, Xavier Monroy, and José Brea

Subjects

Iatrogenic Disease, Pregabalin, Drug Evaluation, Preclinical, Pharmacology, Biochemistry, Nitrendipine, Animal Cells, Ganglia, Spinal, Medicine and Health Sciences, Melatonin, Neurons, Analgesics, Multidisciplinary, Voltage-dependent calcium channel, Thioctic Acid, Antimicrobials, Pharmaceutics, Drugs, Cell Differentiation, Antivirals, Neuroprotective Agents, Vincristine, Neuropathic pain, Medicine, Cellular Types, medicine.drug, Research Article, Neurite, medicine.drug_class, Science, Pain, Neuroprotection, Microbiology, Cell Line, Signs and Symptoms, Drug Therapy, Microbial Control, Virology, medicine, Neurites, Humans, Neuropathic Pain, business.industry, Rilpivirine, Biology and Life Sciences, Cell Biology, Neuronal Dendrites, Hormones, Felodipine, Cellular Neuroscience, Neuralgia, Antiviral drug, Clinical Medicine, business, Neuroprotectives, Neuroscience, Developmental Biology

Abstract

This work tries to help overcome the lack of relevant translational screening assays, as a limitation for the identification of novel analgesics for neuropathic pain. Hyperexcitability and neurite shortening are common adverse effects of antiviral and antitumor drugs, leading to neuropathic pain. Now, as seen in the drug screening that we developed here, a high-content microscopy-based assay with immortalized dorsal root ganglia (DRG) neurons (differentiated F11 cells) allowed to identify drugs able to protect against the iatrogenic neurite shortening induced by the antitumor drug vincristine and the antiviral drug rilpivirine. We observed that vincristine and rilpivirine induced a significant reduction in the neurite length, which was reverted by α-lipoic acid. We had also evidenced protective effects of pregabalin and melatonin, acting through the α2δ-2 subunit of the voltage-dependent calcium channels and the MT1receptor, respectively. Additionally, two hits originated from a previous primary screening aimed to detect inhibitors of hyperexcitability to inflammatory mediators in DRG neurons (nitrendipine and felodipine) also prevented neurite shortening in our model. In summary, in this work we developed a novel secondary assay for identifying hits with neuroprotective effect against iatrogenic neurite shortening, consistent with the anti-hyperexcitability action previously tested: highlighting nitrendipine and felodipine against iatrogenic damage in DRG neurons.

Published

2021

13. Outside-in regulation of the readily releasable pool of synaptic vesicles by α2δ-1

Author

Xavier Monroy, Manuel Merlos, Pablo Martínez San Segundo, Javier Burgueño, Beatrice Terni, Albert Dordal, and Artur Llobet

Subjects

0301 basic medicine, Calcium Channels, L-Type, Population, Pregabalin, chemistry.chemical_element, Calcium, Neurotransmission, Biochemistry, Synaptic vesicle, Synaptic Transmission, Rats, Sprague-Dawley, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Postsynaptic potential, Genetics, Animals, education, Molecular Biology, Glycoproteins, education.field_of_study, Voltage-dependent calcium channel, Chemistry, Neuropeptides, Cell biology, Rats, 030104 developmental biology, Ectodomain, Gene Knockdown Techniques, Synaptic Vesicles, 030217 neurology & neurosurgery, Biotechnology, Gabapentinoid

Abstract

The readily releasable pool (RRP) of synaptic vesicles is a key determinant of phasic neurotransmission. Although the size of the RRP is tightly regulated by intracellular factors, there is little evidence for its modification by extracellular signals. By studying the homogeneous population of synapses present in autaptic microcultures, we show that pregabalin, a prototypical gabapentinoid, decreases the effective RRP size. Simultaneous imaging of presynaptic calcium influx and recording of postsynaptic responses shows that the effect is not related to a reduction of calcium entry. The main cause is the impairment of the functional coupling among N-type calcium channels and the RRP, resembling an increase of intracellular mobile calcium buffers. The ectodomain of neurexin-1α shows a similar action to pregabalin, acting as an endogenous ligand of α2δ-1 that reduces the RRP size without affecting presynaptic calcium influx. The regulatory actions described for pregabalin and the ectodomain of neurexin-1α are mutually exclusive. The overexpression of α2δ-1 enhances the effect of pregabalin and the ectodomain of neurexin-1α on neurotransmission by decreasing their effective concentration. In contrast, knockdown of α2δ-1 causes a profound inhibition of synaptic transmission. These observations prompt to consider α2δ-1 as an outside-in signaling platform that binds exogenous and endogenous cues for regulating the coupling of voltage-gated calcium channels to synaptic vesicles.

Published

2019

14. Synthesis and Structure–Activity Relationship Study of a New Series of Selective σ1 Receptor Ligands for the Treatment of Pain: 4-Aminotriazoles

Author

Ariadna Fernández, Javier Burgueño, Inés Álvarez, Antoni Torrens, José Miguel Vela, Jose-Luis Diaz, Adriana Port, Carmen Almansa, Xavier Monroy, Ute Christmann, Ariadna Balada, Rosalia Pascual, and Ana Montero

Subjects

Male, Morpholines, Guinea Pigs, Drug Evaluation, Preclinical, Nociceptive Pain, Mice, Radioligand Assay, Structure-Activity Relationship, Drug Discovery, Animals, Humans, Receptors, sigma, Structure–activity relationship, Potency, Analgesics, Molecular Structure, Chemistry, Cell Membrane, Antagonist, Brain, Biological activity, Triazoles, Combinatorial chemistry, Ether-A-Go-Go Potassium Channels, HEK293 Cells, Lipophilicity, Click chemistry, Molecular Medicine, Amine gas treating, Selectivity

Abstract

The synthesis and pharmacological activity of a new series of 4-aminotriazoles as potent σ1 receptor (σ1R) ligands are reported. The compounds were prepared using a 4-5-step process, involving as a key step a click chemistry reaction between ynamides and azides. The most active compounds exhibited nanomolar potency for the σ1R, and the selectivity over the σ2R was improved on decreasing the central amine basicity. It was concluded that in order to achieve good σ1R potency a minimum lipophilicity was required, while limiting to a defined range of cLogP avoided human ether-a-go-go-related gene channel inhibition. This made the most interesting derivatives to be concentrated in a narrow margin of lipophilicity. Among them, compound 13g exhibited the most potent in vivo antinociceptive properties, which are indicative of its antagonist character.

Published

2015

15. A Complementary Scale of Biased Agonism for Agonists with Differing Maximal Responses

Author

Manuel Merlos, Xavier Monroy, Jesús Giraldo, David Roche, María J. Varela, Javier Burgueño, and Marta Pujol

Subjects

0301 basic medicine, Scale (ratio), lcsh:Medicine, CHO Cells, Transduction (psychology), Ligands, Models, Biological, Article, Receptors, G-Protein-Coupled, 03 medical and health sciences, Cricetulus, Functional selectivity, Animals, Humans, Agonism, Statistical physics, lcsh:Science, Mathematics, Complement (set theory), Multidisciplinary, lcsh:R, Experimental Bias, Single parameter, Function (mathematics), 030104 developmental biology, lcsh:Q, Signal Transduction

Abstract

Compelling data in the literature from the recent years leave no doubt about the pluridimensional nature of G protein-coupled receptor function and the fact that some ligands can couple with different efficacies to the multiple pathways that a receptor can signal through, a phenomenon most commonly known as functional selectivity or biased agonism. Nowadays, transduction coefficients (log(τ/KA)), based on the Black and Leff operational model of agonism, are widely used to calculate bias. Nevertheless, combining both affinity and efficacy in a single parameter can result in compounds showing a defined calculated bias of one pathway over other though displaying varying experimental bias preferences. In this paper, we present a novel scale (log(τ)), that attempts to give extra substance to different compound profiles in order to better classify compounds and quantify their bias. The efficacy-driven log(τ) scale is not proposed as an alternative to the affinity&efficacy-driven log(τ/KA) scale but as a complement in those situations where partial agonism is present. Both theoretical and practical approaches using μ-opioid receptor agonists are presented.

Published

2017

16. Pharmacological Modulation of the Sigma 1 Receptor and the Treatment of Pain

Author

Manuel, Merlos, Javier, Burgueño, Enrique, Portillo-Salido, Carlos Ramón, Plata-Salamán, and José Miguel, Vela

Subjects

Analgesics, Animals, Humans, Neuralgia, Receptors, sigma

Abstract

There is a critical need for new analgesics acting through new mechanisms of action, which could increase the efficacy with respect to existing therapies and reduce their unwanted effects. Current preclinical evidence supports the modulatory role of sigma-1 receptors (σ

Published

2017

17. Pharmacological Modulation of the Sigma 1 Receptor and the Treatment of Pain

Author

Manuel Merlos, José Miguel Vela, Javier Burgueño, Carlos R. Plata-Salamán, and Enrique Portillo-Salido

Subjects

0301 basic medicine, Sigma-1 receptor, business.industry, Chronic pain, Nerve injury, medicine.disease, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Nociception, Opioid, Neuropathic pain, Noxious stimulus, Medicine, medicine.symptom, business, Receptor, Neuroscience, 030217 neurology & neurosurgery, medicine.drug

Abstract

There is a critical need for new analgesics acting through new mechanisms of action, which could increase the efficacy with respect to existing therapies and reduce their unwanted effects. Current preclinical evidence supports the modulatory role of sigma-1 receptors (σ1R) in nociception, mainly based on the pain-attenuated phenotype of σ1R knockout mice and on the antinociceptive effect exerted by σ1R antagonists on pains of different etiologies. σ1R is highly expressed in different pain areas of the CNS and the periphery (particularly dorsal root ganglia), and interacts and modulates the functionality of different receptors and ion channels. The antagonism of σ1R leads to decreased amplification of pain signaling within the spinal cord (central sensitization), but recent data also support a role at the periphery. σ1R antagonists have consistently demonstrated efficacy in neuropathic pain, but also in other types of pain including inflammatory, orofacial, visceral, and post-operative pain. Apart from acting alone, when combined with opioids, σ1R antagonists enhance opioid analgesia but not opioid-induced unwanted effects. Interestingly, unlike opioids, σ1R antagonists do not modify normal sensory mechanical and thermal sensitivity thresholds but they exert antihypersensitive effects in sensitizing conditions, enabling the reversal of nociceptive thresholds back to normal values. Accordingly, σ1R antagonists are not strictly analgesics; they are antiallodynic and antihyperalgesic drugs acting when the system is sensitized following prolonged noxious stimulation or persistent abnormal afferent input (e.g., secondary to nerve injury). These are distinctive features allowing σ1R antagonists to exert a modulatory effect specifically in pathophysiological conditions such as chronic pain.

