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ObjectiveTo investigate the analgesic effect and mechanism of Osteoking (OK) on nerve compression in lumbar disc herniation. MethodThe rat model of chronic compression of dorsal root ganglion (CCD) was established to simulate clinical lumbar disc herniation. The CCD rats were randomly divided into model group, low, medium, and high dose OK groups (1.31, 2.63, 5.25 mL·kg-1·d-1), and pregabalin group (5 mg·kg-1), with eight rats in each group. Another eight SD rats were taken as the blank group, and the same volume of normal saline was given by gavage. Behavioral tests, side effect evaluation, network analysis, Western blot, immunofluorescence, and antagonist application were used to explore the effect. ResultCompared with the blank group, the mechanical hyperalgesia threshold, thermal hyperalgesia threshold, and the expression of inflammatory factors in the spinal dorsal horn of the model group are significantly increased (P<0.01), and the related indicators of the affected foot footprints are significantly down-regulated (P<0.01). The expression of signal transducer and activator of transcription 3 (STAT3), vascular endothelial growth factor A (VEGFA), and phosphorylated extracellular regulated protein kinase (p-ERK) in microglia in the spinal dorsal horn is significantly increased in the model group (P<0.01). Compared with the model group, low, medium, and high dose OK groups can increase the mechanical hyperalgesia and thermal hyperalgesia thresholds of CCD rats (P<0.05, P<0.01) in a dose-dependent manner, improve the gait of CCD rats (P<0.05, P<0.01), and reduce the expression of inflammatory factors in the spinal dorsal horn (P<0.05, P<0.01). The expression of STAT3, VEGFA, and p-ERK in the spinal dorsal horn microglia of CCD rats is significantly decreased (P<0.05, P<0.01), and the acetic acid-induced nociceptive response in rats is effectively reduced (P<0.05, P<0.01). In addition, there is no tolerance. The results of the body mass test, organ index, forced swimming, and rotation show that OK has no obvious toxic or side effects. Further antagonist experiments show that MRS1523 and RS127445 can reverse the transient analgesic effect of OK compared with the high dose OK group (P<0.01). ConclusionOK has a good analgesic effect on the CCD model without obvious toxic side effects, and its mechanism may be related to the activation of ADORA3 and HTR2B and the inhibition of STAT3, VEGFA, p-ERK, and other elements in microglia.
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Vincristine, a widely used chemotherapeutic agent for treating different cancer, often induces severe peripheral neuropathic pain. A common symptom of vincristine-induced peripheral neuropathic pain is mechanical allodynia and hyperalgesia. However, mechanisms underlying vincristine-induced mechanical allodynia and hyperalgesia are not well understood. In the present study, we show with behavioral assessment in rats that vincristine induces mechanical allodynia and hyperalgesia in a PIEZO2 channel-dependent manner since gene knockdown or pharmacological inhibition of PIEZO2 channels alleviates vincristine-induced mechanical hypersensitivity. Electrophysiological results show that vincristine potentiates PIEZO2 rapidly adapting (RA) mechanically-activated (MA) currents in rat dorsal root ganglion (DRG) neurons. We have found that vincristine-induced potentiation of PIEZO2 MA currents is due to the enhancement of static plasma membrane tension (SPMT) of these cells following vincristine treatment. Reducing SPMT of DRG neurons by cytochalasin D (CD), a disruptor of the actin filament, abolishes vincristine-induced potentiation of PIEZO2 MA currents, and suppresses vincristine-induced mechanical hypersensitivity in rats. Collectively, enhancing SPMT and subsequently potentiating PIEZO2 MA currents in primary afferent neurons may be an underlying mechanism responsible for vincristine-induced mechanical allodynia and hyperalgesia in rats. Targeting to inhibit PIEZO2 channels may be an effective analgesic method to attenuate vincristine-induced mechanical hypersensitivity.
