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Role of neurotrophic factors in enhancing linear axonal growth of ganglionic sensory neurons in vitro 被引量:3
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作者 Michele Fornaro Alessia Giovannelli +4 位作者 Angelica Foggetti Luisa Muratori Stefano Geuna Giorgia Novajra Isabelle Perroteau 《Neural Regeneration Research》 SCIE CAS CSCD 2020年第9期1732-1739,共8页
Neurotrophins play a major role in the regulation of neuronal growth such as neurite sprouting or regeneration in response to nerve injuries. The role of nerve growth factor, neurotrophin-3, and brain-derived neurotro... Neurotrophins play a major role in the regulation of neuronal growth such as neurite sprouting or regeneration in response to nerve injuries. The role of nerve growth factor, neurotrophin-3, and brain-derived neurotrophic factor in maintaining the survival of peripheral neurons remains poorly understood. In regenerative medicine, different modalities have been investigated for the delivery of growth factors to the injured neurons, in search of a suitable system for clinical applications. This study was to investigate the influence of nerve growth factor, neurotrophin-3 and brain-derived neurotrophic factor on the growth of neurites using two in vitro models of dorsal root ganglia explants and dorsal root ganglia-derived primary cell dissociated cultures. Quantitative data showed that the total neurite length and tortuosity were differently influenced by trophic factors. Nerve growth factor and, indirectly, brain-derived neurotrophic factor stimulate the tortuous growth of sensory fibers and the formation of cell clusters. Neurotrophin-3, however, enhances neurite growth in terms of length and linearity allowing for a more organized and directed axonal elongation towards a peripheral target compared to the other growth factors. These findings could be of considerable importance for any clinical application of neurotrophic factors in peripheral nerve regeneration. Ethical approval was obtained from the Regione Piemonte Animal Ethics Committee ASLTO1(file # 864/2016-PR) on September 14, 2016. 展开更多
关键词 brain-derived neurotrophic factor DIRECTIONALITY dorsal root ganglia explant nerve growth factor nerve regeneration neurite growth enhancement neurotrophic factors NEUROTROPHIN-3 sensory neurons TORTUOSITY
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Sensory neurons in the spinal cord of nominal female embryos in the marine turtle Lepidochelys olivacea respond to shifts in incubation temperature:implications for temperature dependent sex determination
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作者 Francisco Jimenez-Trejo Leonora Olivos-Cisneros +6 位作者 Julieta Mendoza-Torreblanca Sofia Diaz-Cintra Esperanza-Melendez-Herrera Armida Baez-Saldana Patricia Padilla Cortes Gabriel Gutierrez-Ospina Alma Lilia Fuentes-Farias 《Advances in Bioscience and Biotechnology》 2011年第1期1-7,共7页
Gonadal determination in marine turtles depends on incubation temperature. The mechanisms that spark off this process remain unclear. Previously, we proposed that sensory nerves reaching the gonadal primordium in nomi... Gonadal determination in marine turtles depends on incubation temperature. The mechanisms that spark off this process remain unclear. Previously, we proposed that sensory nerves reaching the gonadal primordium in nominal female embryos of Lepidochelys (L) olivacea may sense and signal incubation temperature. These nerves could later trigger ovarian determination by releasing neurotransmitters in a code constructed based on the thermal information (Gutierrez-Ospina et al., Acetylcholinesterase-positive innervation is present at the undifferentiated stages of the sea turtle Lepidochelys olivacea embryo gonads: implications for temperature-dependent sex determination, J. Comp. Neurol. 410 (1999) 90-98). The hypothesis briefly described, however, has been recently refuted under weak theoretical grounds and experimental misinterpretations (see introduction). Here, we present preliminary results that show that nominal female embryos have sensory neurons located in the dorsal horn laminae I and II of the lumbar spinal cord that display increased c-Fos-like immuno-staining after being incubated either at 15°C or 50°C. Because these spinal neurons are the primary central target of dorsal root ganglion neurons that innervate the urogential crest, these observations keep open the possibility that gonadal sensory nerves indeed signal thermal information that could later be used to trigger or instruct ovarian specification in marine turtles. 展开更多
关键词 Reptiles Ovarian Determination C-FOS Incubation Temperature sensory neurons
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FOXO3a as a sensor of unilateral nerve injury in sensory neurons ipsilateral, contralateral and remote to injury
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作者 Jovan CDHasmatali Jolly De Guzman +4 位作者 Jayne MJohnston Hossein Noyan Bernhard HJuurlink Vikram Misra Valerie MKVerge 《Neural Regeneration Research》 SCIE CAS CSCD 2020年第12期2353-2361,共9页