Published

2017

18. Exploring Drug-Receptor Interaction Kinetics: Lessons from a Sigma-1 Receptor Transmembrane Biosensor

Author

Javier Burgueño, Francisco Ciruela, Víctor Fernández-Dueñas, and Universitat de Barcelona

Subjects

0301 basic medicine, Pharmacology, Opinion, crystal structure, Sigma-1 receptor, Chemistry, Kinetics, Drug receptors, σ1 receptor, plasma membrane, Transmembrane protein, Cell membranes, 03 medical and health sciences, 030104 developmental biology, Förster resonance energy transfer, cell surface, Receptors de medicaments, Cell surface receptor, Biophysics, FRET, Drug receptor, Pharmacology (medical), Receptor, Membranes cel·lulars, Biosensor

Abstract

An important field of study in pharmacology comprises the investigation of drug-target interaction kinetics. Thus, assessing both the lifetime of a drug on its receptor (i.e., drug-target residence time; Copeland, 2016) and the magnitude of drug-mediated receptor activation (i.e., drug efficacy) across the time are critical to understand in vivo pharmacological activity of small-molecule drugs. Of note, while classical in vitro methods view drug-receptor interaction in terms of equilibrium affinity, the residence time model considers the dynamics of receptor conformational rearrangements, which affect drug association and dissociation. Although, classical binding experiments can also address kinetics questions, they are tedious and very time consuming. Accordingly, monitoring drug-receptor interaction dynamics by means of receptor biosensors has become fundamental for understanding how drugs trigger receptor activity over the time. Precisely, in the last years, a number of Fluorescence Resonance Energy Transfer (FRET)-based assays have been developed to accurately display drug-receptor interaction in real time (Lohse et al., 2012). Indeed, one of the most outstanding methods consists of assessing intramolecular conformational rearrangements upon receptor challenge by monitoring intramolecular FRET changes (Vilardaga et al., 2009). Thus, a FRET-based receptor biosensor is built by fusing both donor and acceptor fluorophores to the receptor sequence (Vilardaga et al., 2009). Importantly, a general consensus has prompted to basically attach these molecules (i.e., cyan and yellow fluorescent proteins, CFP and YFP, respectively) intracellularly, this is, in the cytosolic side of the receptor's structure (Figure ​(Figure1A).1A). Accordingly, when the receptor is activated and a conformational rearrangement occurs the distance and/or orientation of the fluorophores within the receptor biosensor changes and it is possible to monitor FRET changes in real time, thus permitting to finely characterize receptor's activation. Needless to say, although precision is higher than that obtained in classical binding assays, the present biosensors cannot discern between receptors expressed at the cell surface or intracellularly, thus much effort is needed in order to exactly elucidate ligand-receptor kinetics constants.

Published

2017

19. The calcium-sensitive Sigma-1 receptor prevents cannabinoids from provoking glutamate NMDA receptor hypofunction: implications in antinociception and psychotic diseases

Author

Javier Garzón, Daniel Zamanillo, María Rodríguez-Muñoz, Pilar Sánchez-Blázquez, Raquel Herrero-Labrador, and Javier Burgueño

Subjects

Male, Nociception, Psychosis, Cannabinoid receptor, medicine.medical_treatment, Glutamic Acid, Nerve Tissue Proteins, CHO Cells, Pharmacology, Receptors, N-Methyl-D-Aspartate, Neuroprotection, Cricetulus, Receptor, Cannabinoid, CB1, mental disorders, Cannabinoid receptor type 1, medicine, Animals, Receptors, sigma, Pharmacology (medical), Cells, Cultured, Cerebral Cortex, Mice, Knockout, Sigma-1 receptor, Cannabinoids, musculoskeletal, neural, and ocular physiology, medicine.disease, Endocannabinoid system, Psychiatry and Mental health, Psychotic Disorders, nervous system, Schizophrenia, NMDA receptor, Cannabinoid, Psychology, Neuroscience, psychological phenomena and processes

Abstract

Through the cannabinoid receptor 1 (CB1), the endocannabinoid system plays a physiological role in maintaining the activity of glutamate N-methyl-D-aspartate (NMDA) receptor within harmless limits. The influence of cannabinoids must be proportional to the stimulus in order to prevent NMDAR overactivation or exaggerated hypofunction that may precipitate symptoms of psychosis. In this framework, the recently reported association of CB1s with NMDARs, which mediates the reduction of cannabinoid analgesia promoted by NMDAR antagonism, could also support the precipitation of schizophrenia brought about by the abuse of smoked cannabis, mostly among vulnerable individuals. Accordingly, we have investigated this possibility using neuroprotection and analgesia as reporters of the CB1-NMDAR connection. We found that the Sigma 1 receptor (σ1R) acts as a safety switch, releasing NMDARs from the influence of CB1s and thereby avoiding glutamate hypofunction. In σ1R(-/-) mice the activity of NMDARs increases and cannot be regulated by cannabinoids, and NMDAR antagonism produces no effect on cannabinoid analgesia. In wild-type mice, ligands of the σ1R did not affect the CB1-NMDAR regulatory association, however, experimental NMDAR hypofunction enabled σ1R antagonists to release NMDARs from the negative control of CB1s. Of the σ1R antagonists tested, their order of activity was: S1RA > BD1047 ≫ NE100 = BD1063, although SKF10047, PRE-084 and (+)pentazocine were inactive yet able to abolish the effect of S1RA in this paradigm. Thus, the σ1R controls the extent of CB1-NMDAR interaction and its failure might constitute a vulnerability factor for cannabis abuse, potentially precipitating schizophrenia that might otherwise be induced later in time by the endogenous system.

Published

2014

20. Pharmacological properties of S1RA, a new sigma-1 receptor antagonist that inhibits neuropathic pain and activity-induced spinal sensitization

Author

R. Sánchez-Arroyos, Rafael Maldonado, M. Laloya, C. Segalés, Jesús Giraldo, E Hernández, Daniel Zamanillo, Ana Montero, A. S. Bura, Javier Burgueño, Carlos R. Plata-Salamán, Xavier Nadal, M Escriche, José M. Baeyens, Enrique Portillo-Salido, Luz Romero, Ivan Rivera-Arconada, Asunción Muro, Xavier Codony, J.A. Lopez-Garcia, José Miguel Vela, G Encina, Manuel Merlos, and Alberto Dordal

Subjects

Pharmacology, Sigma-1 receptor, Chemistry, medicine.drug_class, Antagonist, Stimulation, Receptor antagonist, Nociception, medicine.anatomical_structure, Neuropathic pain, medicine, Receptor, Sensitization

Abstract

BACKGROUND AND PURPOSE The sigma-1 (σ(1) ) receptor is a ligand-regulated molecular chaperone that has been involved in pain, but there is limited understanding of the actions associated with its pharmacological modulation. Indeed, the selectivity and pharmacological properties of σ(1) receptor ligands used as pharmacological tools are unclear and the demonstration that σ(1) receptor antagonists have efficacy in reversing central sensitization-related pain sensitivity is still missing. EXPERIMENTAL APPROACH The pharmacological properties of a novel σ(1) receptor antagonist (S1RA) were first characterized. S1RA was then used to investigate the effect of pharmacological antagonism of σ(1) receptors on in vivo nociception in sensitizing conditions and on in vitro spinal cord sensitization in mice. Drug levels and autoradiographic, ex vivo binding for σ(1) receptor occupancy were measured to substantiate behavioural data. KEY RESULTS Formalin-induced nociception (both phases), capsaicin-induced mechanical hypersensitivity and sciatic nerve injury-induced mechanical and thermal hypersensitivity were dose-dependently inhibited by systemic administration of S1RA. Occupancy of σ(1) receptors in the CNS was significantly correlated with the antinociceptive effects. No pharmacodynamic tolerance to the antiallodynic and antihyperalgesic effect developed following repeated administration of S1RA to nerve-injured mice. As a mechanistic correlate, electrophysiological recordings demonstrated that pharmacological antagonism of σ(1) receptors attenuated the wind-up responses in spinal cords sensitized by repetitive nociceptive stimulation. CONCLUSIONS AND IMPLICATIONS These findings contribute to evidence identifying the σ(1) receptor as a modulator of activity-induced spinal sensitization and pain hypersensitivity, and suggest σ(1) receptor antagonists as potential novel treatments for neuropathic pain.