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Dorsal root ganglia (DRG) is an essential part of the peripheral nervous system and the hub of the peripheral sensory afferent. The dynamic changes of neuronal cells and their gene expression during the development of dorsal root ganglion have been studied through single-cell RNAseq analysis, while the dynamic changes of non-neuronal cells have not been systematically studied. Using single cell RNA sequencing technology, we conducted a research on the non-neuronal cells in the dorsal root ganglia of rats at different developmental stage. In this study, primary cell suspension was obtained from using the dorsal root ganglions (DRGs, L4-L5) of ten 7-day-old rats and three 3-month-old rats. The 10×Genomics platform was used for single cell dissociation and RNA sequencing. Twenty cell subsets were acquired through cluster dimension reduction analysis, and the marker genes of different types of cells in DRG were identified according to previous researches about DRG single cell transcriptome sequencing. In order to find out the non-neuronal cell subsets with significant differences at different development stage, the cells were classified into different cell types according to markers collected from previous researches. We performed pseudotime analysis of 4 types Schwann cells. It was found that subtype Ⅱ Schwann cells emerged firstly, and then were subtype Ⅲ Schwann cells and subtype Ⅳ Schwann cells, while subtype Ⅰ Schwann cells existed during the whole development procedure. Pseudotime analysis indicated the essential genes influencing cell fate of different subtypes of Schwann cell in DRG, such as Ntrk2 and Pmp2, which affected cell fate of Schwann cells during the development period. GO analysis of differential expressed genes showed that the up-regulated genes, such as Cst3 and Spp1, were closely related to biological process of tissue homeostasis and multi-multicellular organism process. The down regulated key genes, such as Col3a1 and Col4a1, had close relationship with the progress of extracellular structure organization and negative regulation of cell adhesion. This suggested that the expression of genes enhancing cell homestasis increased, while the expression of related genes regulating ECM-receptor interaction pathway decreased during the development. The discovery provided valuable information and brand-new perspectives for the study on the physical and developmental mechanism of Schwann cell as well as the non-neuronal cell changes in DRG at different developmental stage. The differential gene expression results provided crucial references for the mechanism of somatosensory maturation during development.
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Ratos , Animais , Gânglios Espinais/metabolismo , Ratos Sprague-Dawley , Transcriptoma , Neurônios/metabolismo , Células de Schwann/fisiologiaRESUMO
ObjectiveTo investigate the analgesic action and mechanism of intrathecal 2R, 6R-hydroxynorketamine (2R, 6R-HNK) on spared nerve injury (SNI)-induced chronic neuropathic pain (CNP) in female mice. MethodsSNI was used to establish acute and chronic CNP models in female mice. The mice were randomly divided into different groups with administration of vehicle, 2R, 6R-HNK or S-ketamine (10 mg/kg intraperitoneal injection/i.p. or 7, 21 μmol/L intrathecal injection/i.t.) at 3 weeks after or 30 min/1 d before operation (n = 3 - 7 mice/group). The curative or preventive effect of 2R, 6R-HNK was evaluated by mechanical paw withdrawal threshold (PWT) and the analgesic efficiency. Finally, immunofluorescence and RT-PCR of dorsal root ganglion (DRG) and spinal dorsal horn (SDH) were used to explore the possible mechanisms. ResultsCompared with vehicle, intrathecal injection of 2R, 6R-HNK largely reversed SNI-induced bilateral mechanical allodynia in a delayed-and-dose-dependent way. Among them, 21 μmol/L 2R, 6R-HNK reached its maximum analgesic efficiency (75.32±7.69) % at 2 d. Pre-intrathecal delivery of 2R, 6R-HNK also delayed the development of bilateral mechanical hypersensitivity 2 - 3 d induced by SNI. Mechanically, 2R, 6R-HNK reversed not only the abnormal excitability of neurons in bilateral DRG and superficial SDH, but also the upregulation of calcitonin gene-related peptide (CGRP) and brain-derived nerve growth factor (BDNF) in DRG. ConclusionIntrathecal administration of 2R, 6R-HNK exerts an analgesic effect against CNP, probably via suppressing abnormal neuronal excitability in ascending pain pathway as well as down-regulating CGRP and BDNF expression in DRG neurons.
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ObjectiveTo observe the changes in the expression and distribution of G protein-gated inwardly rectifying potassium channel subunit 2 (GIRK2) in the dorsal root ganglion (DRG) and spinal cord dorsal horn of rats with remifentanil-induced hyperalgesia. MethodsHyperalgesia was induced by intravenous infusion of remifentanil 4 μg/kg/min for 2 h in adult male SD rats. At 6th hour and on days 1, 3 and 5 following remifentanil treatment, we used immunofluorescence to examine the changes in the GIRK2 distribution and expression. Immunoblotting was used to detect GIRK2 expression of the total protein and membrane protein in DRG and spinal dorsal horn of rats. Behavioral testing was applied to evaluate the effect of intrathecal injection of GIRK2-specific agonist ML297 on thermal nociceptive threshold on day 1 after remifentanil infusion. Resultsmmunofluorescence results showed that GIRK2 was mainly co-localized with IB4-positive small neurons in DRG and nerve fibers in spinal dorsal horn. GIRK2 expression was significantly downregulated following remifentanil treatment. Immunoblotting results revealed that on day 1 following intravenous infusion of remifentanil, compared with those in the control group, GIRK2 expression levels of the total protein and membrane protein in DRG (0.47 ± 0.10 vs. 1.01 ± 0.17, P < 0.001; 0.47 ± 0.11 vs. 1.06 ± 0.12, P < 0.001) and spinal dorsal horn (0.52 ± 0.09 vs. 1.10 ± 0.08, P < 0.001; 0.54 ± 0.10 vs. 1.01 ± 0.13, P < 0.001) were all significantly decreased. The behavioral results showed that intrathecal ML297 effect on thermal withdrawal latency was significantly reduced following remifentanil treatment (P < 0.001). ConclusionsRemifentanil might induce hyperalgesia via down-regulating GIRK2 expression in rat DRG and spinal cord dorsal horn.