Emerging evidence supports that the stress response to peripheral nerve injury extends beyond the injured neuron,with alterations in associated transcription factors detected both locally and remote to the lesion.Stre... Emerging evidence supports that the stress response to peripheral nerve injury extends beyond the injured neuron,with alterations in associated transcription factors detected both locally and remote to the lesion.Stress-induced nuclear translocation of the transcription factor forkhead class box O3a(FOXO3a)was initially linked to activation of apoptotic genes in many neuronal subtypes.However,a more complex role of FOXO3a has been suggested in the injury response of sensory neurons,with the injured neuron expressing less FOXO3a.To elucidate this response and test whether non-injured sensory neurons also alter FOXO3a expression,the temporal impact of chronic unilateral L4–6 spinal nerve transection on FOXO3a expression and nuclear localization in adult rat dorsal root ganglion neurons ipsilateral,contralateral or remote to injury relative to na?ve controls was examined.In na?ve neurons,high cytoplasmic and nuclear levels of FOXO3a colocalized with calcitonin gene related peptide,a marker of the nociceptive subpopulation.One hour post-injury,an acute increase in nuclear FOXO3a in small size injured neurons occurred followed by a significant decrease after 1,2 and 4 days,with levels increasing toward pre-injury levels by 1 week post-injury.A more robust biphasic response to the injury was observed in uninjured neurons contralateral to and those remote to injury.Nuclear levels of FOXO3a peaked at 1 day,decreased by 4 days,then increased by 1 week post-injury,a response mirrored in C4 dorsal root ganglion neurons remote to injury.This altered expression contralateral and remote to injury supports that spinal nerve damage has broader systemic impacts,a response we recently reported for another stress transcription factor,Luman/CREB3.The early decreased expression and nuclear localization of FOXO3a in the injured neuron implicate these changes in the cell body response to injury that may be protective.Finally,the broader systemic changes support the existence of stress/injury-induced humeral factor(s)influencing transcriptional and potentially behavioral changes in uninjured dorsal root ganglion neurons.Approval to conduct this study was obtained from the University of Saskatchewan Animal Research Ethics Board(protocol#19920164). 展开更多
关键词 cell body response contralateral response dorsal root ganglion peripheral nerve injury plasticity sciatic nerve sensory neuron stress systemic transcription factor unilateral peripheral nerve injury
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Polyethylene glycol fusion repair of severed sciatic nerves accelerates recovery of nociceptive sensory perceptions in male and female rats of different strains
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作者 Liwen Zhou Karthik Venkudusamy +9 位作者 Emily A.Hibbard Yessenia Montoya Alexa Olivarez Cathy Z.Yang Adelaide Leung Varun Gokhale Guhan Periyasamy Zeal Pathak Dale R.Sengelaub George D.Bittner 《Neural Regeneration Research》 SCIE CAS 2025年第9期2667-2681,共15页
Successful polyethylene glycol fusion(PEG-fusion)of severed axons following peripheral nerve injuries for PEG-fused axons has been reported to:(1)rapidly restore electrophysiological continuity;(2)prevent distal Walle... Successful polyethylene glycol fusion(PEG-fusion)of severed axons following peripheral nerve injuries for PEG-fused axons has been reported to:(1)rapidly restore electrophysiological continuity;(2)prevent distal Wallerian Degeneration and maintain their myelin sheaths;(3)promote primarily motor,voluntary behavioral recoveries as assessed by the Sciatic Functional Index;and,(4)rapidly produce correct and incorrect connections in many possible combinations that produce rapid and extensive recovery of functional peripheral nervous system/central nervous system connections and reflex(e.g.,toe twitch)or voluntary behaviors.The preceding companion paper describes sensory terminal field reo rganization following PEG-fusion repair of sciatic nerve transections or ablations;howeve r,sensory behavioral recovery has not been explicitly explored following PEG-fusion repair.In the current study,we confirmed the success of PEG-fusion surgeries according to criteria(1-3)above and more extensively investigated whether PEG-fusion enhanced mechanical nociceptive recovery following sciatic transection in male and female outbred Sprague-Dawley and inbred Lewis rats.Mechanical nociceptive responses were assessed by measuring withdrawal thresholds using von Frey filaments on the dorsal and midplantar regions of the hindpaws.Dorsal von Frey filament tests were a more reliable method than plantar von Frey filament tests to assess mechanical nociceptive sensitivity following sciatic nerve transections.Baseline withdrawal thresholds of the sciatic-mediated lateral dorsal region differed significantly across strain but not sex.Withdrawal thresholds did not change significantly from baseline in chronic Unoperated and Sham-operated rats.Following sciatic transection,all rats exhibited severe hyposensitivity to stimuli at the lateral dorsal region of the hindpaw ipsilateral to the injury.However,PEG-fused rats exhibited significantly earlier return to baseline withdrawal thresholds than Negative Control rats.Furthermore,PEG-fused rats with significantly improved Sciatic Functional Index scores at or after 4 weeks postoperatively exhibited yet-earlier von Frey filament recove ry compared with those without Sciatic Functional Index recovery,suggesting a correlation between successful PEG-fusion and both motor-dominant and sensory-dominant behavioral recoveries.This correlation was independent of the sex or strain of the rat.Furthermore,our data showed that the acceleration of von Frey filament sensory recovery to baseline was solely due to the PEG-fused sciatic nerve and not saphenous nerve collateral outgrowths.No chronic hypersensitivity developed in any rat up to 12 weeks.All these data suggest that PEG-fusion repair of transection peripheral nerve injuries co uld have important clinical benefits. 展开更多