Published

2012

21. E-6801, a 5-HT6 receptor agonist, improves recognition memory by combined modulation of cholinergic and glutamatergic neurotransmission in the rat

Author

Helge A. Slotten, José Miguel Vela, Javier Burgueño, Kevin C. F. Fone, Ian Kendall, Xavier Codony, and Peter J. Pauwels

Subjects

Male, Agonist, Indoles, medicine.drug_class, Neurotransmission, Pharmacology, Receptors, N-Methyl-D-Aspartate, E-6801, chemistry.chemical_compound, Glutamatergic, Memory, medicine, Animals, Receptors, Cholinergic, Receptor, Recognition memory, Sulfonamides, Dose-Response Relationship, Drug, Rats, Serotonin Receptor Agonists, Thiazoles, chemistry, Receptors, Serotonin, 5-HT6 receptor, Cholinergic, Serotonin Antagonists, Psychology, Neuroscience

Abstract

In rats, 5-hydroxytryptamine(6) (5-HT(6)) receptor antagonists improve learning and memory, but the effects of agonists are poorly defined. This study investigated the effects of 5-HT(6) receptor agonists and antagonists on a rodent model of recognition memory.Selective 5-HT(6) receptor agonists and antagonists were administered either alone, after a scopolamine-induced impairment, or combined with sub-effective doses of the acetylcholinesterase inhibitor, donepezil, or the glutamate NMDA receptor antagonist, memantine, in a novel object discrimination paradigm in adult rats.After a 4-h inter-trial delay to induce natural forgetting, vehicle-treated rats spent an equivalent time exploring novel and familiar objects during the choice trial. The 5-HT(6) receptor agonists, E-6801 (1.25-10 mg/kg i.p.) and EMD-386088 (5-10 mg/kg i.p.), and antagonists, SB-271046 and Ro 04-6790 (5 and 10 mg/kg), along with donepezil (0.1-3 mg/kg) and memantine (5-20 mg/kg) all produced significant and mostly dose-dependent increases in novel object exploration, indicative of memory enhancement. Furthermore, sub-effective doses of E-6801 (1 mg/kg) when co-administered with either SB-271046 (3 mg/kg), donepezil (0.1 mg/kg) or memantine (5 mg/kg), and EMD-386088 (2 mg/kg) co-administered with SB-271046 (3 mg/kg) also significantly enhanced object-recognition memory. Additionally, using a 1-min inter-trial delay, E-6801 (2.5 and 5 mg/kg) was as effective as donepezil (0.3 and 1 mg/kg) in reversing a scopolamine-induced (0.5 mg/kg) impairment in object recognition.This is the first study to demonstrate that E-6801, a potent 5-HT(6) receptor agonist, improves recognition memory by combined modulation of cholinergic and glutamatergic neurotransmission.

Published

2010

22. Phe369(7.38) at human 5-HT7 receptors confers interspecies selectivity to antagonists and partial agonists

Author

Javier Burgueño, François Dauphin, Frédéric Fabis, Alban Lepailleur, Jordi Rodrigo, José Miguel Vela, Thibault Varin, María Isabel Loza, Hugo Gutiérrez-de-Terán, José Brea, Pilar Pérez, Marián Castro, and Johan Åqvist

Subjects

Pharmacology, 0303 health sciences, Stereochemistry, Mutagenesis, Plasma protein binding, Biology, Partial agonist, 03 medical and health sciences, 0302 clinical medicine, Serotonin Antagonists, Binding site, Site-directed mutagenesis, Receptor, 030217 neurology & neurosurgery, 030304 developmental biology, G protein-coupled receptor

Abstract

Background and purpose: Human and rat 5-HT 7 receptors were studied with a particular emphasis on the molecular interactions involved in ligand binding, searching for an explanation to the interspecies selectivity observed for a set of compounds. We performed affinity studies, molecular modelling and site-directed mutagenesis, with special focus on residue Phe(7.38) of the human 5-HT 7 receptor [Cys(7.38) in rat]. Experimental approach: Competition binding studies were performed for seven 5-HT 7 receptor ligands at three different 5-HT 7 receptors. The functional behaviour was evaluated by measuring 5-carboxytryptamine-stimulated cAMP production. Computational simulations were carried out to explore the structural bases in ligand binding observed for these compounds. Key results: Competition experiments showed a remarkable selectivity for the human receptor when compared with the rat receptor. These results indicate that mutating Cys to Phe at position 7.38 profoundly affects the binding affinities at the 5-HT 7 receptor. Computational simulations provide a structural interpretation for this key finding. Pharmacological characterization of compounds mr25020, mr25040 and mr25053 revealed a competitive antagonistic behaviour. Compounds mr22423, mr22433, mr23284 and mr25052 behaved as partial agonists. Conclusions and implications: We propose that the interspecies difference in binding affinities observed for the compounds at human and rat 5-HT 7 receptors is due to the nature of the residue at position 7.38. Our molecular modelling simulations suggest that Phe(7.38) in the human receptor is integrated in the hydrophobic pocket in the central part of the binding site [Phe(6.51)-Phe(6.52)] and allows a tighter binding of the ligands when compared with the rat receptor. © 2009 The Authors.

Published

2009

23. 5-HT7 receptor activation inhibits mechanical hypersensitivity secondary to capsaicin sensitization in mice

Author

Luz Romero, Antoni Torrens, Mónica García, Marta Pujol, José M. Baeyens, Alex Brenchat, José Miguel Vela, Helmut Buschmann, Michel Hamon, Javier Burgueño, and Daniel Zamanillo

Subjects

Male, Pain Threshold, Agonist, medicine.medical_specialty, medicine.drug_class, TRPV1, Partial agonist, 5-HT7 receptor, δ-opioid receptor, Mice, Serotonin Agents, Internal medicine, Dopamine receptor D2, Cyclic AMP, Reaction Time, medicine, Animals, Humans, Drug Interactions, Cell Line, Transformed, Pain Measurement, Dose-Response Relationship, Drug, Chemistry, Receptor antagonist, Anesthesiology and Pain Medicine, Endocrinology, Neurology, Hyperalgesia, Competitive antagonist, Receptors, Serotonin, Pyrazoles, Neurology (clinical), Capsaicin, Protein Binding

Abstract

This work aimed to evaluate the potential role of the 5-HT(7) receptor in nociception secondary to a sensitizing stimulus in mice. For this purpose, the effects of relevant ligands (5-HT(7) receptor agonists: AS-19, MSD-5a, E-55888; 5-HT(7) receptor antagonists: SB-258719, SB-269970; 5-HT(1A) receptor agonist: F-13640; 5-HT(1A) receptor antagonist: WAY-100635) were assessed on capsaicin-induced mechanical hypersensitivity, a pain behavior involving hypersensitivity of dorsal horn neurons (central sensitization). For the 5-HT(7) receptor agonists used, binding profile and intrinsic efficacy to stimulate cAMP formation in HEK-293F cells expressing the human 5-HT(7) receptor were also evaluated. AS-19 and E-55888 were selective for 5-HT(7) receptors. E-55888 was a full agonist whereas AS-19 and MSD-5a behaved as partial agonists, with maximal effects corresponding to 77% and 61%, respectively, of the cAMP response evoked by the full agonist 5-HT. Our in vivo results revealed that systemic administration of 5-HT(7) receptor agonists exerted a clear-cut dose-dependent antinociceptive effect that was prevented by 5-HT(7) receptor antagonists, but not by the 5-HT(1A) receptor antagonist. The order of efficacy (E-55888>AS-19>MSD-5a) matched their in vitro efficacy as 5-HT(7) receptor agonists. Contrary to agonists, a dose-dependent promotion of mechanical hypersensitivity was observed after administration of 5-HT(7) receptor antagonists, substantiating the involvement of the 5-HT(7) receptor in the control of capsaicin-induced mechanical hypersensitivity. These findings suggest that serotonin exerts an inhibitory role in the control of nociception through activation of 5-HT(7) receptors, and point to a new potential therapeutic use of 5-HT(7) receptor agonists in the field of analgesia.

Published

2009

24. Heptaspanning Membrane Receptors and Cytoskeletal/Scaffolding Proteins: Focus on Adenosine, Dopamine, and Metabotropic Glutamate Receptor Function

Author

Antonio Cortés, Amina S. Woods, Josefa Mallol, Laia Canela, Javier Burgueño, Carmen Lluis, Ana Soriguera, Enric I. Canela, Sergi Ferré, Nuria Cabello, Francisco Ciruela, Vicent Casadó, and Rafael Franco

Subjects

Models, Molecular, Macromolecular Substances, Metabotropic glutamate receptor 7, PDZ domain, Receptors, Purinergic P1, Metabotropic glutamate receptor 6, Class C GPCR, General Medicine, Biology, Receptors, Metabotropic Glutamate, Rhodopsin-like receptors, Receptors, Dopamine, Receptors, G-Protein-Coupled, Cell biology, Cellular and Molecular Neuroscience, Metabotropic glutamate receptor, Animals, Humans, Metabotropic glutamate receptor 1, Neuroscience, G protein-coupled receptor

Abstract

Most cellular functions are mediated by multiprotein complexes. In neurons, these complexes are directly involved in the proper neuronal transmission, which is responsible for phenomena like learning, memory, and development. In recent years studies based on two-hybrid screens and proteomic, biochemical, and cell biology approaches have shown that intracellular domains of G protein-coupled receptors (GPCRs) or heptaspanning membrane receptors (HSMRs) interact with intracellular proteins. These interactions are the basis of a protein network associated with these receptors, which includes scaffolding proteins containing one or several PDZ (post-synaptic-density-95/discs-large/zona occludens-1) domains, signaling proteins, and proteins of the cytoskeleton. The present article is focused on the emerging evidence for interactions of adenosine, dopamine, and metabotropic glutamate receptors, with scaffolding and cytoskeletal proteins that play a role in the targeting and anchoring of these receptors to the plasma membrane, thus contributing to neuronal development and plasticity. Finally, given the complexity of neurological disorders such as ischemic stroke, Alzheimer’s disease, and epilepsy, exploitation of these HSMR-associated interactions might prove to be efficient in the treatment of such disorders.

Published

2005

25. Mutual regulation between metabotropic glutamate type 1α receptor and caveolin proteins: from traffick to constitutive activity

Author

Rafael Franco, Carmen Lluis, Francisco Ciruela, Javier Burgueño, Josefa Mallol, and Enric I. Canela

Subjects

Feedback, Physiological, Caveolin 2, Liver receptor homolog-1, Caveolin 1, B-cell receptor, Glutamic Acid, Intracellular Membranes, Cell Biology, Biology, Caveolae, Lipid Metabolism, Receptors, Metabotropic Glutamate, Caveolins, Microtubules, Cell Line, Cell biology, Protein Transport, Neurotransmitter receptor, Humans, Protein Isoforms, 5-HT5A receptor, Nuclear receptor co-repressor 1, Protease-activated receptor 2, Insulin-like growth factor 1 receptor

Abstract

In this paper, a molecular and functional interaction between metabotropic glutamate receptor type 1alpha (mGlu1alpha receptor) and caveolin-1 or caveolin-2beta is described. An overlapping pattern of staining for mGlu1alpha receptor with caveolin-1 and caveolin-2 by confocal laser microscopy in transiently transfected HEK-293 cells is observed. The presence of mGlu1alpha receptor in caveolin-enriched membrane fractions was demonstrated by flotation gradient analysis in the absence of detergents and the interaction between mGlu1alpha receptor with caveolin-1 and with caveolin-2beta was demonstrated by coimmunoprecipitation experiments. In HEK-293 cells, caveolin-2beta accumulates surrounding lipid droplets when single expressed but coexpression with mGlu1alpha receptor changed dramatically the subcellular localization of caveolin-2beta, directing it from lipid droplets to the cell surface. At the membrane level, the interaction between caveolin-1 and mGlu1alpha receptor could abrogate the constitutive activity exhibited by mGlu1alpha receptor. Overall, these results show that mGlu1alpha receptor interacts with caveolins and that this interaction is physiologically relevant for receptor function. Interestingly, we provide evidence that caveolin-1 is not just acting as a scaffolding protein for the mGlu1alpha receptor but that also regulates mGlu1alpha receptor constitutive activity.