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SUMMARY: This study aims to investigate the effect of Tangzhouling on the morphological changes of Nissl bodies in the dorsal root ganglion of DM Rats. In this study, 69 rats were randomly divided into a control group (n = 10) and a model group (n = 59). The rats in the model group were randomly divided into a diabetic group (n = 11), a vitamin C group (n = 12), a low dose Tangzhouling group (n = 12), a medium dose Tangzhouling group (n = 12) and a high dose Tangzhouling group (n = 12). The dose of Tangzhouling in the low dose group was 5 times that of the adult dose, being 0.44g/kg/d. The dose of Tangzhouling in the medium dose group was 10 times that of the adult dose, being 0.88g/kg/d. The dose of Tangzhouling in the high dose group was 20 times that of the adult dose, being 1.75g/kg/d. All doses above are crude drug dosages. Rats in the vitamin C group were given 10 times the dose of an adult, being, 0.05 g/ kg/d. The diabetic group and the control group were given the same amount of distilled water. Drug delivery time is 16 weeks. The dorsal root ganglion was placed in a freezing tube at the end of the experiment. The morphological changes of Nissl bodies in the dorsal root ganglion were detected by HE and Nissl staining. The study results showed that vitamin C had no significant effect on the quantity, size and nucleolus. Tangzhouling can improvee the morphology, quantity and nucleolus of Nissl bodies to a certain extent, and the high dose is better than the lower dose. Tangzhouling capsules can improve the nerve function of DM rats through Nissl bodies.
RESUMEN: Este estudio tuvo como objetivo investigar el efecto de Tangzhouling en los cambios morfológicos de los cuerpos de Nissl en el ganglio de la raíz dorsal de las ratas DM. En este estudio, 69 ratas se dividieron aleatoriamente en un grupo control (n = 10) y un grupo modelo (n = 59). Las ratas del grupo modelo se dividieron aleatoriamente en un grupo diabéticos (n = 11), un grupo vitamina C (n = 12), un grupo de dosis baja de Tangzhouling (n = 12), un grupo de dosis media de Tangzhouling (n = 12) y un grupo de dosis alta de Tangzhouling (n = 12). La dosis de Tangzhouling en el grupo de dosis baja fue 5 veces mayor que la dosis del adulto, siendo 0,44 g/kg/d. La dosis de Tangzhouling en el grupo de dosis media fue 10 veces mayor que la dosis del adulto, siendo 0,88 g/kg/d. La dosis de Tangzhouling en el grupo de dosis alta fue 20 veces mayor que la dosis del adulto, siendo 1,75 g/kg/d. Todas las dosis anteriores son dosis de fármaco crudo. Se les administró 10 veces la dosis de un adulto a las ratas del grupo vitamina C, siendo 0,05 g/kg/d. El grupo de diabéticos y el grupo de control recibieron la misma cantidad de agua destilada. El tiempo de entrega del fármaco fue de 16 semanas. El ganglio de la raíz dorsal se colocó en un tubo de congelación al final del experimento. Los cambios morfológicos de los cuerpos de Nissl en el ganglio de la raíz dorsal se detectaron mediante tinción de HE y Nissl. Los resultados del estudio mostraron que la vitamina C no tuvo un efecto significativo sobre la cantidad, el tamaño y el nucléolo. Tangzhouling puede mejorar la morfología, la cantidad y el nucléolo de los cuerpos de Nissl hasta cierto punto, y es mejor la dosis alta que la dosis baja. Las cápsulas de Tangzhouling pueden mejorar la función nerviosa de las ratas DM a través de los cuerpos de Nissl.
