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Chronic pain presents a major challenge in contemporary medicine, given the limited effectiveness and numerous adverse effects linked to available treatments. Recognizing the potential of the cholinergic pathway as a therapeutic target, the present work evaluates the antinociceptive activity of a combination of Cris-104, a novel α4ß2* receptor agonist, and donepezil, a central anticholinesterase agent. Isobolographic analysis revealed that equimolar combination was approximately 10 times more potent than theoretically calculated equipotent additive dose. Administration of Cris-104 and donepezil combination (3 µmol/kg) successfully reversed hyperalgesia and mechanical allodynia observed in rats subjected to spinal nerve ligation (SNL). The combination also modulated neuroinflammation by reducing astrocyte activation, evident in the decreased expression of glial fibrillary acidic protein (GFAP) in the spinal cord. The observed synergism in combining a nicotinic receptor agonist with an anticholinesterase agent underscores its potential for treating chronic pain. This alternative therapeutic distinct advantage, including dose reduction and high selectivity for the receptor, contribute to a more favorable profile with minimized adverse effects.

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Previous studies have reported that L5/L6 spinal nerve ligation (SNL), but not L5 spinal nerve transection (SNT), enhances anoctamin-1 in injured and uninjured dorsal root ganglia (DRG) of rats suggesting some differences in function of the type of nerve injury. The role of bestrophin-1 in these conditions is unknown. The aim of this study was to investigate the role of bestrophin-1 in rats subjected to L5 SNT and L5/L6 SNL. SNT up-regulated bestrophin-1 protein expression in injured L5 and uninjured L4 DRG at day 7, whereas it enhanced GAP43 mainly in injured, but also in uninjured DRG. In contrast, SNL enhanced GAP43 at day 1 and 7, while bestrophin-1 expression increased only at day 1 after nerve injury. Accordingly, intrathecal injection of the bestrophin-1 blocker CaCCinh-A01 (1-10 µg) reverted SNT- or SNL-induced tactile allodynia in a concentration-dependent manner. Intrathecal injection of CaCCinh-A01 (10 µg) prevented SNT-induced upregulation of bestrophin-1 and GAP43 at day 7. In contrast, CaCCinh-A01 did not affect SNL-induced up-regulation of GAP43 nor bestrophin-1. Bestrophin-1 was mainly expressed in small- and medium-size neurons in naïve rats, while SNT increased bestrophin-1 immunoreactivity in CGRP+, but not in IB4+ neuronal cells in DRG. Intrathecal injection of bestrophin-1 plasmid (pCMVBest) induced tactile allodynia and increased bestrophin-1 expression in DRG and spinal cord in naïve rats. CaCCinh-A01 reversed bestrophin-1 overexpression-induced tactile allodynia and restored bestrophin-1 expression. Our data suggest that bestrophin-1 plays a relevant role in neuropathic pain induced by SNT, but not by SNL. PERSPECTIVE: SNT, but not SNL, up-regulates bestrophin-1 and GAP43 protein expression in injured L5 and uninjured L4 DRG. SNT increases bestrophin-1 immunoreactivity in CGRP+ neurons in DRG. Bestrophin-1 overexpression induces allodynia. CaCCinh-A01 reduces allodynia and restores bestrophin-1 expression. Our data suggest bestrophin-1 is differentially regulated depending on the neuropathic pain model.

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Orphan G-protein-coupled receptors (GPCR) comprise a large number of receptors which are widely distributed in the nervous system and represent an opportunity to identify new molecular targets in pain medicine. GPR55 and GPR119 are two orphan GPCR receptors whose physiological function is unclear. The aim was to explore the participation of spinal GPR55 and GPR119 in the processing of neuropathic pain in rats. Mechanical allodynia was evaluated using von Frey filaments. Protein localization and modulation were measured by immunohistochemistry and western blotting, respectively. Intrathecal administration of CID16020046 (selective GPR55 antagonist) or AS1269574 (selective GPR119 agonist) produced a dose-dependent antiallodynic effect, whereas O1062 (GPR55 agonist) and G-protein antagonist peptide dose-dependently prevented the antiallodynic effect of CID16020046 and AS1269574, respectively. Both GPR55 and GPR119 receptors were expressed in spinal cord, dorsal root ganglia and sciatic nerve, but only GPR119 was downregulated after 14 days of spinal nerve ligation. Data suggest that GPR55 and GPR119 participate in the processing of neuropathic pain and could be useful targets to manage neuropathic pain disorders.