Published

2004

26. Combining Mass Spectrometry and Pull-Down Techniques for the Study of Receptor Heteromerization. Direct Epitope−Epitope Electrostatic Interactions between Adenosine A2A and Dopamine D2 Receptors

Author

Francisco Ciruela, Kjell Fuxe, Amina S. Woods, Javier Burgueño, Luigi F. Agnati, Steven R. Goldberg, Rafael Franco, Meritxell Canals, Sergi Ferré, Carmen Lluis, Daniel Marcellino, Vicent Casadó, and Michael Bader

Subjects

Receptor, Adenosine A2A, Static Electricity, Adenosine A2A receptor, Peptide, A(2A) receptor, Mass Spectrometry, Epitope, Cell Line, Analytical Chemistry, Sepharose, Epitopes, D-2 receptor, mass spectrometry, heteromerization, Dopamine receptor D2, Humans, Amino Acid Sequence, Binding site, Receptor, Peptide sequence, chemistry.chemical_classification, Binding Sites, Receptors, Dopamine D2, Biochemistry, chemistry, Biophysics, Dimerization, Protein Binding

Abstract

Previous results from FRET and BRET experiments and computational analysis (docking simulations) have suggested that a portion of the third intracellular loop (I3) of the human dopamine D2 receptor (D2R) and the C-tail from the human adenosine A2A receptor (A2AR) are involved in A2AR-D2R heteromerization. The results of the present studies, using pull-down and mass spectrometry experiments, suggest that A2AR-D2R heteromerization depends on an electrostatic interaction between an Arg-rich epitope from the I3 of the D2R (217RRRRKR222) and two adjacent Asp residues (DD401-402) or a phosphorylated Ser (S374) residue in the C-tail of the A2AR. A GST-fusion protein containing the C-terminal domain of the A2AR (GST-A2ACT) was able to pull down the whole D2R solubilized from D2R-tranfected HEK-293 cells. Second, a peptide corresponding to the Arg-rich I3 region of the D2R (215VLRRRRKRVN224) and bound to Sepharose was able to pull down both GST-A2ACT and the whole A2AR solubilized from A2AR-tranfected HEK-293 cells. Finally, mass spectometry and pull-down data showed that the Arg-rich D2R epitope binds to two different epitopes from the C-terminal part of the A2AR, containing the two adjacent Asp residues or the phosphorylated Ser residue (388HELKGVCPEPPGLDDPLAQDGAVGS412 and 370SAQEpSQGNT378). The present results are the first example of epitope-epitope electrostatic interaction underlying receptor heteromerization, a new, expanding area of protein-protein interactions.

Published

2004

27. Homodimerization of adenosine A2A receptors: qualitative and quantitative assessment by fluorescence and bioluminescence energy transfer

Author

Kjell Fuxe, Michel Bouvier, Rafael Franco, Daniel Marcellino, Francisco Ciruela, Luigi F. Agnati, Enric I. Canela, Sergi Ferré, Meritxell Canals, Javier Burgueño, Josefa Mallol, Carmen Lluis, and Nuria Cabello

Subjects

Cellular and Molecular Neuroscience, Förster resonance energy transfer, Biochemistry, G protein, Dopamine receptor, Cell surface receptor, Chemistry, Dopamine receptor D2, Biophysics, Adenosine A2A receptor, Receptor, G protein-coupled receptor

Abstract

The results presented in this paper show that adenosine A2A receptor (A2AR) form homodimers and that homodimers but not monomers are the functional species at the cell surface. Fluorescence resonance energy transfer (FRET) and bioluminescence resonance energy transfer (BRET) techniques have been used to demonstrate in transfected HEK293 cells homodimerization of A2AR, which are heptaspanning membrane receptors with enriched expression in striatum. The existence of homodimers at the cell surface was demonstrated by time-resolved FRET. Although agonist activation of the receptor leads to the formation of receptor clusters, it did not affect the degree of A2AR–A2AR dimerization. Both monomers and dimers were detected by immunoblotting in cell extracts. However, cell surface biotinylation of proteins has made evident that more than 90% of the cell surface receptor is in its dimeric form. Thus, it seems that homodimers are the functional form of the receptor present on the plasma membrane. A deletion mutant version of the A2A receptor, lacking its C-terminal domain, was also able to form both monomeric and dimeric species when cell extracts from transfected cells were analyzed by immunoblotting. This suggests that the C-terminal tail does not participate in the dimerization. This is relevant as the C-terminal tail of A2AR is involved in heteromers formed by A2AR and dopamine D2 receptors. BRET ratios corresponding to A2AR–A2AR homodimers were higher than those encountered for heterodimers formed by A2AR and dopamine D2 receptors. As A2AR and dopamine D2 receptors do indeed interact, these results indicate that A2AR homodimers are the functional species at the cell surface and that they coexist with A2AR/D2 receptor heterodimers.

Published

2003

28. The Adenosine A2A Receptor Interacts with the Actin-binding Protein α-Actinin

Author

Enric I. Canela, Rafael Franco, Carmen Lluis, Matthew A. Benson, Christopher T. Esapa, Josefa Mallol, Caroline L. Tinsley, Francisco Ciruela, Javier Burgueño, Derek J. Blake, Federico Mayor, Petronila Penela, and Universitat de Barcelona

Subjects

Cytochalasin D, Adenosine, Receptor, Adenosine A2A, Adenosina, B-cell receptor, Arp2/3 complex, macromolecular substances, Transfection, Receptors, N-Methyl-D-Aspartate, Biochemistry, Rats, Sprague-Dawley, Two-Hybrid System Techniques, Enzyme-linked receptor, Animals, Humans, Actinin, 5-HT5A receptor, Actin-binding protein, Molecular Biology, Cells, Cultured, Interacció cel·lular, biology, Proteins, Actin remodeling, Cell Biology, Actin cytoskeleton, Actins, Endocytosis, Rats, Cell biology, Cell interaction, biology.protein, Proteïnes, Adenosine A2B receptor

Abstract

Recently, evidence has emerged that heptaspanning membrane or G protein-coupled receptors may be linked to intracellular proteins identified as regulators of receptor anchoring and signaling. Using a yeast two-hybrid screen, we identified alpha-actinin, a major F-actin-cross-linking protein, as a binding partner for the C-terminal domain of the adenosine A2A receptor (A2AR). Colocalization, co-immunoprecipitation, and pull-down experiments showed a close and specific interaction between A2AR and alpha-actinin in transfected HEK-293 cells and also in rat striatal tissue. A2AR activation by agonist induced the internalization of the receptor by a process that involved rapid beta-arrestin translocation from the cytoplasm to the cell surface. In the subsequent receptor traffic from the cell surface, the role of actin organization was shown to be crucial in transiently transfected HEK-293 cells, as actin depolymerization by cytochalasin D prevented its agonist-induced internalization. A2ADeltaCTR, a mutant version of A2AR that lacks the C-terminal domain and does not interact with alpha-actinin, was not able to internalize when activated by agonist. Interestingly, A2ADeltaCTR did not show aggregation or clustering after agonist stimulation, a process readily occurring with the wild-type receptor. These findings suggest an alpha-actinin-dependent association between the actin cytoskeleton and A2AR trafficking.

Published

2003

29. Metabotropic glutamate type 1α receptor localizes in low-density caveolin-rich plasma membrane fractions

Author

Francisco Ciruela, Carlos Enrich, Rafael Franco, Josefa Mallol, Carmen Lluis, Javier Burgueño, and Enric I. Canela

Subjects

Cellular and Molecular Neuroscience, Metabotropic receptor, Metabotropic glutamate receptor, G protein, Caveolin 1, Caveolin, Biology, Signal transduction, Receptor, Biochemistry, Cell biology, G protein-coupled receptor

Abstract

Recent evidence suggest that many G protein-coupled receptors (GPCR) and signalling molecules localize in microdomains of the plasma membrane. In this study, flotation gradient analysis in the absence of detergents demonstrated the presence of the metabotropic glutamate receptor type 1α (mGlu1α) in low-density caveolin-enriched membrane fractions (CEMF) in permanently transfected BHK cells. BHK-1α cells exhibit a similar pattern of staining for caveolin-1 and caveolin-2, and these two proteins show a high degree of co-localization with mGlu1α receptor as demonstrated by immunogold and confocal laser microscopy. The presence of mGlu1α in CEMF was also demonstrated by co-immunoprecipitation of mGlu1α receptor using antibodies against caveolin proteins. Activation of the mGlu1α receptor by agonist increased extracellular signal-regulated kinases phosphorylation in CEMF and not in high-density membrane fractions (HDMF), suggesting that mGlu1α receptor-mediated signal transduction could occur in caveolae-like domains. Overall, these results clearly show a molecular and functional association of mGlu1α receptor with caveolins.