关键词 autophagia AXOTOMY collateral sprouting neuropathic pain peripheral nerve repair polyethylene glycol fusion(PEG-fusion) saphenous nerve sensory neurons sex and strain Wallerian degeneration
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Satellite glial cells in sensory ganglia play a wider role in chronic pain via multiple mechanisms
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作者 Xiaoyun Qiu Yuanzhi Yang +3 位作者 Xiaoli Da Yi Wang Zhong Chen Cenglin Xu 《Neural Regeneration Research》 SCIE CAS CSCD 2024年第5期1056-1063,共8页
Satellite glial cells are unique glial cells that surround the cell body of primary sensory neurons.An increasing body of evidence suggests that in the presence of inflammation and nerve damage,a significant number of... Satellite glial cells are unique glial cells that surround the cell body of primary sensory neurons.An increasing body of evidence suggests that in the presence of inflammation and nerve damage,a significant number of satellite glial cells become activated,thus triggering a series of functional changes.This suggests that satellite glial cells are closely related to the occurrence of chronic pain.In this review,we first summarize the morphological structure,molecular markers,and physiological functions of satellite glial cells.Then,we clarify the multiple key roles of satellite glial cells in chronic pain,including gap junction hemichannel Cx43,membrane channel Pannexin1,K channel subunit 4.1,ATP,purinergic P2 receptors,and a series of additional factors and their receptors,including tumor necrosis factor,glutamate,endothelin,and bradykinin.Finally,we propose that future research should focus on the specific sorting of satellite glial cells,and identify genomic differences between physiological and pathological conditions.This review provides an important perspective for clarifying mechanisms underlying the peripheral regulation of chronic pain and will facilitate the formulation of new treatment plans for chronic pain. 展开更多
关键词 chronic pain primary sensory neurons satellite glial cells sensory ganglia
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Scorpion toxin BmKI directly activates Nav1.8 in primary sensory neurons to induce neuronal hyperexcitability in rats 被引量:10
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作者 Pin Ye Yunlu Jiao +5 位作者 Zhenwei Li Liming Hua Jin Fu Feng Jiang Tong Liu Yonghua Ji 《Protein & Cell》 SCIE CAS CSCD 2015年第6期443-452,共10页
Voltage-gated sodium channels (VGSCs) in primary sensory neurons play a key role in transmitting pain signals to the central nervous system. BmK I, a site-3 sodium channel-specific toxin from scorpion Buthus martens... Voltage-gated sodium channels (VGSCs) in primary sensory neurons play a key role in transmitting pain signals to the central nervous system. BmK I, a site-3 sodium channel-specific toxin from scorpion Buthus martensi Karsch, induces pain behaviors in rats. How- ever, the subtypes of VGSCs targeted by BmK I were not entirely clear. We therefore investigated the effects of BmK I on the current amplitude, gating and kinetic properties of Nav1.8, which is associated with neuronal hyperexcitability in DRG neurons. It was found that BmK I dose-dependently increased Nav1.8 current in small- sized (〈25 μm) acutely dissociated DRG neurons, which correlated with its inhibition on both fast and slow in- activation. Moreover, voltage-dependent activation and steady-state inactivation curves of Nay1.8 were shifted in a hyperpolarized direction. Thus, BmK I reduced the threshold of neuronal excitability and increased action potential firing in DRG neurons. In conclusion, our data clearly demonstrated that BmK I modulated Nav1.8 re- markably, suggesting BmK I as a valuable probe for studying Nay1.8. And Navl.8 is an important target re- lated to BmK I-evoked pain. 展开更多
关键词 voltage-gated sodium channel Nay1.8 primary sensory neurons BmK I
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Response enhancement of olfactory sensory neurons-based biosensors for odorant detection 被引量:2
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作者 Chun-sheng WU Pei-hua CHEN Qing YUAN Ping WANG 《Journal of Zhejiang University-Science B(Biomedicine & Biotechnology)》 SCIE CAS CSCD 2009年第4期285-290,共6页
This paper presents a novel strategy for the response enhancement of olfactory sensory neurons (OSNs)-based biosensors by monitoring the enhancive responses of OSNs to odorants. An OSNs-based biosensor was developed o... This paper presents a novel strategy for the response enhancement of olfactory sensory neurons (OSNs)-based biosensors by monitoring the enhancive responses of OSNs to odorants. An OSNs-based biosensor was developed on the basis of the light addressable potentiometric sensor (LAPS), in which rat OSNs were cultured on the surface of LAPS chip and served as sensing elements. LY294002, the specific inhibitor of phosphatidylinositol 3-kinase (PI3K), was used to enhance the responses of OSNs to odorants. The responses of OSNs to odorants with and without the treatment of LY294002 were recorded by LAPS. The results show that the enhancive effect of LY294002 was recorded efficiently by LAPS and the responses of this OSNs-LAPS hybrid biosensor were enhanced by LY294002 by about 1.5-fold. We conclude that this method can enhance the responses of OSNs-LAPS hybrid biosensors, which may provide a novel strategy for the bioelectrical signal monitor of OSNs in biosensors. It is also suggested that this strategy may be applicable to other kinds of OSNs-based biosensors for cellular activity detection, such as microelectrode array (MEA) and field effect transistor (FET). 展开更多