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Animais , Ratos , Doenças do Sistema Nervoso Periférico , Neuropatias Diabéticas , Gânglios Espinais/efeitos dos fármacos , Corpos de Nissl/efeitos dos fármacos , Coloração e Rotulagem , Modelos Animais de DoençasRESUMO
Objective:To study the analgesic effect of α-cobratoxin (α-CbTX) on mice and its effect on protein kinase A (PKA) activity of spinal dorsal root ganglion (DRG) in mice.Methods:Healthy male ICR mice( n=102) were randomly divided into low-, medium-, and high-dose α-CbTX groups (1 mg/kg, 3 mg/kg, 9 mg/kg respectively, gavage, n=21), solvent control group (equivalent volume of 0.9% normal saline, gavage, n=21), morphine positive control group (3 mg/kg, intraperitoneal injection, n=6)or aspirin positive control group(300 mg/kg, gavage, n=12). The analgesic effect of α-CbTX was evaluated by hot plate test, acetic acid twisting test and formalin foot licking test. Formalin plantar injection was used to induce pain and then the L4-L6 DRG was taken 30 minutes later. The expression of PKA C-α in L4-L6 DRG of mice were detected by Western blot.SPSS 16.0 software was used for statistical analysis. Repeated measurement ANOVA was used to evaluate the hot plate experimental data, and one-way ANOVA was used for other experimental data. LSD- t test was used for further pairwise comparison. Results:In the hot plate test, the interaction between group and time of mice paw licking latency was significant ( F=8.902, P<0.05). At 0.5 h after administration, the paw licking latencies of α-CbTX medium-dose group ((11.83±1.47)s)and α-CbTX high-dose group (( 14.33±12.1)s) were both longer than that of solvent control group((8.17±0.75) s) ( t=4.461, 7.053, both P<0.05). The efficacy of α-CbTX medium dose group lasted until 1.5 h after administration (all P<0.05), and that of α-CbTX high dose group lasted until 2 h after administration(all P<0.05). In the acetic acid writhing test, the writhing times in the low-, medium- and high-dose α-CbTX group((34.50±3.62) times, (26.17±2.40) times, (13.83±3.76) times)) were significantly lower than that in solvent control group ((42.50±4.59) times) ( t=3.938, 8.040, 14.112, all P<0.05). In the period of the formalin test phase Ⅱ, the total licking time of α-CbTX low-, medium- and high-dose groups ((71.17±6.46) s), (54.67±6.41) s, (40.50±3.89)s) were significantly shorter than that of the solvent control group ((98.67±11.50) s)( t=6.950, 11.120, 14.700, all P<0.05). In the Western blot experiment, compared with solvent control group (0.22±0.01), the levels of PKA C-α in the DRG of mice in low-, medium- and high-dose α-CbTX groups ((0.31±0.02), (0.41±0.03), (0.44±0.02)) were up-regulated ( t=3.140, 6.471, 7.492, all P<0.05). Conclusion:α-CbTX has obvious analgesic effect, and its analgesic mechanism may be related to the activation of PKA.
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OBJECTIVES@#Neuropathic pain (NP) is a chronic pain caused by somatosensory neuropathy or disease, and genistein (Gen) might be a potential drug for the treatment of NP. Therefore, this study aims to investigate the effect of Gen on lipopolysaccharide (LPS)-induced inflammatory injury of dorsal root ganglion neuron (DRGn) in rats and the possible molecular mechanism.@*METHODS@#The DRGn of 1-day-old juvenile rats were taken for isolation and culture. The DRGn in logarithmic growth phase were divided into a control group, a LPS group, a tubastatin hydrochloride (TSA)+LPS group, a Gen1+LPS group, a Gen2+LPS group, a Gen2+LPS+TSA group, a Gen2+pcDNA-histone deacetylase 6 (HDAC6)+LPS group, and a Gen2+pcDNA3.1+LPS group. The LPS group was treated with 1 μg/mL LPS for 24 h; the TSA+LPS group, the Gen1+LPS group, the Gen2+LPS group were treated with 5 μmol/L TSA, 5 μmol/L Gen, 10 μmol/L Gen respectively for 0.5 h, and then added 1 μg/mL LPS for 24 h; the Gen2+TSA+LPS group was treated with 10 μmol/L Gen and 5 μmol/L TSA for 0.5 h and then added 1 μg/mL LPS for 24 h; the Gen2+pcDNA-HDAC6+LPS group and the Gen2+pcDNA3.1+LPS group received 100 nmol/L pcDNA-HDAC6 and pcDNA3.1 plasmids respectively, and 24 h after transfection, 10 μmol/L Gen was pretreated for 0.5 h, and then added 1 μg/mL LPS for 24 h. Real-time RT-PCR was used to detect the HDAC6 mRNA expression in DRGn; CCK-8 method was used to detect cell viability of DRGn; flow cytometry was used to detect cell apoptosis of DRGn; ELISA was used to detect the levels of IL-1β, IL-6, and TNF-α in DRGn culture supernatant; Western blotting was used to detect the protein expression of HDAC6, Toll-like receptor 4 (TLR4), myeloid differentiation factor 88 (MyD88), and NF-κB p65 in DRGn.