Published

2003

30. Glutamate mGlu5-Adenosine A2A-Dopamine D2 Receptor Interactions in the Striatum. Implications for Drug Therapy in Neuro-psychiatric Disorders and Drug Abuse

Author

Kjell Fuxe, Sergi Ferré, Francisco Ciruela, Bruce T. Hope, Meritxell Canals, Marzena Karcz-Kubicha, Carme Lluís, Javier Burgueño, Steven R. Goldberg, Rafael Franco, Marisela Morales, Amina S. Woods, Daniel Marcellino, Luigi F. Agnati, and Patrizia Popoli

Subjects

medicine.medical_specialty, business.industry, General Neuroscience, GHB receptor, Pharmacology, medicine.disease, Substance abuse, Neuropsychology and Physiological Psychology, Dopamine receptor D1, Dopamine receptor D3, Dopamine receptor D2, 5-HT6 receptor, Molecular Medicine, Medicine, NMDA receptor, Metabotropic glutamate receptor 2, business, Psychiatry

Published

2003

31. Synergistic interaction between adenosine A2A and glutamate mGlu5 receptors: Implications for striatal neuronal function

Author

Rafael Franco, Carme Lluís, Javier Burgueño, Steven R. Goldberg, Francisco Ciruela, Vicent Casadó, M. Angeles Gutiérrez, Bruce T. Hope, Sergi Ferré, Marzena Karcz-Kubicha, Patrizia Popoli, and Kjell Fuxe

Subjects

medicine.medical_specialty, Adenosine, Receptor, Adenosine A2A, Dopamine, Receptor, Metabotropic Glutamate 5, Adenosina, Phencyclidine, Adenosine A2A receptor, Dopamina, Motor Activity, Biology, Receptors, Metabotropic Glutamate, Neurotransmissors, Cell Line, Rats, Sprague-Dawley, Internal medicine, mental disorders, medicine, Animals, Humans, Neurons, Multidisciplinary, Metabotropic glutamate receptor 5, Adenine, Metabotropic glutamate receptor 7, Receptors, Purinergic P1, Metabotropic glutamate receptor 6, Adenina, Neurotransmitters, Biological Sciences, Purinergic signalling, Immunohistochemistry, Corpus Striatum, Rats, Cell biology, Endocrinology, Metabotropic receptor, nervous system, Metabotropic glutamate receptor, Metabotropic glutamate receptor 1, Proto-Oncogene Proteins c-fos

Abstract

The physiological meaning of the coexpression of adenosine A2A receptors and group I metabotropic glutamate receptors in γ- aminobutyric acid (GABA)ergic striatal neurons is intriguing. Here we provide in vitro and in vivo evidence for a synergism between adenosine and glutamate based on subtype 5 metabotropic glutamate (mGluR5) and adenosine A2A (A2AR) receptor/receptor interactions. Colocalization of A2AR and mGluR5 at the membrane level was demonstrated in nonpermeabilized human embryonic kidney (HEK)-293 cells transiently cotransfected with both receptors by confocal laser microscopy. Complexes containing A2AR and mGluR5 were demonstrated by Western blotting of immunoprecipitates of either Flag-A2AR or hemagglutinin-mGluR5 in membrane preparations from cotransfected HEK-293 cells and of native A2AR and mGluR5 in rat striatal membrane preparations. In cotransfected HEK-293 cells a synergistic effect on extracellular signal-regulated kinase 1/2 phosphorylation and c- fos expression was demonstrated upon A2AR/mGluR5 costimulation. No synergistic effect was observed at the second messenger level (cAMP accumulation and intracellular calcium mobilization). Accordingly, a synergistic effect on c- fos expression in striatal sections and on counteracting phencyclidine-induced motor activation was also demonstrated after the central coadministration of A2AR and mGluR5 agonists to rats with intact dopaminergic innervation. The results suggest that a functional mGluR5/A2AR interaction is required to overcome the well-known strong tonic inhibitory effect of dopamine on striatal adenosine A2AR function.

Published

2002

32. Involvement of Caveolin in Ligand-Induced Recruitment and Internalization of A1Adenosine Receptor and Adenosine Deaminase in an Epithelial Cell Line

Author

Franciso Ciruela, Carme Lluís, Javier Burgueño, Vicent Casadó, Enric I. Canela, Silvia Ginés, Rafael Franco, and Josefa Mallol

Subjects

Pharmacology, Agonist, medicine.drug_class, media_common.quotation_subject, Biology, Adenosine receptor, Adenosine, Cell biology, Adenosine deaminase, medicine, biology.protein, Molecular Medicine, Receptor, Internalization, Adenosine A2B receptor, Intracellular, medicine.drug, media_common

Abstract

Chronic exposure of A 1 adenosine receptors (A 1 R) to A 1 R agonists leads to activation, phosphorylation, desensitization, and internalization to intracellular compartments of the receptor. Desensitization and internalization of A 1 R is modulated by adenosine deaminase (ADA), an enzyme that regulates the extracellular concentration of adenosine. ADA interacts with A 1 R on the cell surface of the smooth muscle cell line DDT1 MF-2, and both proteins are internalized following agonist stimulation of the receptor. The mechanism involved in A 1 R and ADA internalization upon agonist exposure is poorly understood in epithelial cells. In this report, we show that A 1 R and ADA interact in LLC-PK 1 epithelial cells. Exposure of LLC-PK 1 cells to A 1 R agonists induces aggregation of A 1 R and ADA on the cell surface and their translocation to intracellular compartments. Biochemical and cell biology assays were used to characterize the intracellular vesicles containing both proteins after agonist treatment. A 1 R and ADA colocalized together with the rafts marker protein caveolin. Filipin, a sterol-binding agent that disrupts rafts (small microdomains of the plasma membrane), was able to inhibit A 1 R internalization. In contrast, acid treatment of the cells, which disrupts internalization via clathrin-coated vesicles, did not inhibit agonist-stimulated A 1 R internalization. We demonstrated that A 1 R agonist N 6 -( R )-phenylisopropyl adenosine promotes the translocation of A 1 R into low-density gradient fractions containing caveolin. Furthermore, a direct interaction of the C-terminal domain of A 1 R with caveolin-1 was demonstrated by pull down experiments. These results indicate that A 1 R and ADA form a stable complex in the cell surface of LLC-PK 1 cells and that agonist-induced internalization of the A 1 adenosine receptor and ADA is mediated by clathrin-independent endocytosis.

Published

2001

33. Predicting the antinociceptive efficacy of σ(1) receptor ligands by a novel receptor fluorescence resonance energy transfer (FRET) based biosensor

Author

José Miguel Vela, Pilar Pérez, Víctor Fernández-Dueñas, Francisco Ciruela, Maricel Gómez-Soler, Daniel Zamanillo, Enrique Portillo-Salido, and Javier Burgueño

Subjects

Analgesics, Chemistry, Ligand, Biosensing Techniques, Pharmacology, σ1 receptor, Ligands, Mice, Förster resonance energy transfer, Animal model, Nociception, Drug Discovery, Biophysics, Fluorescence Resonance Energy Transfer, Molecular Medicine, Animals, Receptors, sigma, Receptor, Biosensor

Abstract

We have developed a novel methodology for monitoring the σ1 receptor activation switch in living cells. Our assay uncovered the intrinsic nature of σ1 receptor ligands by recording the ligand-mediated conformational changes of this chaperone protein. The change triggered by each ligand correlated well with its ability to attenuate formalin induced nociception in an animal model of pain. This tool may assist in predicting the antinociceptive efficacy of σ1 receptor ligands.

Published

2013

34. The arylpiperazine derivatives N ‐(4‐cyanophenylmethyl)‐4‐(2‐diphenyl)‐1‐piperazinehexanamide and N ‐benzyl‐4‐(2‐diphenyl)‐1‐piperazinehexanamide exert a long‐lasting inhibition of human serotonin 5‐HT 7 receptor binding and <scp>cAMP</scp> signaling

Author

José Brea, Javier Burgueño, Javier O Rodríguez, Marcello Leopoldo, Patricio Atanes, María Isabel Loza, María Isabel Cadavid, José Miguel Vela, Enza Lacivita, and Marián Castro

Subjects

Forskolin, HEK 293 cells, Biology, Pharmacology, Ligand (biochemistry), 5-HT7 receptor, chemistry.chemical_compound, Neurology, Biochemistry, chemistry, Cyclic adenosine monophosphate, Serotonin, General Pharmacology, Toxicology and Pharmaceutics, Receptor, Cyclase activity

Abstract

We performed a detailed in vitro pharmacological characterization of two arylpiperazine derivatives, compound N-(4-cyanophenylmethyl)-4-(2-diphenyl)-1-piperazinehexanamide (LP-211) previously identified as a high-affinity brain penetrant ligand for 5-hydroxytryptamine (serotonin) type 7 (5-HT7) receptors, and its analog N-benzyl-4-(2-diphenyl)-1-piperazinehexanamide (MEL-9). Both ligands exhibited competitive displacement of [3H]-(2R)-1-[(3-hydroxyphenyl)sulfonyl]-2-[2-(4-methyl-1-piperidinyl)ethyl]pyrrolidine ([3H]-SB-269970) radioligand binding and insurmountable antagonism of 5-carboxamidotryptamine (5-CT)-stimulated cyclic adenosine monophosphate (cAMP) signaling in human embryonic kidney (HEK293) cells stably expressing human 5-HT7 receptors. They also inhibited forskolin-stimulated adenylate cyclase activity in 5-HT7-expressing HEK293 cells but not in the parental cell line. The compounds elicited long-lasting (at least 24 h) concentration-dependent inhibition of radioligand binding at 5-HT7-binding sites in whole-cell radioligand binding assays, after pretreatment of the cells with the compounds and subsequent compound removal. In cAMP assays, pretreatment of cells with the compounds rendered 5-HT7 receptors unresponsive to 5-CT and also rendered 5-HT7-expressing HEK293 cells unresponsive to forskolin. Compound 1-(2-biphenyl)piperazine (RA-7), a known active metabolite of LP-211 present in vivo, was able to partially inhibit 5-HT7 radioligand binding in a long-lasting irreversible manner. Hence, LP-211 and MEL-9 were identified as high-affinity long-acting inhibitors of human 5-HT7 receptor binding and function in cell lines. The detailed in vitro characterization of these two pharmacological tools targeting 5-HT7 receptors may benefit the study of 5-HT7 receptor function and it may lead to the development of novel selective pharmacological tools with defined functional properties at 5-HT7 receptors.