关键词 Olfactory sensory neurons (OSNs) Response enhancement Light addressable potentiometric sensor (LAPS) Olfactory-based biosensor
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The dorsal root ganglion as a target for neurorestoration in neuropathic pain 被引量:1
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作者 Guillermo Estivill-Torrús Ana Belen Martínez-Padilla +2 位作者 Lourdes Sánchez-Salido Anne Baron-Van Evercooren Beatriz García-Díaz 《Neural Regeneration Research》 SCIE CAS CSCD 2024年第2期296-301,共6页
Neuropathic pain is a severe and chronic condition widely found in the general population.The reason for this is the extensive variety of damage or diseases that can spark this unpleasant constant feeling in patients.... Neuropathic pain is a severe and chronic condition widely found in the general population.The reason for this is the extensive variety of damage or diseases that can spark this unpleasant constant feeling in patients.During the processing of pain,the dorsal root ganglia constitute an important region where dorsal root ganglion neurons play a crucial role in the transmission and propagation of sensory electrical stimulation.Furthermore,the dorsal root ganglia have recently exhibited a regenerative capacity that should not be neglected in the understanding of the development and resolution of neuropathic pain and in the elucidation of innovative therapies.Here,we will review the complex interplay between cells(satellite glial cells and inflammatory cells)and factors(cytokines,neurotrophic factors and genetic factors)that takes place within the dorsal root ganglia and accounts for the generation of the aberrant excitation of primary sensory neurons occurring in neuropathic pain.More importantly,we will summarize an updated view of the current pharmacologic and nonpharmacologic therapies targeting the dorsal root ganglia for the treatment of neuropathic pain. 展开更多
关键词 CYTOKINES dorsal root ganglia genetic factors neuropathic pain neurotrophic factors pharmacologic and nonpharmacologic therapies satellite glial cells sensory neurons
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FK506 contributes to peripheral nerve regeneration by inhibiting neuroinflammatory responses and promoting neuron survival
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作者 Yuhui Kou Zongxue Jin +3 位作者 Yusong Yuan Bo Ma Wenyong Xie Na Han 《Neural Regeneration Research》 SCIE CAS 2025年第7期2108-2115,共8页
FK506(Tacrolimus)is a systemic immunosuppressant approved by the U.S.Food and Drug Administration.FK506 has been shown to promote peripheral nerve regeneration,however,its precise mechanism of action and its pathways ... FK506(Tacrolimus)is a systemic immunosuppressant approved by the U.S.Food and Drug Administration.FK506 has been shown to promote peripheral nerve regeneration,however,its precise mechanism of action and its pathways remain unclear.In this study,we established a rat model of sciatic nerve injury and found that FK506 improved the morphology of the injured sciatic nerve,increased the numbers of motor and sensory neurons,reduced inflammatory responses,markedly improved the conduction function of the injured nerve,and promoted motor function recovery.These findings suggest that FK506 promotes peripheral nerve structure recovery and functional regeneration by reducing the intensity of inflammation after neuronal injury and increasing the number of surviving neurons. 展开更多
关键词 FK506 inflammation motor neurons nerve regeneration NEURON peripheral nerve injury sensory neurons
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Protein arginine methyltransferase-6 regulates heterogeneous nuclear ribonucleoprotein-F expression and is a potential target for the treatment of neuropathic pain
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作者 Xiaoyu Zhang Yuqi Liu +6 位作者 Fangxia Xu Chengcheng Zhou Kaimei Lu Bin Fang Lijuan Wang Lina Huang Zifeng Xu 《Neural Regeneration Research》 SCIE CAS 2025年第9期2682-2696,共15页
Protein arginine methyltransferase-6 participates in a range of biological functions,particularly RNA processing,transcription,chromatin remodeling,and endosomal trafficking.However,it remains unclear whether protein ... Protein arginine methyltransferase-6 participates in a range of biological functions,particularly RNA processing,transcription,chromatin remodeling,and endosomal trafficking.However,it remains unclear whether protein arginine methyl transferase-6 modifies neuropathic pain and,if so,what the mechanisms of this effect.In this study,protein arginine methyltransferase-6 expression levels and its effect on neuropathic pain were investigated in the spared nerve injury model,chronic constriction injury model and bone cancer pain model,using immunohistochemistry,western blotting,immunoprecipitation,and label-free proteomic analysis.The results showed that protein arginine methyltransferase-6 mostly