Your search keyword '"Fernández-Dueñas V"' showing total 5 results

1. Optical control of pain in vivo with a photoactive mGlu 5 receptor negative allosteric modulator.

Author

Font J, López-Cano M, Notartomaso S, Scarselli P, Di Pietro P, Bresolí-Obach R, Battaglia G, Malhaire F, Rovira X, Catena J, Giraldo J, Pin JP, Fernández-Dueñas V, Goudet C, Nonell S, Nicoletti F, Llebaria A, and Ciruela F

Subjects

Analgesia methods, Analgesics administration & dosage, Animals, Mice, Photosensitizing Agents administration & dosage, Allosteric Regulation drug effects, Analgesics metabolism, Light, Neurons drug effects, Pain, Photosensitizing Agents metabolism, Receptor, Metabotropic Glutamate 5 drug effects

Abstract

Light-operated drugs constitute a major target in drug discovery, since they may provide spatiotemporal resolution for the treatment of complex diseases (i.e. chronic pain). JF-NP-26 is an inactive photocaged derivative of the metabotropic glutamate type 5 (mGlu 5 ) receptor negative allosteric modulator raseglurant. Violet light illumination of JF-NP-26 induces a photochemical reaction prompting the active-drug's release, which effectively controls mGlu 5 receptor activity both in ectopic expressing systems and in striatal primary neurons. Systemic administration in mice followed by local light-emitting diode (LED)-based illumination, either of the thalamus or the peripheral tissues, induced JF-NP-26-mediated light-dependent analgesia both in neuropathic and in acute/tonic inflammatory pain models. These data offer the first example of optical control of analgesia in vivo using a photocaged mGlu 5 receptor negative allosteric modulator. This approach shows potential for precisely targeting, in time and space, endogenous receptors, which may allow a better management of difficult-to-treat disorders.

Published

2017

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

Author

Gómez-Soler M, Fernández-Dueñas V, Portillo-Salido E, Pérez P, Zamanillo D, Vela JM, Burgueño J, and Ciruela F

Subjects

Animals, Ligands, Mice, Receptors, sigma chemistry, Sigma-1 Receptor, Analgesics pharmacology, Biosensing Techniques methods, Fluorescence Resonance Energy Transfer methods, Receptors, sigma drug effects

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

2014

3. Fentanyl-trazodone-paracetamol triple drug combination: multimodal analgesia in a mouse model of visceral pain.

Author

Fernández-Dueñas V, Poveda R, Fernández A, Sánchez S, Planas E, and Ciruela F

Subjects

Animals, Drug Combinations, Male, Mice, Rotarod Performance Test, Acetaminophen administration & dosage, Analgesics therapeutic use, Disease Models, Animal, Fentanyl administration & dosage, Pain drug therapy, Trazodone administration & dosage

Abstract

Multimodal or balanced analgesia is commonly used in the management of acute and chronic pain in humans, in order to achieve the best analgesic/safety profile. Here, by using a model of visceral acute tonic pain, the acetic acid-induced writhing test of mice, we show a synergistic interaction between fentanyl, trazodone and paracetamol on the inhibition of nociception. First of all, once assessed that all drugs induced dose-related antinociceptive effects, they were mixed in fixed ratio (1:1) combinations and a synergistic drug-drug interaction was obtained in all circumstances. Thereafter, we assayed the effects of the triple combination of fentanyl-trazodone-paracetamol and it was demonstrated that they displayed a potent synergistic interaction on the inhibition of acetic acid-mediated nociception. Interestingly, drug dosage reduction permitted to reduce the incidence of possible adverse effects, namely exploratory activity and motor coordination, thus it was demonstrated that it improved the benefit/risk profile of such treatment. Afterwards, we attempted to elucidate the mechanism of action of such interaction, by means of the non-selective opioid receptor antagonist naloxone. Interestingly, naloxone completely antagonized the antinociceptive effects of fentanyl, and it also partially reversed paracetamol and trazodone mediated analgesia. Furthermore, when naloxone was co-administered with the triple-drug treatment it blocked the previously observed enhanced antinociceptive effects of the combination. Thus, these results indicated that the endogenous opioid system played a main role in the present drug-drug interaction. Overall, the triple combination of fentanyl-trazodone-paracetamol induced a potent synergistic antinociceptive effect, which could be of interest for optimal multimodal clinical analgesia., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2011

4. Histamine H3 receptor activation potentiates peripheral opioid-mediated antinociception: substance P role in peripheral inflammation in mice.