@*RESULTS@#Compared with the control group, the expression levels of HDAC6 mRNA and protein, the expression levels of TLR4 and MyD88 protein in DRGn of LPS group rats were significantly up-regulated, the ratio of p-NF-κB p65/NF-κB p65 was significantly increased, and the activity of DRGn was significantly decreased, the apoptosis rate was significantly increased, and the levels of IL-1β, IL-6 and TNF-α in the DRGn culture supernatant were significantly increased (all P<0.05). Compared with the LPS group, the expression levels of HDAC6 mRNA and protein, TLR4 and MyD88 protein expression levels in DRGn of the TSA+LPS group, the Gen1+LPS group, the Gen2+LPS group and the Gen2+TSA+LPS group were significantly down-regulated, the ratio of p-NF-κB p65/NF-κB p65 was significantly decreased, the activity of DRGn was significantly increased, the apoptosis rate was significantly decreased, and the levels of IL-1β, IL-6 and TNF-α in the DRGn culture supernatant were significantly decreased (all P<0.05), and the above changes were most obvious in the Gen2+TSA+LPS group. Compared with the Gen2+LPS group, the expression levels of HDAC6 mRNA and protein, TLR4 and MyD88 protein expression levels in DRGn of the Gen2+pcDNA-HDAC6+LPS group were significantly up-regulated, the ratio of p-NF-κB p65/NF-κB p65 was significantly increased, the activity of DRGn was significantly decreased, and the apoptosis rate was significantly increased, and the levels of IL-1β, IL-6 and TNF-α in the DRGn culture supernatant were significantly increased (all P<0.05).@*CONCLUSIONS@#Gen can alleviate LPS-induced DRGn inflammatory injury in rats, which might be related to down-regulating the expression of HDAC6 and further inhibiting the activation of TLR4/MyD88/NF-κB signaling pathway.
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Animais , Ratos , Gânglios Espinais , Genisteína/farmacologia , Desacetilase 6 de Histona/metabolismo , Interleucina-6/metabolismo , Lipopolissacarídeos , Fator 88 de Diferenciação Mieloide , NF-kappa B/metabolismo , Neurônios/metabolismo , RNA Mensageiro , Receptor 4 Toll-Like/metabolismo , Fator de Necrose Tumoral alfa/metabolismoRESUMO
OBJECTIVE@#To study the effect of electroacupuncture (EA) on oxaliplatin-induced peripheral neuropathy (OIPN) in rats.@*METHODS@#Male Sprague-Dawley rats were equally divided into 3 groups using a random number table: the control group, the OIPN group, and the EA (OIPN + EA) group, with 10 rats in each. The time courses of mechanical, cold sensitivity, and microcirculation blood flow intensity were determined. The morphology of the dorsal root ganglion (DRG) was observed by electron microscopic examination. The protein levels of nuclear factor E2-related factor 2 (Nrf2), heme oxygenase-1 (HO-1), and the transient receptor potential (TRP) protein family in DRGs were assayed by Western blot.@*RESULTS@#EA treatment significantly reduced mechanical allodynia and cold allodynia in OIPN rats (P<0.01). Notably, oxaliplatin treatment resulted in impaired microcirculatory blood flow and pathomorphological defects in DRGs (P<0.01). EA treatment increased the microcirculation blood flow and attenuated the pathological changes induced by oxaliplatin (P<0.01). In addition, the expression levels of Nrf2 and HO-1 were down-regulated, and the TRP protein family was over-expressed in the DRGs of OIPN rats (P<0.01). EA increased the expression levels of Nrf2 and HO-1 and decreased the level of TRP protein family in DRG (P<0.05 or P<0.01).@*CONCLUSION@#EA may be a potential alternative therapy for OIPN, and its mechanism may be mainly mediated by restoring the Nrf2/HO-1 signaling pathway.