co-localized withβ-tubulinⅢin the dorsal root ganglion,and that its expression decreased following spared nerve injury,chronic constriction injury and bone cancer pain.In addition,PRMT6 knockout(Prmt6~(-/-))mice exhibited pain hypersensitivity.Furthermore,the development of spared nerve injury-induced hypersensitivity to mechanical pain was attenuated by blocking the decrease in protein arginine methyltransferase-6 expression.Moreover,when protein arginine methyltransferase-6 expression was downregulated in the dorsal root ganglion in mice without spared nerve injury,increased levels of phosphorylated extracellular signal-regulated kinases were observed in the ipsilateral dorsal horn,and the response to mechanical stimuli was enhanced.Mechanistically,protein arginine methyltransferase-6 appeared to contribute to spared nerve injury-induced neuropathic pain by regulating the expression of heterogeneous nuclear ribonucleoprotein-F.Additionally,protein arginine methyltransfe rase-6-mediated modulation of hete rogeneous nuclear ribonucleoprotein-F expression required amino atids 319 to 388,but not classical H3R2 methylation.These findings indicated that protein arginine methyltransferase-6 is a potential therapeutic target fo r the treatment of peripheral neuro pathic pain. 展开更多
关键词 dorsal root ganglion heterogeneous nuclear ribonucleoprotein F neuropathic pain protein arginine methyltransferase-6 sensory neurons
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Alexa Fluor 488-conjugated cholera toxin subunit B optimally labels neurons 3-7 days after injection into the rat gastrocnemius muscle
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作者 Jing-Jing Cui Jia Wang +7 位作者 Dong-Sheng Xu Shuang Wu Ya-Ting Guo Yu-Xin Su Yi-Han Liu Yu-Qing Wang Xiang-Hong Jing Wan-Zhu Bai 《Neural Regeneration Research》 SCIE CAS CSCD 2022年第10期2316-2320,共5页
Neural tract tracing is used to study neural pathways and evaluate neuronal regeneration following nerve injuries.However,it is not always clear which tracer should be used to yield optimal results.In this study,we ex... Neural tract tracing is used to study neural pathways and evaluate neuronal regeneration following nerve injuries.However,it is not always clear which tracer should be used to yield optimal results.In this study,we examined the use of Alexa Fluor 488-conjugated cholera toxin subunit B(AF488-CTB).This was injected into the gastrocnemius muscle of rats,and it was found that motor,sensory,and sympathetic neurons were labeled in the spinal ventral horn,dorsal root ganglia,and sympathetic chain,respectively.Similar results were obtained when we injected AF594-CTB into the tibialis anterior muscle.The morphology and number of neurons were evaluated at different time points following the AF488-CTB injection.It was found that labeled motor and sensory neurons could be observed 12 hours post-injection.The intensity was found to increase over time,and the morphology appeared clear and complete 3-7 days post-injection,with clearly distinguishable motor neuron axons and dendrites.However,14 days after the injection,the quality of the images decreased and the neurons appeared blurred and incomplete.Nissl and immunohistochemical staining showed that the AF488-CTB-labeled neurons retained normal neurochemical and morphological features,and the surrounding microglia were also found to be unaltered.Overall,these results imply that the cholera toxin subunit B,whether unconjugated or conjugated with Alexa Fluor,is effective for retrograde tracing in muscular tissues and that it would also be suitable for evaluating the regeneration or degeneration of injured nerves. 展开更多
关键词 Alexa Fluor-conjugated cholera toxin subunit B calcitonin gene-related peptide MICROGLIA motor neurons neural tract tracing optimal time window sensory neurons somatotopic organization sympathetic neurons tibialis anterior muscle
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Transient receptor potential channel A1 involved in calcitonin gene-related peptide release in neurons 被引量:2
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作者 Nobumasa Ushio Yi Dai +2 位作者 Shenglan Wang Tetsuo Fukuoka Koichi Noguchi 《Neural Regeneration Research》 SCIE CAS CSCD 2013年第32期3013-3019,共7页
Transient receptor potential channel A1 is one of the important transducers of noxious stimuli in the primary afferents, which may contribute to generation of neurogenic inflammation and hyperalgesia. The present stud... Transient receptor potential channel A1 is one of the important transducers of noxious stimuli in the primary afferents, which may contribute to generation of neurogenic inflammation and hyperalgesia. The present study was designed to investigate if activation of transient receptor potential channel A1 may induce calcitonin gene-related peptide release from the primary afferent neurons. We found that application of allyl isothiocyanate, a transient receptor potential channel A1 activator, caused calcitonin gene-related peptide release from the cultured rat dorsal root ganglion neurons. Knock- down of transient receptor potential channel A1 with an antisense oligodeoxynucleotide prevented calcitonin gene-related peptide release by allyl isothiocyanate application in cultured dorsal root ganglion neurons. Thus, we concluded that transient receptor potential channel A1 activation caused calcitonin gene-related peptide release in sensory neurons. 展开更多