Author

Fernández-Dueñas V, Ciruela F, Gandía J, Sánchez S, Planas E, and Poveda R

Subjects

Animals, Dose-Response Relationship, Drug, Drug Synergism, Drug Therapy, Combination, Fentanyl administration & dosage, Fentanyl antagonists & inhibitors, Freund's Adjuvant, Histamine Agonists administration & dosage, Hyperalgesia drug therapy, Male, Methylhistamines administration & dosage, Methylhistamines antagonists & inhibitors, Mice, Naloxone pharmacology, Pain drug therapy, Piperidines pharmacology, Receptors, Histamine H3 drug effects, Skin metabolism, Analgesics pharmacology, Fentanyl pharmacology, Histamine Agonists pharmacology, Inflammation chemically induced, Inflammation drug therapy, Methylhistamines pharmacology, Skin drug effects, Substance P metabolism

Abstract

Opioids provide effective analgesia in adult patients with painful inflammatory diseases. The proposed mechanism of action is the activation of peripheral opioid receptors, which may be up-regulated in such conditions. Here, by using a chronic inflammation model, namely subplantar injection of Complete Freund's adjuvant, we show a peripheral synergistic interaction between the histamine H(3) receptor agonist R-(alpha)-methylhistamine and fentanyl on the inhibition of thermal hyperalgesia and of peripheral substance P accumulation. Firstly, dose-related effects obtained for the subplantar antinociceptive effect of fentanyl (0.05-1 microg) in the presence of a fixed dose of R-(alpha)-methylhistamine (12.5 microg) showed a shift to the left when compared to that obtained with fentanyl alone. In a similar way, the subcutaneous administration of fentanyl (0.005-0.1mg/kg) plus a fixed dose of R-(alpha)-methylhistamine (0.5mg/kg) induced a supra additive effect on the inhibition of substance P accumulation in the hind-paw skin of inflamed mice. Interestingly, when a neurokinin-1 receptor antagonist was co-administered, the antinociceptive effects of the combined treatment were potentiated. The peripheral adjuvant effect of R-(alpha)-methylhistamine on fentanyl antinociception and inhibition of substance P accumulation was also demonstrated by means of opioid and histamine H(3) receptors selective antagonists: first, naloxone blockade of fentanyl-mediated effects were partially reversed by co-administration of R-(alpha)-methylhistamine, and second, thioperamide partially antagonised the combined R-(alpha)-methylhistamine/fentanyl effects. Overall, our results clearly show that R-(alpha)-methylhistamine enhances fentanyl effects at peripheral sites, and that the control of substance P levels might be one of the mechanisms responsible of such interaction., ((c) 2010 Elsevier B.V. All rights reserved.)

Published

2010

5. Adjuvant effect of caffeine on acetylsalicylic acid anti-nociception: prostaglandin E2 synthesis determination in carrageenan-induced peripheral inflammation in rat.

Author

Fernández-Dueñas V, Sánchez S, Planas E, and Poveda R

Subjects

Analgesics administration & dosage, Animals, Anti-Inflammatory Agents, Non-Steroidal administration & dosage, Aspirin administration & dosage, Caffeine administration & dosage, Carrageenan, Dinoprostone antagonists & inhibitors, Dose-Response Relationship, Drug, Drug Synergism, Foot, Inflammation chemically induced, Inflammation metabolism, Male, Rats, Rats, Sprague-Dawley, Analgesics pharmacology, Anti-Inflammatory Agents, Non-Steroidal pharmacology, Aspirin pharmacology, Caffeine pharmacology, Dinoprostone biosynthesis, Inflammation physiopathology, Nociceptors drug effects

Abstract

In the present study, we report a synergistic interaction between acetylsalicylic acid (ASA) and caffeine (CAF) on the inhibition of nociception in a model of peripheral inflammation in rat; on the contrary no interaction have been found on anti-inflammatory effects and peripheral prostaglandin E2 (PGE-2) synthesis inhibition. Acute inflammation was induced by the subplantar injection of carrageenan into the right hind paw, and the effects of the drugs were evaluated from 0 to 5h. Nociception was assessed using the Randall & Selitto test, and the inflammatory response by plethismometry. Oral administration of ASA (10-400mg/kg) induced dose-related anti-nociceptive and anti-inflammatory effects. On the other hand, oral CAF administration (5-50mg/kg) did not show a dose-related inhibitory effect, neither on the inhibition of nociception nor on the inflammatory response. To analyze a possible interaction between both drugs a dose-response curve to ASA plus a fixed dose of CAF (5mg/kg) was obtained 3h after the injection of carrageenan, when the inflammatory pain peaked. A fixed dose of CAF was able to improve the anti-nociceptive, but not the anti-inflammatory, effects of ASA. We also assessed, by enzyme immunoassay, the effects of the combination on peripheral PGE-2 levels: CAF did not alter the inhibitory effect of ASA on PGE-2 synthesis. Our results corroborate the well-known clinical effects of combining ASA and CAF; on the other hand, we rule out that prostaglandin synthesis inhibition at peripheral sites would be the mechanism responsible of the adjuvant anti-nociceptive effect of CAF.

Published

2008