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Voltage-gated Ca2+ (CaV) channels regulate multiple cell processes, including neurotransmitter release, and have been associated with several pathological conditions, such as neuropathic pain. Cdk5, a neuron-specific kinase, may phosphorylate CaV channels, altering their functional expression. During peripheral nerve injury, upregulation of CaV channels and Cdk5 in the dorsal root ganglia (DRG) and the spinal cord, has been correlated with allodynia. We recently reported an increase in the amplitude of the C component of the compound action potential (cAP) of afferent fibers in animals with allodynia induced by L5-6 spinal nerve ligation (SNL), recorded in the corresponding dorsal roots. This was related to an increase in T-type (CaV3.2) channels generated by Cdk5-mediated phosphorylation. Here, we show that CaV channel functional expression is also altered in the L4 adjacent intact afferent fibers in rats with allodynia induced by L5-6 SNL. Western blot analysis showed that both Cdk5 and CaV3.2 total levels are not increased in the DRG L3-4, but their subcellular distribution changes by concentrating on the neuronal soma. Likewise, the Cdk5 inhibitor olomoucine affected the rapid and the slow C components of the cAP recorded in the dorsal roots. Patch-clamp recordings revealed an increase in T- and N-type currents recorded in the soma of acute isolated L3-4 sensory neurons after L5-6 SNL, which was prevented by olomoucine. These findings suggest changes in CaV channels location and function in L3-4 afferent fibers associated with Cdk5-mediated phosphorylation after L5-6 SNL, which may contribute to nerve injury-induced allodynia.

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Voltage-gated T-type Ca2+ (CaV3) channels regulate diverse physiological events, including neuronal excitability, and have been linked to several pathological conditions such as absence epilepsy, cardiovascular diseases, and neuropathic pain. It is also acknowledged that calcium/calmodulin-dependent protein kinase II and protein kinases A and C regulate the activity of T-type channels. Interestingly, peripheral nerve injury induces tactile allodynia and upregulates CaV3.2 channels and cyclin-dependent kinase 5 (Cdk5) in dorsal root ganglia (DRG) and spinal dorsal horn. Here, we report that recombinant CaV3.2 channels expressed in HEK293 cells are regulatory targets of Cdk5. Site-directed mutagenesis showed that the relevant sites for this regulation are residues S561 and S1987. We also found that Cdk5 may regulate CaV3.2 channel functional expression in rats with mechanical allodynia induced by spinal nerve ligation (SNL). Consequently, the Cdk5 inhibitor olomoucine affected the compound action potential recorded in the spinal nerves, as well as the paw withdrawal threshold. Likewise, Cdk5 expression was upregulated after SNL in the DRG. These findings unveil a novel mechanism for how phosphorylation may regulate CaV3.2 channels and suggest that increased channel activity by Cdk5-mediated phosphorylation after SNL contributes nerve injury-induced tactile allodynia.SIGNIFICANCE STATEMENT Neuropathic pain is a current public health challenge. It can develop as a result of injury or nerve illness. It is acknowledged that the expression of various ion channels can be altered in neuropathic pain, including T-type Ca2+ channels that are expressed in sensory neurons, where they play a role in the regulation of cellular excitability. The present work shows that the exacerbated expression of Cdk5 in a preclinical model of neuropathic pain increases the functional expression of CaV3.2 channels. This finding is relevant for the understanding of the molecular pathophysiology of the disease. Additionally, this work may have a substantial translational impact, since it describes a novel molecular pathway that could represent an interesting therapeutic alternative for neuropathic pain.