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Animais , Masculino , Ratos , Eletroacupuntura/métodos , Hiperalgesia/terapia , Microcirculação , Fator 2 Relacionado a NF-E2 , Oxaliplatina/efeitos adversos , Doenças do Sistema Nervoso Periférico/induzido quimicamente , Ratos Sprague-DawleyRESUMO
Diabetic bladder dysfunction is one of the most common complications of urinary tract in diabetes. It is believed that the disorders of glucose metabolism, local tissue ischemia, superoxide-induced free radical production and axonal transport disorder are all involved in the development of diabetic bladder nerve dysfunction. Oxidative stress is believed to be the core mechanism of the above mentioned etiology. It may affect the transcription and translation process in the nucleus by interfering with the balance of intracellular oxidation and antioxidant, metabolism of neurotrophic factors and cellular signal transduction pathways, resulting in dysfunction of several important cellular pathways and decreased membrane stability. And eventually lead to nerve cell apoptosis. Therefore, controlling blood glucose, improving the microenvironment around dorsal root neurons, and protecting the stability of mitochondrial membrane may be potential methods for the treatment of diabetic bladder nerve dysfunction.
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Growth differentiation factor 15 (GDF-15) is a member of the transforming growth factor-β superfamily. It is widely distributed in the central and peripheral nervous systems. Whether and how GDF-15 modulates nociceptive signaling remains unclear. Behaviorally, we found that peripheral GDF-15 significantly elevated nociceptive response thresholds to mechanical and thermal stimuli in naïve and arthritic rats. Electrophysiologically, we demonstrated that GDF-15 decreased the excitability of small-diameter dorsal root ganglia (DRG) neurons. Furthermore, GDF-15 concentration-dependently suppressed tetrodotoxin-resistant sodium channel Nav1.8 currents, and shifted the steady-state inactivation curves of Nav1.8 in a hyperpolarizing direction. GDF-15 also reduced window currents and slowed down the recovery rate of Nav1.8 channels, suggesting that GDF-15 accelerated inactivation and slowed recovery of the channel. Immunohistochemistry results showed that activin receptor-like kinase-2 (ALK2) was widely expressed in DRG medium- and small-diameter neurons, and some of them were Nav1.8-positive. Blockade of ALK2 prevented the GDF-15-induced inhibition of Nav1.8 currents and nociceptive behaviors. Inhibition of PKA and ERK, but not PKC, blocked the inhibitory effect of GDF-15 on Nav1.8 currents. These results suggest a functional link between GDF-15 and Nav1.8 in DRG neurons via ALK2 receptors and PKA associated with MEK/ERK, which mediate the peripheral analgesia of GDF-15.
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Growth differentiation factor 15 (GDF-15) is a member of the transforming growth factor-β superfamily. It is widely distributed in the central and peripheral nervous systems. Whether and how GDF-15 modulates nociceptive signaling remains unclear. Behaviorally, we found that peripheral GDF-15 significantly elevated nociceptive response thresholds to mechanical and thermal stimuli in naïve and arthritic rats. Electrophysiologically, we demonstrated that GDF-15 decreased the excitability of small-diameter dorsal root ganglia (DRG) neurons. Furthermore, GDF-15 concentration-dependently suppressed tetrodotoxin-resistant sodium channel Nav1.8 currents, and shifted the steady-state inactivation curves of Nav1.8 in a hyperpolarizing direction. GDF-15 also reduced window currents and slowed down the recovery rate of Nav1.8 channels, suggesting that GDF-15 accelerated inactivation and slowed recovery of the channel. Immunohistochemistry results showed that activin receptor-like kinase-2 (ALK2) was widely expressed in DRG medium- and small-diameter neurons, and some of them were Nav1.8-positive. Blockade of ALK2 prevented the GDF-15-induced inhibition of Nav1.8 currents and nociceptive behaviors. Inhibition of PKA and ERK, but not PKC, blocked the inhibitory effect of GDF-15 on Nav1.8 currents. These results suggest a functional link between GDF-15 and Nav1.8 in DRG neurons via ALK2 receptors and PKA associated with MEK/ERK, which mediate the peripheral analgesia of GDF-15.
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Animais , Ratos , Analgesia , Gânglios Espinais , Fator 15 de Diferenciação de Crescimento , Células Receptoras Sensoriais , Canais de Sódio , Tetrodotoxina/farmacologiaRESUMO
Noxious mechanical information is transmitted through molecularly distinct nociceptors, with pinprick-evoked sharp sensitivity via A-fiber nociceptors marked by developmental expression of the neuropeptide Y receptor 2 (Npy2r) and von Frey filament-evoked punctate pressure information via unmyelinated C fiber nociceptors marked by MrgprD. However, the molecular programs controlling their development are only beginning to be understood. Here we demonstrate that Npy2r-expressing sensory neurons are in fact divided into two groups, based on transient or persistent Npy2r expression. Npy2r-transient neurons are myelinated, likely including A-fiber nociceptors, whereas Npy2r-persistent ones belong to unmyelinated pruriceptors that co-express Nppb. We then showed that the transcription factors NFIA and Runx1 are necessary for the development of Npy2r-transient A-fiber nociceptors and MrgprD C-fiber nociceptors, respectively. Behaviorally, mice with conditional knockout of Nfia, but not Runx1 showed a marked attenuation of pinprick-evoked nocifensive responses. Our studies therefore identify a transcription factor controlling the development of myelinated nociceptors.