关键词 neural regeneration transient receptor potential channel A1 calcitonin gene-related peptide dorsaroot ganglion neurons PAIN hyperaigesia noxious stimuli sensory neuron grants-supported paperneuroregeneration
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Synaptosomal-associated protein 25 may be an intervention target for improving sensory and locomotor functions after spinal cord contusion 被引量:1
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作者 Zhan-qiong Zhong Yang Xiang +6 位作者 Xi Hu You-cui Wang Xi Zeng Xiao-meng Wang Qing-jie Xia Ting-hua Wang Xiao Zhang 《Neural Regeneration Research》 SCIE CAS CSCD 2017年第6期969-976,共8页
Synaptosomal-associated protein 25 k Da(SNAP-25) is localized on the synapse and participates in exocytosis and neurotransmitter release. Decreased expression of SNAP-25 is associated with Alzheimer's disease and a... Synaptosomal-associated protein 25 k Da(SNAP-25) is localized on the synapse and participates in exocytosis and neurotransmitter release. Decreased expression of SNAP-25 is associated with Alzheimer's disease and attention deficit/hyperactivity disorder. However, the expression of SNAP-25 in spinal cord contusion injury is still unclear. We hypothesized that SNAP-25 is associated with sensory and locomotor functions after spinal cord injury. We established rat models of spinal cord contusion injury to detect gene changes with a gene array. A decreased level of SNAP-25 was detected by quantitative real time-polymerase chain reaction and western blot assay at 1, 3, 7, 14 and 28 days post injury. SNAP-25 was localized in the cytoplasm of neurons of the anterior and posterior horns, which are involved in locomotor and sensory functions. Our data suggest that reduced levels of SNAP-25 are associated with sensory and locomotor functions in rats with spinal cord contusion injury. 展开更多
关键词 sensory hyperactivity deficit cytoplasm localized unclear Chengdu autism neuronal minutes
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The role of Rho GTPase family in cochlear hair cells and hearing
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作者 Yu-Bei Dai Xiang Gao +1 位作者 Dong Liu Jie Gong 《Neural Regeneration Research》 SCIE CAS CSCD 2023年第10期2167-2172,共6页
Rho GTPases are essential regulators of the actin cytoskeleton.They are involved in various physiological and biochemical processes such as the regulation of cytoskeleton dynamics,development,proliferation,survival,an... Rho GTPases are essential regulators of the actin cytoskeleton.They are involved in various physiological and biochemical processes such as the regulation of cytoskeleton dynamics,development,proliferation,survival,and regeneration.During the development of cochlear hair cells,Rho GTPases are activated by various extracellular signals through membrane receptors to further stimulate multiple downstream effectors.Specifically,RhoA,Cdc42,and Rac1,members of the classical subfamily of the Rho GTPase family,regulate the development and maintenance of cilia by inducing the polymerization of actin monomers and stabilizing actin filaments.In addition,they also regulate the normal morphology orientation of ciliary bundles in auditory hair cells,which is an important element of cell polarity regulation.Moreover,the actin-related pathways mediated by RhoA,Cdc42,and Rac1 also play a role in the motility of outer hair cells,indicating that the function of Rho GTPases is crucial in the highly polar auditory sensory system.In this review,we focus on the expression of RhoA,Cdc42,and Rac1 in cochlear hair cells and how these small molecules participate in ciliary bundle morphogenesis and cochlear hair cell movement.We also discuss the progress of current research investigating the use of these small molecules as drug targets for deafness treatment. 展开更多
关键词 actin assembly auditory sensory neurons cell polarity cell proliferation ELECTROMOTILITY hair cell hearing loss MORPHOGENESIS Rho GTPases STEREOCILIA
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Computational analysis of genetic loci required for amphid structure and functions and their possibly corresponding microRNAs in C. elegans 被引量:1
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作者 胡亚欧 孙阳 +1 位作者 叶波平 王大勇 《Neuroscience Bulletin》 SCIE CAS CSCD 2007年第1期9-20,共12页
Objective To examine the important roles of microRNAs (miRNAs) in regulating amphid structure and function, we performed a computational analysis for the genetic loci required for the sensory perception and their po... Objective To examine the important roles of microRNAs (miRNAs) in regulating amphid structure and function, we performed a computational analysis for the genetic loci required for the sensory perception and their possibly corresponding miRNAs in C. elegans. Methods Total 55 genetic loci required for the amphid structure and function were selected. Sequence alignment was combined with E value evaluation to investigate and identify the possible corresponding miRNAs. Results Total 30 genes among the 55 genetic loci selected have their possible corresponding regulatory miRNA(s), and identified genes participate in the regulation of almost all aspects of amphid structure and function. In addition, our data suggest that both the amphid structure and the amphid functions might be regulated by a series of network signaling pathways. Moreover, the distribution of miRNAs along the 3' untranslated region (UTR) of these 30 genes exhibits different patterns. Conclusion We present the possible miRNA-mediated signaling pathways involved in the regulation of chemosensation and thermosensation by controlling the corresponding sensory neuron and interneuron functions. Our work will be useful for better understanding of the miRNA-mediated control of the chemotaxis and thermotaxis in C. elegans. 展开更多