Published

2013

35. The arylpiperazine derivatives N-(4-cyanophenylmethyl)-4-(2-diphenyl)-1-piperazinehexanamide and N-benzyl-4-(2-diphenyl)-1-piperazinehexanamide exert a long-lasting inhibition of human serotonin 5-HT7 receptor binding and cAMP signaling

Author

Patricio, Atanes, Enza, Lacivita, Javier, Rodríguez, José, Brea, Javier, Burgueño, José Miguel, Vela, María Isabel, Cadavid, María Isabel, Loza, Marcello, Leopoldo, and Marián, Castro

Subjects

Schild analysis, HEK293 cells, LP-211, preincubation/washout experiments, Original Articles, [3H]-SB-269970 binding, insurmountable antagonism, arylpiperazine derivative, long-lasting inhibition, cAMP signaling, irreversible inhibition, serotonin 5-HT7 receptors

Abstract

We performed a detailed in vitro pharmacological characterization of two arylpiperazine derivatives, compound N-(4-cyanophenylmethyl)-4-(2-diphenyl)-1-piperazinehexanamide (LP-211) previously identified as a high-affinity brain penetrant ligand for 5-hydroxytryptamine (serotonin) type 7 (5-HT7) receptors, and its analog N-benzyl-4-(2-diphenyl)-1-piperazinehexanamide (MEL-9). Both ligands exhibited competitive displacement of [(3)H]-(2R)-1-[(3-hydroxyphenyl)sulfonyl]-2-[2-(4-methyl-1-piperidinyl)ethyl]pyrrolidine ([(3)H]-SB-269970) radioligand binding and insurmountable antagonism of 5-carboxamidotryptamine (5-CT)-stimulated cyclic adenosine monophosphate (cAMP) signaling in human embryonic kidney (HEK293) cells stably expressing human 5-HT7 receptors. They also inhibited forskolin-stimulated adenylate cyclase activity in 5-HT7-expressing HEK293 cells but not in the parental cell line. The compounds elicited long-lasting (at least 24 h) concentration-dependent inhibition of radioligand binding at 5-HT7-binding sites in whole-cell radioligand binding assays, after pretreatment of the cells with the compounds and subsequent compound removal. In cAMP assays, pretreatment of cells with the compounds rendered 5-HT7 receptors unresponsive to 5-CT and also rendered 5-HT7-expressing HEK293 cells unresponsive to forskolin. Compound 1-(2-biphenyl)piperazine (RA-7), a known active metabolite of LP-211 present in vivo, was able to partially inhibit 5-HT7 radioligand binding in a long-lasting irreversible manner. Hence, LP-211 and MEL-9 were identified as high-affinity long-acting inhibitors of human 5-HT7 receptor binding and function in cell lines. The detailed in vitro characterization of these two pharmacological tools targeting 5-HT7 receptors may benefit the study of 5-HT7 receptor function and it may lead to the development of novel selective pharmacological tools with defined functional properties at 5-HT7 receptors.

Published

2013

36. Synthesis and biological evaluation of a new series of hexahydro-2H-pyrano[3,2-c]quinolines as novel selective σ1 receptor ligands

Author

Mónica Luengo, Ariadna Fernández, Jesús Ramírez, Jose-Luis Diaz, Magda Bordas, Jordi Benet-Buchholz, Ute Christmann, Raquel Enrech, Rosalia Pascual, Antonio R. Fernández de Henestrosa, José Miguel Vela, Manuel Merlos, Jordi Carles Ceron-Bertran, Raquel F. Reinoso, Javier Burgueño, Carmen Almansa, and Mónica Carro

Subjects

Male, Models, Molecular, Chemical Phenomena, Stereochemistry, Protein Conformation, Guinea Pigs, Drug Evaluation, Preclinical, Chemistry Techniques, Synthetic, Ligands, chemistry.chemical_compound, Mice, Structure-Activity Relationship, Drug Discovery, Structure–activity relationship, Animals, Humans, Receptors, sigma, Receptor, Analgesics, Quinoline, Antagonist, Diastereomer, Biological activity, Hit to lead, Combinatorial chemistry, High-Throughput Screening Assays, chemistry, Quinolines, Molecular Medicine, Female, Pharmacophore

Abstract

The synthesis and pharmacological activity of a new series of hexahydro-2H-pyrano[3,2-c]quinoline derivatives as potent σ1 receptor (σ1R) ligands are reported. This family, which does not contain the highly basic amino group usually present in other σ1R ligands, showed high selectivity over the σ2 receptor (σ2R). The activity was shown to reside in only one of the four possible diastereoisomers, which exhibited a perfect match with known σ1R pharmacophores. A hit to lead program based on a high-throughput screening hit (8a) led to the identification of compound 32c, with substantially improved activity and physicochemical properties. Compound 32c also exhibited a good ADMET (absorption, distribution, metabolism, excretion, toxicity) profile and was identified as a σ1R antagonist on the basis of its analgesic activity in the mouse capsaicin and formalin models of neurogenic pain.

Published

2013

37. Inhibitory Effects of Sigma-2 Receptor Agonists on T Lymphocyte Activation

Author

Raquel Nieto, Manuel Fresno, Carmen Punzón, Javier Burgueño, José Miguel Vela, Miguel A. Iñiguez, Fundación Ramón Areces, Ministerio de Ciencia e Innovación (España), Instituto de Salud Carlos III, Comunidad de Madrid, and UAM. Departamento de Biología Molecular

Subjects

medicine.medical_specialty, Sigma receptor, T cell, T lymphocytes, nuclear factor-κB, Sigma-2 receptor, Biology, Jurkat cells, Transcriptional regulation, Immune system, Internal medicine, medicine, transcriptional regulation, Pharmacology (medical), sigma receptor, Nuclear factor (NF)-kB, Receptor, Nuclear factor-kB, Transcription factor, Biología y Biomedicina, Original Research, Pharmacology, lcsh:RM1-950, NFAT, Promoter, Nuclear Factor of Activated T cells (NAFT), Cell biology, Nuclear factor of activated T cells, lcsh:Therapeutics. Pharmacology, medicine.anatomical_structure, Endocrinology, nuclear factor of activated T cells

Abstract

Sigma (s) receptor ligands are essentially known for their effects on the nervous system although recent studies have shown their potential effects modulating some other pathophysiological processes as cell proliferation, cancer, and the immune response. Here, we have analyzed the actions of s-1 and s-2 receptors ligands on T cell activation. Our results show that treatment of Jurkat T cells with s-2 agonists decreased the induction of the expression of Interleukin (IL)-2,Tumor necrosis factor (TNF)-a, and Cyclooxygenase (COX)-2 by activated T cells in a dose-dependent manner. These effects take place at the transcriptional level since s-2 agonists BD-737 and CB-184 diminished the activity of the promoters of those genes. Those immunosuppressive effects could be attributable to interference with transcription factor activation. Induced transcription mediated by Nuclear factor (NF)-kB or Nuclear Factor of Activated T cells (NFAT) was inhibited by s-2 agonists. These effects seem to be specific for s-2 agonists as no significant effects onT cell activation by s-1 ligands PRE-084 and BD-1063 were found. Our results provide new insights into the immunomodulatory actions of sligands and describe a new property of s-2 agonists, through inhibition of activation of transcription factors as NFAT by which these compounds are regulating gene expression. This may have important consequences on the possible therapeutic use of those compounds., This work was supported by grants from Laboratorios del Dr. ESTEVE S. A and in part by grants from Comunidad Autónoma de Madrid (CAM; S2010/BMD-2332), Cardiovascular RECAVA, and RICET Networks of the Instituto de Salud Carlos III (RD06/0014/1013; RD06/0021/0016), Ministerio de Ciencia e Innovación (SAF2010-18733 to Manuel Fresno), and (BFU2010-21055 and SAF2011-23971 to Miguel A. Iñiguez). The Centro de Biología Molecular Severo Ochoa receives an institutional grant from the Fundación Ramón Areces.

Published

2013

38. Synthesis and biological evaluation of the 1-arylpyrazole class of σ(1) receptor antagonists: identification of 4-{2-[5-methyl-1-(naphthalen-2-yl)-1H-pyrazol-3-yloxy]ethyl}morpholine (S1RA, E-52862)

Author

Ute Christmann, Helmut Buschmann, Manuel Merlos, Carmen Almansa, Joana Berrocal, Maria Teresa Serafini, Ariadna Fernández, Jose-Luis Diaz, Rosa Cuberes, Javier Burgueño, Montserrat Contijoch, Adriana Port, Daniel Zamanillo, Christian Laggner, Jörg Holenz, and José Miguel Vela

Subjects

Male, Patch-Clamp Techniques, Stereochemistry, Morpholines, Guinea Pigs, Pyrazole, In Vitro Techniques, Motor Activity, chemistry.chemical_compound, Mice, Radioligand Assay, Structure-Activity Relationship, Morpholine, Drug Discovery, Structure–activity relationship, Animals, Humans, Receptors, sigma, Receptor, Chemistry, Brain, Biological activity, HEK293 Cells, Hyperalgesia, Microsomes, Liver, Molecular Medicine, Neuralgia, Pyrazoles, Amine gas treating, Female, Pharmacophore, Sciatic Neuropathy, Selectivity

Abstract

The synthesis and pharmacological activity of a new series of 1-arylpyrazoles as potent σ(1) receptor (σ(1)R) antagonists are reported. The new compounds were evaluated in vitro in human σ(1)R and guinea pig σ(2) receptor (σ(2)R) binding assays. The nature of the pyrazole substituents was crucial for activity, and a basic amine was shown to be necessary, in accordance with known receptor pharmacophores. A wide variety of amines and spacer lengths between the amino and pyrazole groups were tolerated, but only the ethylenoxy spacer and small cyclic amines provided compounds with sufficient selectivity for σ(1)R vs σ(2)R. The most selective compounds were further profiled, and compound 28, 4-{2-[5-methyl-1-(naphthalen-2-yl)-1H-pyrazol-3-yloxy]ethyl}morpholine (S1RA, E-52862), which showed high activity in the mouse capsaicin model of neurogenic pain, emerged as the most interesting candidate. In addition, compound 28 exerted dose-dependent antinociceptive effects in several neuropathic pain models. This, together with its good physicochemical, safety, and ADME properties, led compound 28 to be selected as clinical candidate.