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Os fatores idade e sexo modificam a experiência dolorosa em animais e seres humanos. Os efeitos dos hormônios gonadais têm sido estudados em diversos modelos experimentais de dor, no entanto, o efeito do envelhecimento na percepção à dor carece de mais investigação. O efeito do envelhecimento na dor neuropática ainda não está bem estabelecido. Neste estudo se procurou avaliar possíveis variações na percepção da dor da hiperalgesia mecânica, em função da idade, presença e ausência de hormônios gonadais e sexo em ratos Wistar machos e fêmeas, jovens e idosos no modelo de dor neuropática, ligadura da quinta raiz lombar. Os animais foram divididos nos seguintes grupos: ratos jovens orquiectomizados e não-orquiectomizados, ratos idosos orquiectomizados e não-orquiectomizados, ratas jovens ooforectomizadas com ou sem reposição de 17beta-estradiol e ratas idosas. Foi testado o limiar de retirada da pata após estímulo mecânico antes da ligadura e no 7º, 14º, 21º e 28o dias após a ligadura. Os resultados mostraram que todos os animais apresentaram comportamento hiperalgésico após ligadura da quinta raiz lombar durante os 28 dias de observação. A hiperalgesia ocorreu independentemente do sexo do animal, da presença ou ausência de hormônios gonadais ou idade. Não houve diferença entre ratos jovens e idosos não-orquiectomizados (p = 0,420), entre ratos jovens e idosos orquiectomizados (p = 0,560). Entre os ratos idosos com e sem orquiectomia houve diferença no 14º (p = 0,038) e 28º (p = 0,002) dias. Ratas jovens ooforectomizadas sem reposição de 17beta-estradiol apresentaram menor hiperalgesia que ratas ooforectomizadas com reposição durante todo o período (p = 0,001). Não houve diferença entre ratos idosos orquiectomizados e ratas idosas (p = 0,09). Ratos jovens não-orquiectomizados apresentaram menor hiperalgesia mecânica que ratas jovens ooforectomizadas com reposição de 17beta-estradiol (p = 0,001), o mesmo não ocorreu entre machos e fêmeas jovens gonadectomizados...

Age and sex modify the pain experience in animals and humans. The effects of gonadal hormones have been studied in various experimental pain models, however, the effect of aging on pain perception needs further investigation. The effect of aging on neuropathic pain is not well established. In this study, we sought to determine how aging and gonadal hormones affect mechanical hyperalgesia using spinal nerve ligation as a neuropathic pain model in aged and young male and female Wistar rats. Animals were divided into seven groups: aged female, ovariectomized young females with 17beta-estradiol replacement, ovariectomized young females without 17beta-estradiol replacement, orchiectomized and non-orchiectomized aged and young males. Rats were tested for mechanical hyperalgesia in the plantar surface of the left hindpaw before nerve ligation and on days 7, 14, 21 and 28 after nerve ligation. All animals of all groups showed mechanical hyperalgesic behavior after spinal nerve ligation during entire period of 28 days. Hyperalgesia was independent of the sex of the animal, the presence or absence of gonadal hormones or age. There was no difference between non-orchiectomized aged and young males (p = 0.420), and between orchiectomized aged and young males (p = 0.560). There was difference between aged male rats with and without orchiectomy in days 14 (p = 0.038) and 28 (p = 0.002). Young ovariectomized female rats without 17beta-estradiol replacement had less hyperalgesia than young ovariectomized female rats with replacement (p = 0.001). There was no difference between aged orchiectomized male rats and old female rats (p = 0.09). Young non-orchiectomized male rats showed less mechanical hyperalgesia than young ovariectomized female rats with 17beta-estradiol replacement (p = 0.001), that did not occur between young orchiectomized males rats and young ovariectomized females rats without 17beta-estradiol replacement (p = 0.51). Young ovariectomized...

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A modification of the Bennett and Xie chronic constriction injury model of peripheral painful neuropathy was developed in rats. Under tribromoethanol anesthesia, a single ligature with 100% cotton glace thread was placed around the right sciatic nerve proximal to its trifurcation. The change in the hind paw reflex threshold after mechanical stimulation observed with this modified model was compared to the change in threshold observed in rats subjected to the Bennett and Xie or the Kim and Chung spinal ligation models. The mechanical threshold was measured with an automated electronic von Frey apparatus 0, 2, 7, and 14 days after surgery, and this threshold was compared to that measured in sham rats. All injury models produced significant hyperalgesia in the operated hind limb. The modified model produced mean ± SD thresholds in g (19.98 ± 3.08, 14.98 ± 1.86, and 13.80 ± 1.00 at 2, 7, and 14 days after surgery, respectively) similar to those obtained with the spinal ligation model (20.03 ± 1.99, 13.46 ± 2.55, and 12.46 ± 2.38 at 2, 7, and 14 days after surgery, respectively), but less variable when compared to the Bennett and Xie model (21.20 ± 8.06, 18.61 ± 7.69, and 18.76 ± 6.46 at 2, 7, and 14 days after surgery, respectively). The modified method required less surgical skill than the spinal nerve ligation model.

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