关键词 microRNA cilia structure sensory neuron INTERNEURON computational analysis C. elegans
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Insights into platinum-induced peripheral neuropathy–current perspective 被引量:3
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作者 Andrijana Lazić Jelena Popović +2 位作者 Tatjana Paunesku Gayle EWoloschak Milena Stevanović 《Neural Regeneration Research》 SCIE CAS CSCD 2020年第9期1623-1630,共8页
Cancer is a global health problem that is often successfully addressed by therapy, with cancer survivors increasing in numbers and living longer world around. Although new cancer treatment options are continuously exp... Cancer is a global health problem that is often successfully addressed by therapy, with cancer survivors increasing in numbers and living longer world around. Although new cancer treatment options are continuously explored, platinum based chemotherapy agents remain in use due to their efficiency and availability. Unfortunately, all cancer therapies affect normal tissues as well as cancer, and more than 40 specific side effects of platinum based drugs documented so far decrease the quality of life of cancer survivors. Chemotherapy-induced peripheral neuropathy is a frequent side effects of platinum-based chemotherapy agents. This cluster of complications is often so debilitating that patients occasionally have to discontinue the therapy. Sensory neurons of dorsal root ganglia are at the core of chemotherapy-induced peripheral neuropathy symptoms. In these postmitotic cells, DNA damage caused by platinum chemotherapy interferes with normal functioning. Accumulation of DNA-platinum adducts correlates with neurotoxic severity and development of sensation of pain. While biochemistry of DNA-platinum adducts is the same in all cell types, molecular mechanisms affected by DNA-platinum adducts are different in cancer cells and non-dividing cells. This review aims to raise awareness about platinum associated chemotherapy-induced peripheral neuropathy as a medical problem that has remained unexplained for decades. We emphasize the complexity of this condition both from clinical and mechanistical point of view and focus on recent findings about chemotherapy-induced peripheral neuropathy in in vitro and in vivo model systems. Finally, we summarize current perspectives about clinical approaches for chemotherapy-induced peripheral neuropathy treatment. 展开更多
关键词 chemotherapy-induced peripheral neuropathy CIPN DNA-Pt adducts dorsal root ganglia DRG model systems molecular mechanisms NEUROTOXIC platinum based chemotherapy Pt sensory neurons treatment side effects
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Endogenous neurotrophin-3 promotes neuronal sprouting from dorsal root ganglia 被引量:2
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作者 Xu-yang Wang Pei-yuan Gu +6 位作者 Shi-wen Chen Wen-wei Gao Heng-li Tian Xiang-he Lu Wei-ming Zheng Qi-chuan Zhuge Wei-xing Hu 《Neural Regeneration Research》 SCIE CAS CSCD 2015年第11期1865-1868,共4页
In the present study, we investigated the role of endogenous neurotrophin-3 in nerve terminal sprouting 2 months after spinal cord dorsal root rhizotomy. The left L1-5 and L7-S2 dorsal root ganglia in adult cats were ... In the present study, we investigated the role of endogenous neurotrophin-3 in nerve terminal sprouting 2 months after spinal cord dorsal root rhizotomy. The left L1-5 and L7-S2 dorsal root ganglia in adult cats were exposed and removed, preserving the L6 dorsal root ganglia. Neurotrophin-3 was mainly expressed in large neurons in the dorsal root ganglia and in some neurons in spinal lamina II. Two months after rhizotomy, the number of neurotrophin-3-positive neurons in the spared dorsal root ganglia and the density of neurite sprouts emerging from these ganglia were increased. Intraperitoneal injection of an antibody against neurotrophin-3 decreased the density of neurite sprouts. These findings suggest that endogenous neurotrophin-3 is involved in spinal cord plasticity and regeneration, and that it promotes axonal sprouting from the dorsal root ganglia after spinal cord dorsal root rhizotomy. 展开更多
关键词 nerve regeneration NEUROTROPHIN-3 sensory neurons dorsal root ganglion CATS nerveterminal neural regeneration
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Effects of Intrathecally Administerd NaV1.8 Antisense Oligonucleotide on the Expression of Sodium Channel mRNA in Dorsal Root Ganglion 被引量:2
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作者 刘甬民 姚尚龙 +3 位作者 宋文阁 王月兰 刘东 曾涟 《Journal of Huazhong University of Science and Technology(Medical Sciences)》 SCIE CAS 2005年第6期696-699,共4页