Published

2012

39. 5-HT6 receptor signal transduction second messenger systems

Author

Xavier, Codony, Javier, Burgueño, Maria Javier, Ramírez, and José Miguel, Vela

Subjects

Neuropharmacology, Serotonin Agents, Drug Design, Receptors, Serotonin, Cyclic AMP, Animals, Humans, Binding, Competitive, Second Messenger Systems, Cell Line

Published

2010

40. Phe369(7.38) at human 5-HT(7) receptors confers interspecies selectivity to antagonists and partial agonists

Author

Thibault, Varin, Hugo, Gutiérrez-de-Terán, Marián, Castro, José, Brea, Frederic, Fabis, François, Dauphin, Johan, Aqvist, Alban, Lepailleur, Pilar, Perez, Javier, Burgueño, José Miguel, Vela, Maria Isabel, Loza, Jordi, Rodrigo, Centre d'Etudes et de Recherche sur le Médicament de Normandie (CERMN), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU), Groupe Mémoire et Plasticité comportementale (GMPc), Centre d'Etudes et de Recherche sur le Médicament de Normandie ( CERMN ), Université de Caen Normandie ( UNICAEN ), Normandie Université ( NU ) -Normandie Université ( NU ), and Groupe Mémoire et Plasticité comportementale ( GMPc )

Subjects

Models, Molecular, Binding Sites, [SCCO.NEUR]Cognitive science/Neuroscience, Ligands, Binding, Competitive, Research Papers, Cell Line, Rats, Serotonin Receptor Agonists, Rats, Sprague-Dawley, Species Specificity, Receptors, Serotonin, [ SCCO.NEUR ] Cognitive science/Neuroscience, Cyclic AMP, Mutagenesis, Site-Directed, Animals, Humans, Computer Simulation, Serotonin Antagonists, Protein Binding

Abstract

International audience; BACKGROUND AND PURPOSE: Human and rat 5-HT(7) receptors were studied with a particular emphasis on the molecular interactions involved in ligand binding, searching for an explanation to the interspecies selectivity observed for a set of compounds. We performed affinity studies, molecular modelling and site-directed mutagenesis, with special focus on residue Phe(7.38) of the human 5-HT(7) receptor [Cys(7.38) in rat]. EXPERIMENTAL APPROACH: Competition binding studies were performed for seven 5-HT(7) receptor ligands at three different 5-HT(7) receptors. The functional behaviour was evaluated by measuring 5-carboxytryptamine-stimulated cAMP production. Computational simulations were carried out to explore the structural bases in ligand binding observed for these compounds. KEY RESULTS: Competition experiments showed a remarkable selectivity for the human receptor when compared with the rat receptor. These results indicate that mutating Cys to Phe at position 7.38 profoundly affects the binding affinities at the 5-HT(7) receptor. Computational simulations provide a structural interpretation for this key finding. Pharmacological characterization of compounds mr25020, mr25040 and mr25053 revealed a competitive antagonistic behaviour. Compounds mr22423, mr22433, mr23284 and mr25052 behaved as partial agonists. CONCLUSIONS AND IMPLICATIONS: We propose that the interspecies difference in binding affinities observed for the compounds at human and rat 5-HT(7) receptors is due to the nature of the residue at position 7.38. Our molecular modelling simulations suggest that Phe(7.38) in the human receptor is integrated in the hydrophobic pocket in the central part of the binding site [Phe(6.51)-Phe(6.52)] and allows a tighter binding of the ligands when compared with the rat receptor.

Published

2010

41. 5-HT6 Receptor Signal Transduction

Author

Javier Burgueño, José Miguel Vela, Xavier Codony, and María J. Ramírez

Subjects

Agonist, medicine.drug_class, Second messenger system, Functional selectivity, 5-HT6 receptor, medicine, Signal transduction, Biology, Receptor, Neuroscience, CAMP formation, G protein-coupled receptor, Cell biology

Abstract

Publisher Summary The 5-HT6 receptor belongs to the G-protein-coupled receptor (GPCR) family. This chapter reviews some reported experimental approaches that can be used for a better functional characterization and classification of 5-HT6 receptor ligands. The chapter summarizes the results obtained using some representative 5-HT6 receptor agonists and antagonists. 5-HT6 receptor functionality is being revealed to be much more complex than initially defined. Based on the existing data and depending on the agonist used, different selective receptor active states that activate different cellular pathways may be achieved. Besides Gs-mediated cAMP formation, other messenger systems may be involved. The full characterization of the functional profile of 5-HT6 receptor is still pending, and new players in the signaling cascade of 5-HT6 receptor could take the stage in the near future.

Published

2010

42. Identification of novel indanylsulfonamide guanylhydrazones as potent 5-HT6 serotonin receptor antagonists

Author

Ramon Mercè, Raquel Pérez, Javier Burgueño, Sara López-Pérez, Jordi Frigola, Jörg Holenz, Ermitas Alcalde, Neus Mesquida, and Immaculada Dinarès

Subjects

chemistry.chemical_classification, Sulfonamides, Chemistry, Stereochemistry, Antagonist, Guanosine Monophosphate, Hydrazones, Chemical synthesis, Sulfonamide, chemistry.chemical_compound, Inhibitory Concentration 50, Structure-Activity Relationship, Indenes, Receptors, Serotonin, Drug Discovery, Molecular Medicine, Moiety, Humans, Serotonin Antagonists, Indene, Receptor, IC50, 5-HT receptor, Protein Binding

Abstract

Changing the N,N-(dimethylamino)ethyl side chain in the N-[3-(aminoethyl)inden-5-yl]sulfonamide 5-HT(6) serotonin receptor agonists 1 by a conformationally rigid guanylhydrazone moiety at the indene 3-position led to the identification of the title indanylguanylhydrazones 6, which exhibited excellent binding affinities and an antagonistic response at the 5-HT(6) receptor, with K(i) and IC(50) values in the nanomolar range (K(i)or= 1.2 nM, IC(50)or= 47 nM, and I(max)or= 173%).

Published

2009

43. Pharmacological activation of 5-HT7 receptors reduces nerve injury-induced mechanical and thermal hypersensitivity

Author

Daniel Zamanillo, R. Sánchez-Arroyos, Rafael Maldonado, Marta Pujol, Xavier Codony, Luz Romero, Asunción Muro, Michel Hamon, Ana Montero, José Miguel Vela, Xavier Nadal, Enrique Portillo-Salido, Sergio Ovalle, Alex Brenchat, and Javier Burgueño

Subjects

Agonist, Male, Pain Threshold, Tetrahydronaphthalenes, medicine.drug_class, Receptor expression, Pharmacology, Mice, medicine, Animals, Receptor, Pain Measurement, business.industry, Peripheral Nervous System Diseases, Receptor antagonist, Serotonin Receptor Agonists, Disease Models, Animal, Anesthesiology and Pain Medicine, Allodynia, Nociception, Treatment Outcome, Neurology, Hyperalgesia, Receptors, Serotonin, Neuropathic pain, Pyrazoles, Neurology (clinical), medicine.symptom, Analgesia, business, Neuroscience

Abstract

The involvement of the 5-HT(7) receptor in nociception and pain, particularly chronic pain (i.e., neuropathic pain), has been poorly investigated. In the present study, we examined whether the 5-HT(7) receptor participates in some modulatory control of nerve injury-evoked mechanical hypersensitivity and thermal (heat) hyperalgesia in mice. Activation of 5-HT(7) receptors by systemic administration of the selective 5-HT(7) receptor agonist AS-19 (1 and 10mg/kg) exerted a clear-cut reduction of mechanical and thermal hypersensitivities that were reversed by co-administering the selective 5-HT(7) receptor antagonist SB-258719. Interestingly, blocking of 5-HT(7) receptors with SB-258719 (2.5 and 10mg/kg) enhanced mechanical (but not thermal) hypersensitivity in nerve-injured mice and induced mechanical hypersensitivity in sham-operated mice. Effectiveness of the treatment with a 5-HT(7) receptor agonist was maintained after repeated systemic administration: no tolerance to the antiallodynic and antihyperalgesic effects was developed following treatment with the selective 5-HT(7) receptor agonist E-57431 (10mg/kg) twice daily for 11 days. The 5-HT(7) receptor co-localized with GABAergic cells in the dorsal horn of the spinal cord, suggesting that the activation of spinal inhibitory GABAergic interneurons could contribute to the analgesic effects of 5-HT(7) receptor agonists. In addition, a significant increase of 5-HT(7) receptors was found by immunohistochemistry in the ipsilateral dorsal horn of the spinal cord after nerve injury, suggesting a "pain"-triggered regulation of receptor expression. These results support the idea that the 5-HT(7) receptor subtype is involved in the control of pain and point to a new potential use of 5-HT(7) receptor agonists for the treatment of neuropathic pain.