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@#This study aimed to investigate the clinical efficacy of pulsed radiofrequency (PRF) of the dorsal root ganglion (DRG) with pain management as treatment of post-herpetic neuralgia (PHN). A total of 78 patients with PHN in the thoracolumbar region were randomly divided into two groups (n = 39 for each group): Group A, oral drug treatment only; Group B, DRG PRF of the thoracic spinal nerve combined with oral drug treatment. The numerical rating scale (NRS) scores of both groups were observed before treatment and at 1, 4, 8, and 12 weeks after treatment. The results showed that the NRS scores of both groups were significantly decreased after treatment (P < 0.05). In addition, the NRS score in Group B decreased significantly more than in Group A (P < 0.05). In conclusion, DRG PRF with pain management is a safe and effective treatment for elderly PHN patients, and it can quickly alleviate pain symptoms.
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BACKGROUND: Axons do not regenerate after central nervous system injury in mammals. It is mainly caused by the inhibitory microenvironment at the site of damage and the weakened self-regeneration ability. Studies have found that peripheral nervous system has certain regeneration ability after injury, so we explore the methods of central nervous system repair by studying the genes promoting peripheral nervous system regeneration. As one of the important protein kinase families of neurons, CaMKII up-regulation can improve the ability of neuron regeneration. Similarly, acute depletion of the Smad1 protein in adult mice also prevented axon regeneration in vivo. These genes can directly or indirectly regulate neuronal axon regeneration, but exactly how they regulate neuronal regeneration is still unclear. OBJECTIVE: To study the effects of CaMKII-Smad1 signaling pathway on axon regeneration of dorsal root ganglion neurons by intraperitoneal injection of CaMKII inhibitor and activator, and explored the mechanism of CaMKII and Smad1 in regulating axon regeneration of dorsal root ganglion neurons. METHODS: Totally 40 ICR mice were randomly divided into four groups: KN93 control group, KN93 experimental group, CdCl2 control group and CdCl2 experimental group. Dorsal root ganglion tissue was taken for in vitro culture after 7 days of continuous administration of CaMKII inhibitor KN93 and activator CdCl2. The length of axonal regeneration of dorsal root ganglion neurons was statistically analyzed after 3 days. Protein expression of p-Smad1 in dorsal root ganglion neurons was detected using western blot assay. RESULTS AND CONCLUSION: (1) Compared with the KN93 control group, axonal regeneration of dorsal root ganglion neurons was inhibited, and the p-Smad1 protein expression was decreased in the KN93 experimental group, showing significant differences. (2) Compared with the CdCl2 control group, axonal regeneration of dorsal root ganglion neurons was promoted, and p-Smad1 protein expression was increased in the CdCl2 experimental group, showing significant differences. (3) The results showed that the CaMKII-Smad1 signaling pathway had a regulatory effect on axonal regeneration of dorsal root ganglion neurons.
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BACKGROUND: Both serum-free and serum media have been used to culture dorsal root ganglion cells, but the difference between the two remains unclear. OBJECTIVE: To explore whether serum-free medium can completely replace serum medium for culture of dorsal root ganglion cells. METHODS: The dorsal root ganglion of ICR mice at 8-10 weeks was taken and treated with collagenase and trypsin. After that, the mice were divided into the electroporation + serum group, electroporation + serum-free group, non-electroporation + serum group and non-electroporation + serum-free group. In the electroporation groups, the dorsal root ganglion cells were transfected with electroporation buffer and enhanced green fluorescent protein particles. Cells were cultured for three days. After Tuj1 antibody staining, in the non-electroporation + serum group and non-electroporation + serum-free group, axon branches, axon regeneration length, number of cell survival and the expression of proteins related to axon regeneration were counted. In the electroporation + serum group and electroporation + serum-free group, axon branches, length of axon regeneration, number of cell survival, and electroporation efficiency were measured. This study was approved by the Laboratory Animal Ethics Committee of the First Affiliated Hospital of Soochow University. RESULTS AND CONCLUSION: (1) In the non-electroporation + serum group and non-electroporation + serum-free group, there was no significant difference in axon branches, axon regeneration length, number of cell survival and the expression of axon regeneration related proteins (P > 0.05). (2) In the electroporation + serum group and electroporation + serum-free group, there was no significant difference in axon branches, axon regeneration length and electroporation efficiency (P > 0.05). Compared with electroporation + serum group, the number of cell survival of the electroporation + serum-free group was significantly lower (P 0.05). The number of cell survival of the non-electroporation + serum group was significantly higher than that of the electroporation + serum group (P < 0.05). (4) The results showed that, in the condition of non-electroporation, the absence of serum does not affect the culture of dorsal root ganglion in vitro, and serum-free medium can replace serum medium. However, under the condition of electroporation, the number of cell survival would be decreased without serum medium, suggesting that serum plays an important role in the culture of dorsal root ganglion in vitro under the condition of electroporation. Therefore, serum-free media cannot replace serum media.
