Begoña Fernández‐Pastor scite author profile

We evaluated the effects of s 1 -receptor inhibition on m-opioidinduced mechanical antinociception and constipation. s 1 -Knockout mice exhibited marked mechanical antinociception in response to several m-opioid analgesics (fentanyl, oxycodone, morphine, buprenorphine, and tramadol) at systemic (subcutaneous) doses that were inactive in wild-type mice and even unmasked the antinociceptive effects of the peripheral m-opioid agonist loperamide. Likewise, systemic (subcutaneous) or local (intraplantar) treatment of wild-type mice with the selective A peripheral role for s 1 receptors was also supported by their higher density (Western blot results) in peripheral nervous tissue (dorsal root ganglia) than in several central areas involved in opioid antinociception (dorsal spinal cord, basolateral amygdala, periaqueductal gray, and rostroventral medulla). In contrast to its effects on nociception, s 1 -receptor inhibition did not alter fentanyl-or loperamide-induced constipation, a peripherally mediated nonanalgesic opioid effect. Therefore, s 1 -receptor inhibition may be used as a systemic or local adjuvant to enhance peripheral m-opioid analgesia without affecting opioidinduced constipation.

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Acute and chronic effects of desipramine and clorgyline on α₂‐adrenoceptors regulating noradrenergic transmission in the rat brain: a dual‐probe microdialysis study

Mateo

Fernández‐Pastor

Meana

2001

British J Pharmacology

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1 The eects of desipramine (3 mg kg 71 i.p.) and clorgyline (1 mg kg 71 i.p.) on extracellular noradrenaline (NA) in the locus coeruleus (LC) and cingulate cortex were assessed in freely-moving rats by dual-probe microdialysis. Functional activities of a 2 -adrenoceptors regulating NA release in the LC and cingulate cortex were determined by systemic (0.3 mg kg 71 i.p.) or local (0.1 ± 100 mM) clonidine administration. 2 Extracellular NA was increased in the LC and cingulate cortex following acute desipramine but not clorgyline treatment. Systemic clonidine decreased NA similarly in desipramine-, clorgyline-, and saline-treated animals, in both brain areas. 3 Long-term (twice daily, 14 days) but not short-term (twice daily, 7 days) desipramine, and longterm clorgyline (once daily, 21 days) treatments increased NA (3 fold) in cingulate cortex but not in the LC. Following long-term treatments, responses of NA to systemic clonidine were attenuated in the LC and cingulate cortex. 4 Clonidine perfusion by reverse dialysis into the cingulate cortex decreased local NA (755+9%). The eect was attenuated by long-term desipramine (731+9%) and clorgyline (710+2%) treatments. 5 Clonidine perfusion by reverse dialysis into the LC decreased NA in the LC (789+2%) and in cingulate cortex (752+12%). This eect was attenuated in the LC following long-term desipramine (772+4%) and clorgyline (762+12%) treatments but it was not modi®ed in the cingulate cortex (757+10% and 768+6%, respectively). 6 These ®ndings demonstrate that chronic desipramine or clorgyline treatments increase NA in noradrenergic terminal areas and desensitize a 2 -adrenoceptors modulating local NA release at somatodendritic and terminal levels. However, somatodendritic a 2 -adrenoceptors that control LC ®ring activity are not desensitized.

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Effects of the selective sigma‐1 receptor antagonist S1RA on formalin‐induced pain behavior and neurotransmitter release in the spinal cord in rats

Vidal-Torres

Fernández‐Pastor

Carceller

et al. 2014

Journal of Neurochemistry

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We have previously shown that the selective sigma-1 receptor (r 1 R) antagonist S1RA (E-52862) inhibits neuropathic pain and activity-induced spinal sensitization in various preclinical pain models. In this study we characterized both the behavioral and the spinal neurochemical effects of S1RA in the rat formalin test. Systemic administration of S1RA produced a dose-related attenuation of flinching and lifting/ licking behaviors in the formalin test. Neurochemical studies using concentric microdialysis in the ipsilateral dorsal horn of awake, freely moving rats revealed that the systemic S1RA-induced antinociceptive effect occurs concomitantly with an enhancement of noradrenaline levels and an attenuation of formalin-evoked glutamate release in the spinal dorsal horn. Intrathecal pre-treatment with idazoxan prevented the systemic S1RA antinociceptive effect, suggesting that the S1RA antinociception depends on the activation of spinal a 2 -adrenoceptors which, in turn, could induce an inhibition of formalin-evoked glutamate release. When administered locally, intrathecal S1RA inhibited only the flinching behavior, whereas intracerebroventricularly or intraplantarly injected also attenuated the lifting/licking behavior. These results suggest that S1RA supraspinally activates the descending noradrenergic pain inhibitory system, which may explain part of its antinociceptive properties in the formalin test; however, effects at other central and peripheral sites also account for the overall effect.

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Blockade of the Sigma-1 Receptor Relieves Cognitive and Emotional Impairments Associated to Chronic Osteoarthritis Pain

et al. 2019

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Osteoarthritis is the most common musculoskeletal disease worldwide, often characterized by degradation of the articular cartilage, chronic joint pain and disability. Cognitive dysfunction, anxiety and depression are common comorbidities that impact the quality of life of these patients. In this study, we evaluated the involvement of sigma-1 receptor (σ1R) on the nociceptive, cognitive and emotional alterations associated with chronic osteoarthritis pain. Monosodium iodoacetate (MIA) was injected into the knee of Swiss-albino CD1 mice to induce osteoarthritis pain, which then received a repeated treatment with the σ1R antagonist E-52862 or its vehicle. Nociceptive responses and motor performance were assessed with the von Frey and the Catwalk gait tests. Cognitive alterations were evaluated using the novel object recognition task, anxiety-like behavior with the elevated plus maze and the zero-maze tests, whereas depressive-like responses were determined using the forced swimming test. We also studied the local effect of the σ1R antagonist on cartilage degradation, and its central effects on microglial reactivity in the medial prefrontal cortex. MIA induced mechanical allodynia and gait abnormalities that were prevented by the chronic treatment with the σ1R antagonist. E-52862 also reduced the memory impairment and the depressive-like behavior associated to osteoarthritis pain. Interestingly, the effect of E-52862 on depressive-like behavior was not accompanied by a modification of anxiety-like behavior. The pain-relieving effects of the σ1R antagonist were not due to a local effect on the articular cartilage, since E-52862 treatment did not modify the histological alterations of the knee joints. However, E-52862 induced central effects revealed by a reduction of the cortical microgliosis observed in mice with osteoarthritis pain. These findings show that σ1R antagonism inhibits mechanical hypersensitivity, cognitive deficits and depressive-like states associated with osteoarthritis pain in mice. These effects are associated with central modulation of glial activity but are unrelated to changes in cartilage degradation. Therefore, targeting the σ1R with E-52862 represents a promising pharmacological approach with effects on multiple aspects of chronic osteoarthritis pain that may go beyond the strict inhibition of nociception.

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