Published

2009

44. Pharmacology

Author

Francisco Ciruela, Rafael Franco, and Javier Burgueño

Subjects

Engineering, business.industry, business, Neuroscience

Published

2008

45. Introductory and Basic aspects

Author

Rafael Franco, Francisco Ciruela, and Javier Burgueño

Subjects

Etiology, Attention deficit, Psychology, Cognitive psychology

Published

2008

46. The neuronal Ca(2+) -binding protein 2 (NECAB2) interacts with the adenosine A(2A) receptor and modulates the cell surface expression and function of the receptor

Author

Enric I. Canela, Francisco Ciruela, Rafael Franco, Laia Canela, Javier Burgueño, Josefa Mallol, Carme Lluís, and Rafael Luján

Subjects

Adenosine, GTPase-activating protein, Biology, Transfection, Cellular and Molecular Neuroscience, Calcium-binding protein, Two-Hybrid System Techniques, Phenethylamines, Animals, Humans, Immunoprecipitation, 5-HT5A receptor, Receptor, Extracellular Signal-Regulated MAP Kinases, Microscopy, Immunoelectron, Molecular Biology, Antihypertensive Agents, G protein-coupled receptor, Cell Line, Transformed, Dose-Response Relationship, Drug, Receptors, Adenosine A2, Binding protein, Calcium-Binding Proteins, Cell Membrane, Cell Biology, Corpus Striatum, Cell biology, Protein Structure, Tertiary, Rats, DNA-Binding Proteins, Enzyme Activation, Gene Expression Regulation, Adenosine A2B receptor, Binding domain, Protein Binding

Abstract

Heptaspanning membrane also known as G protein-coupled receptors (GPCR) do interact with a variety of intracellular proteins whose function is regulate receptor traffic and/or signaling. Using a yeast two-hybrid screen, NECAB2, a neuronal calcium binding protein, was identified as a binding partner for the adenosine A(2A) receptor (A(2A)R) interacting with its C-terminal domain. Co-localization, co-immunoprecipitation and pull-down experiments showed a close and specific interaction between A(2A)R and NECAB2 in both transfected HEK-293 cells and also in rat striatum. Immunoelectron microscopy detection of NECAB2 and A(2A)R in the rat striatopallidal structures indicated that both proteins are co-distributed in the same glutamatergic nerve terminals. The interaction of NECAB2 with A(2A)R modulated the cell surface expression, the ligand-dependent internalization and the receptor-mediated activation of the MAPK pathway. Overall, these results show that A(2A)R interacts with NECAB2 in striatal neurones co-expressing the two proteins and that the interaction is relevant for A(2A)R function.

Published

2007

47. Presynaptic control of striatal glutamatergic neurotransmission by adenosine A1-A2A receptor heteromers

Author

Antonio Cortés, Juan F. López-Giménez, Josefa Mallol, Rafael Franco, Francisco Ciruela, Meritxell Canals, Janusz Borycz, Vicent Casadó, Javier Burgueño, Steven R. Goldberg, Enric I. Canela, Rodrigo A. Cunha, Sergi Ferré, Carme Lluís, Rafael Luján, Nelson Rebola, Graeme Milligan, Ricardo Gouveia Rodrigues, and Universitat de Barcelona

Subjects

Male, Adenosine, Adenosina, Presynaptic Terminals, Heteromer, Adenosine A2A receptor, Neurotransmission, Transfection, Synaptic Transmission, Neurotransmissors, Cell Line, Rats, Sprague-Dawley, Adenosine A1 receptor, Glutamatergic, Caffeine, medicine, Animals, Humans, Receptor, Adenosine A1, Receptors, Adenosine A2, Chemistry, General Neuroscience, Articles, Neurotransmitters, Purinergic signalling, Corpus Striatum, Recombinant Proteins, Rats, Cell biology, Dimerization, Neuroscience, Adenosine A2B receptor, medicine.drug

Abstract

The functional role of heteromers of G-protein-coupled receptors is a matter of debate. In the present study, we demonstrate that heteromerization of adenosine A1receptors (A1Rs) and A2Areceptors (A2ARs) allows adenosine to exert a fine-tuning modulation of glutamatergic neurotransmission. By means of coimmunoprecipitation, bioluminescence and time-resolved fluorescence resonance energy transfer techniques, we showed the existence of A1R–A2AR heteromers in the cell surface of cotransfected cells. Immunogold detection and coimmunoprecipitation experiments indicated that A1R and A2AR are colocalized in the same striatal glutamatergic nerve terminals. Radioligand-binding experiments in cotransfected cells and rat striatum showed that a main biochemical characteristic of the A1R–A2AR heteromer is the ability of A2AR activation to reduce the affinity of the A1R for agonists. This provides a switch mechanism by which low and high concentrations of adenosine inhibit and stimulate, respectively, glutamate release. Furthermore, it is also shown that A1R–A2AR heteromers constitute a unique target for caffeine and that chronic caffeine treatment leads to modifications in the function of the A1R–A2AR heteromer that could underlie the strong tolerance to the psychomotor effects of caffeine.

Published

2006

48. Adenosine A2A-dopamine D2 receptor-receptor heteromers. Targets for neuro-psychiatric disorders

Author

Sergi Ferré, Vicent Casadó, Piero de Benedetti, Meritxell Canals, Amina S. Woods, Daniel Marcellino, Maria Torvinen, Javier Burgueño, Francisco Ciruela, Kjell Fuxe, Michel Bouvier, Luigi F. Agnati, Joëlle Hillion, Carme Lluís, Rafael Franco, Steven R. Goldberg, and Francesca Fanelli

Subjects

Neurons, Dendritic spine, adenosine A(2A) receptor, dopamine D-2 receptor, heteromerization, basal ganglia disorders, Receptor, Adenosine A2A, Receptors, Dopamine D2, Mental Disorders, Adenosine A2A receptor, Biology, Neurotransmission, Globus Pallidus, Adenosine, Corpus Striatum, Glutamatergic, Drug Delivery Systems, Neurology, Dopamine receptor D2, medicine, GABAergic, Animals, Humans, Neurology (clinical), Geriatrics and Gerontology, Receptor, Neuroscience, medicine.drug

Abstract

Emerging evidence shows that G protein-coupled receptors can form homo- and heteromers. These include adenosine A(2A) receptor-dopamine D(2) receptor heteromers, which are most probably localized in the dendritic spines of the striatopallidal GABAergic neurons, where they are in a position to modulate glutamatergic neurotransmission. The discovery of A(2A) receptor-dopamine D(2) receptor heteromers gives a frame for the well-known antagonistic interaction between both receptors, which is the bases for a new therapeutic approach for neuro-psychiatric disorders, such as Parkinson's disease and schizoprenia. The present review deals mainly with the biochemical and molecular aspects of A(2A) receptor-dopamine D(2) receptor interactions. Recent results at the molecular level show that A(2A) receptor-dopamine D(2) receptor heteromers represent the first example of epitope-epitope electrostatic interaction underlying receptor heteromerization. Most probably A(2A) receptor-D(2) receptor heteromerization is not static, but subject to a dynamic regulation, related to the phosphorylation dependence of the A(2A) receptor epitope and to the ability of the D(2) receptor epitope to bind different partners. Finding out the mechanisms involved in this dynamic regulation can have important implications for the treatment of basal ganglia disorders, schizophrenia and drug addiction.

Published

2004

49. Metabotropic glutamate type 1alpha receptor localizes in low-density caveolin-rich plasma membrane fractions

Author

Javier, Burgueño, Carlos, Enrich, Enric I, Canela, Josefa, Mallol, Carmen, Lluis, Rafael, Franco, and Francisco, Ciruela

Subjects

Caveolin 2, Caveolin 1, Cell Membrane, Cell Fractionation, Kidney, Receptors, Metabotropic Glutamate, Caveolins, Immunohistochemistry, Precipitin Tests, Cricetinae, Centrifugation, Density Gradient, Animals, Phosphorylation, Subcellular Fractions

Abstract

Recent evidence suggest that many G protein-coupled receptors (GPCR) and signalling molecules localize in microdomains of the plasma membrane. In this study, flotation gradient analysis in the absence of detergents demonstrated the presence of the metabotropic glutamate receptor type 1alpha (mGlu1alpha) in low-density caveolin-enriched membrane fractions (CEMF) in permanently transfected BHK cells. BHK-1alpha cells exhibit a similar pattern of staining for caveolin-1 and caveolin-2, and these two proteins show a high degree of co-localization with mGlu1alpha receptor as demonstrated by immunogold and confocal laser microscopy. The presence of mGlu1alpha in CEMF was also demonstrated by co-immunoprecipitation of mGlu1alpha receptor using antibodies against caveolin proteins. Activation of the mGlu1alpha receptor by agonist increased extracellular signal-regulated kinases phosphorylation in CEMF and not in high-density membrane fractions (HDMF), suggesting that mGlu1alpha receptor-mediated signal transduction could occur in caveolae-like domains. Overall, these results clearly show a molecular and functional association of mGlu1alpha receptor with caveolins.

Published

2003

50. Ligand-induced caveolae-mediated internalization of A1 adenosine receptors: morphological evidence of endosomal sorting and receptor recycling

Author

Josefa Mallol, Carmen Lluis, Marisol Escriche, Francisco Ciruela, Javier Burgueño, Carlos Enrich, Enric I. Canela, and Rafael Franco

Subjects

Receptor recycling, Cholera Toxin, Endosome, Adenosine Deaminase, Immunoelectron microscopy, media_common.quotation_subject, Recombinant Fusion Proteins, Caveolin 1, Molecular Sequence Data, Myocytes, Smooth Muscle, Endosomes, Gold Colloid, Biology, Caveolae, Ligands, Caveolins, Cricetinae, Purinergic P1 Receptor Agonists, Tumor Cells, Cultured, Animals, Amino Acid Sequence, Receptor, Internalization, Microscopy, Immunoelectron, media_common, Cell Membrane, Receptors, Purinergic P1, Cell Biology, Adenosine receptor, Endocytosis, Cell biology, Protein Transport, Calcium

Abstract

The involvement of caveolae in the internalization of A 1 adenosine receptors (A 1 R) and the receptor sorting and recycling was studied in the smooth muscle cell line DDT 1 MF-2, by binding assays, by confocal microscopy, and at the structural level. The use of cholera toxin-binding subunit adsorbed to gold as a specific probe for labeling the ganglioside GM 1 and immunoelectron microscopy techniques showed that agonist stimulation produced a clustering and sequestration of adenosine receptors in caveolae. Furthermore, pull-down experiments showed there to be a direct interaction between the C-terminal domain of A 1 R and caveolin-1. Addition of exogenous adenosine deaminase (ADA), a protein that binds to A 1 R and acts as a receptor activity modifying protein (RAMP) stimulated R-PIA-induced A 1 receptor internalization. Finally, the sorting and recycling of A 1 R/ADA complexes was analyzed. Detailed electron microscopy revealed that A 1 R/ADA complexes internalize together through caveolae, are differentially sorted in endosomes, and are recycled back to the cell surface by different groups of recycling endosomes. These results give insight into the spatiotemporal regulation and traffic of A 1 R and RAMPs.

Published

2003