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BACKGROUND: Electroporation of dorsal root ganglion is a high-efficiency gene transfection method to study nerve regeneration. In the past, the voltage condition of dorsal root ganglion electroporation resulted in a reduction in the number of labeled neurons and axons, with a high statistical error. OBJECTIVE: To improve the marker rate of neurons and their axons, and to provide theoretical basis for the study of peripheral nerve regeneration. METHODS: The enhanced green fluorescent protein was as an outcome measure to optimize dorsal root ganglion electroporation in axonal regeneration. ICR mice were randomly divided into two groups, respectively, and underwent dorsal root ganglion electroperforation surgery to detect the labeling rates of neurons and their axons under the intervention of 35 and 60 V voltages. RESULTS AND CONCLUSION: Voltages at 35 and 60 V did not cause significant neuronal death. Compared with 35 V voltage, 60 V voltage significantly increased the labeling rate of neurons and their axons as well as the number of axons passing through the injured site (P < 0.05). The 60 V voltage did not damage the behavioral function of the experimental animals. These results suggest that 60 V voltage can increase the labeling rate of neurons and their axons, providing a basis for the study of axonal regeneration in peripheral nerves.
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Objective@#To explore the expression of the N-methyl-D-aspartate (NMDA) receptor in the rat model of orchialgia and its possible mechanisms.@*METHODS@#According to Yoshioka's method, the male rats in the control group were injected with 0.2 ml saline, and those in the experimental group with 0.2 ml 2% acetic acid solution. Then we tested the behavioral responses of the rats and determined the expressions of the subunits NR1 and NR2B of the NMDA receptor in the dorsal root ganglion and spinal dorsal horn by Western blot, RT-qPCR and immunofluorescence staining.@*RESULTS@#The withdrawal latency was decreased in the model rats, reaching the lowest value at 4 hours after modeling, significantly lower than in the controls ([4.15 ± 0.84] vs [12.32 ± 1.05], P 0.05).@*CONCLUSIONS@#The NMDA receptor plays an important role in pathogenesis of orchialgia in rats. In the early stage of pain, upregulating the expression of the subunit NR2B of the NMDA receptor can mediate peripheral hyperalgesia and consequently orchialgia.
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High-voltage-activated (HVA) Ca channels are widely expressed in the nervous system. They play an important role in pain conduction by participating in various physiological processes such as synaptic transmission, changes in synaptic plasticity, and neuronal excitability. Available evidence suggests that the HVA channel is an important therapeutic target for pain management. In this review, we summarize the changes in different subtypes of HVA channel during pain and present the currently available evidence from the clinical application of HVA channel blockers. We also review novel drugs in various phases of development. Moreover, we discuss the future prospects of HVA channel blockers in order to promote "bench-to-bedside" translation.
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Objective To investigate the regulation of microtubules by Nogo-A in the dorsal root ganglia during the inflammatory pain. Methods The ipsilateral paw withdrawal latency (PWL) was measured in wild type rats(WT, n = 12) and Nogo-A konck-out (Nogo-A KO) rats (n = 14) after complete Freunds adjuvant (CFA) injection. Western blotting and immunofluorescent staining were used to study the expression of microtubules and phosphorylated collapsin response mediator protein 2(p-CRMP2)in the dorsal root ganglion (DRG) of both groups. Results Knock out of Nogo-A in rats had'attenuated the CFA-induced inflammatory hyperalgesia. The acetylated tubulin was reduced, and the expression of p-CRMP2 was increased in the DRG of the Nogo-A KO rats. Conclusion Nogo-A is involved in the regulation of inflammatory heat hyperalgesia by promoting the microtubule polymerization via CRMP2 pathway.