Neuropathic pain has been hypothesized to be the result of aberrant expression and function of sodium channels at the site of injury. To investigate the effects of NaV1.8 antisense oligonucleotide on the expression of... Neuropathic pain has been hypothesized to be the result of aberrant expression and function of sodium channels at the site of injury. To investigate the effects of NaV1.8 antisense oligonucleotide on the expression of sodium channel mRNA in dorsal root ganglion (DRG) neurons in chronic neuropathic pain. 24 Sprague-Dawley rats weighing 200--260 g were anesthetized with the intraperitoneal injection of 300 mg· kg^-1 choral hydrate. The CCI model was made by loose ligation of sciatic nerve trunk by 4--0 chromic gut. The mechanical and thermal pain threshold were measured before operation and 1, 3, 5, 7, 9, 11, 13 days after operation. A PE-10 catheter was implanted in subarachnoid space at lumbar region. On the 7th postoperative day the animals were randomly divided into 4 groups. The drugs were injected intrathecally twice a day for 5 consecutive days in group 2--4. The animals were decapitated 14 days after the surgery. The L4--L6 DRG of the operated side was removed and crushed, and total RNA was extracted with Trizol reagent. The contralateral side was used as control. The change of NaV1.8 sodium channel transcripts was determined by RT-PCR. Pain threshold was significantly lowered after CCI as compared with that in control group and was elevated 3 days after antisense oligonucleotide injection. Sensory neuron specific TTX-R sodium channel NaV1.8 transcript was down-regulated after antisense oligonucleotide injection at the dosage of 45 μg as compared with that in CCI group (P〈0.01), and it was even greater at the dosage of 90 μg. The intrathecally injected NaV1.8 antisense oligonucleotide can reduce the mechanical allodynia and thermal hyperalgesia partially by downregulating the SNS transcript expression. 展开更多
关键词 tetrodotoxin-resistant sodium channel current neuropathic pain ANTISENSE dorsal root ganglion sensory neurons voltage sensing sodium channel type 1.8 (NaV1.8)
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The balance between efficient anti-inflammatory treatment and neuronal regeneration in the olfactory epithelium
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作者 Seo Young Chang Isaias Glezer 《Neural Regeneration Research》 SCIE CAS CSCD 2018年第10期1711-1714,共4页
The sense of smell is important for human quality of life. This sophisticated sensorial system relies on the detection of odorant molecules that engage receptors expressed in the cilia of dedicated neurons that consti... The sense of smell is important for human quality of life. This sophisticated sensorial system relies on the detection of odorant molecules that engage receptors expressed in the cilia of dedicated neurons that constitute the olfactory epithelium(OE). Importantly, the OE is a highly active site of adult neurogenesis where short-lived neurons are efficiently replenished, even after massive neuronal cell loss. It is suggested that the degree of olfactory function recovery after OE injury may depend on the nature of the lesion(traumatic, chemical, infectious or inflammatory), as well on the velocity of cellular regeneration. Topical steroidal anti-inflammatory drugs, such as glucocorticoids, are routinely prescribed for treating upper airway inflammatory conditions, such as chronic rhinosinusitis. While the therapeutic strategy aims to minimize the inflammatory damage and dysfunction to nasal air conduction, new evidences raise concerns if such drugs may impair neuronal regeneration in the OE. In consequence, new directions are necessary in terms of drug development or prescription, in order to preserve olfactory function through lifelong repeated episodes of chronic inflammation in the upper respiratory tract. Here we discuss mechanisms involved in glucocorticoid deleterious effects to OE regeneration and possible therapeutic alternatives considering relevant side effects. 展开更多
关键词 anti-inflammatory drugs CORTICOSTEROIDS HYPOSMIA inflammation RHINOSINUSITIS olfactory epithelium sensory neurons cell proliferation
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Loss of CO_2 sensing by the olfactory system of CNGA3 knockout mice
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作者 Jinlong HAN Minmin LUO 《Current Zoology》 SCIE CAS CSCD 北大核心 2010年第6期793-799,共7页
Atmospheric CO2 can signal the presence of food, predators or environmental stress and trigger stereotypical behaviors in both vertebrates and invertebrates. Recent studies have shown that the necklace olfactory syste... Atmospheric CO2 can signal the presence of food, predators or environmental stress and trigger stereotypical behaviors in both vertebrates and invertebrates. Recent studies have shown that the necklace olfactory system in mice sensitively detects CO2 in the air. Olfactory CO2 neurons are believed to rely on cyclic gnanosine monophosphate (cGMP) as the key second messenger; however, the specific ion channel underlying CO2 responses remains unclear. Here we show that CO2-evoked neuronal and behavioral responses require cyclic nucleotide-gated (CNG) channels consisting of the CNGA3 subunit. Through Ca2+-imaging, we found that CO2-triggered Ca2+ influx was abolished in necklace olfactory sensory neurons (OSNs) of CNGA3-knockout mice. Olfactory detection tests using a Go/No-go paradigm showed that these knockout mice failed to detect 0.5% CO2. Thus, sensitive detection of atmospheric CO2 depends on the function of CNG channels consisting of the CNGA3 subunit in necklace OSNs. These data support the important role of the necklace olfactory system in CO2 sensing and extend our understanding of the signal transduction pathway mediating CO2 detection in mammals [Current Zoology 56 (6): 793-799, 2010]. 展开更多
关键词 Olfactory sensory neurons Ca2+ imaging Go/No-go CGMP Guanylyl cyclase CNG channels
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