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The anti-nociceptive effect of bufalin,an active ingredient from toad venom via modulating voltage-gated sodium channels
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作者 SHEN Rui XU Jian +1 位作者 YIN Pei-hao TAO Jie 《中国药理学与毒理学杂志》 CAS CSCD 北大核心 2016年第10期1046-1046,共1页
OBJECTIVE Toad venom(Venenum Bufonis)isalways used for analgesia in China from ancient to modern times,but the effective component of it remains unclear.METHODS In the present study,we investigated the anti-nociceptiv... OBJECTIVE Toad venom(Venenum Bufonis)isalways used for analgesia in China from ancient to modern times,but the effective component of it remains unclear.METHODS In the present study,we investigated the anti-nociceptive effect and the underlying mechanism ofbufalin,an active ingredient fromtoad venom by animal behavior,patch clamp and calcium imaging.RESULTS Bufalin could significantly relieve formalin-induced spontaneous flinching and licking response as well as carrageenan-induced mechanical and thermal hyperalgesia.Using the whole-cel patch-clamp recording,bufalincaused remarkable suppressive effect on the peak currents of Na+channels in dorsal root ganglion neuroblastoma ND7-23 cel line in a U-shaped dependent manner.In addition,bufalinprompted the voltage-dependent activationand caused a negative shift of the fast-state inactivation of Na+channels.However,bufalin produced insignificant effect not onlyon voltage-dependent Kv4.2,Kv4.3 and BK channels,but also on the capsaicin induced Ca2+influx.CONCLUSION The present results indicate bufalin is capable of producing remarkable anti-nociceptive effects whichis probably ascribed to its specific modulation of voltage-gated Na+channels. 展开更多
关键词 BUFALIN sodium channels formalin test carrageenan test patch clamp
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Voltage-gated Sodium Channels and Blockers:An Overview and Where Will They Go?
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作者 Zhi-mei LI Li-xia CHEN Hua LI 《Current Medical Science》 SCIE CAS 2019年第6期863-873,共11页
Voltage-gated sodium(Nav)channels are critical players in the generation and propagation of action potentials by triggering membrane depolarization.Mutations in Nav channels are associated with a variety of channelopa... Voltage-gated sodium(Nav)channels are critical players in the generation and propagation of action potentials by triggering membrane depolarization.Mutations in Nav channels are associated with a variety of channelopathies,which makes them relevant targets for pharmaceutical intervention.Sofar,the cryoelectron microscopic structure of the human Nav 1.2,Nav 1.4,and Nav 1.7 has been reported,which sheds light on the molecular basis of functional mechanism of Nav channels and provides a path toward structure-based drug discovery.In this review,we focus on the recent advances in the structure,molecular mechanism and modulation of Nav channels,and state updated sodium channel blockers for the treatment of pathophysiology disorders and briefly discuss where the blockers may be developed in the future. 展开更多
关键词 voltage-gated sodium channels BLOCKERS Nav channel structures CHANNELOPATHIES
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PROPERTIES OF VOLTAGE-GATED SODIUM CHANNELS IN DEVELOPING AUDITORY NEURONS OF THE MOUSE IN VITRO
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作者 桂鸣 Lu-YangWang 《Chinese Medical Sciences Journal》 CAS CSCD 2003年第2期67-74,共8页
Objective. To investigate the properties of voltage-gated sodium (Na+) channels in developing auditoryneurons during early postnatal stages in the mammalian central nervous system.Methods. Using the whole-cell voltage... Objective. To investigate the properties of voltage-gated sodium (Na+) channels in developing auditoryneurons during early postnatal stages in the mammalian central nervous system.Methods. Using the whole-cell voltage-clamp technique, we have studied changes in the electrophysi-ological properties of Na+ channels in the principal neurons of the medial nucleus of the trapezoid body (MNTB).Results. We found that MNTB neurons already express functional Na+ channels at postnatal day 1 (P1),and that channel density begins to increase at P5 when the neurons receive synaptic innervation andreach its maximum (~3 fold) at P11 when functional hearing onsets. These changes were paralleled byan age-dependent acceleration in both inactivation and recovery from inactivation. In contrast, there wasvery little alteration in the voltage-dependence of inactivation.Conclusion. These profound changes in the properties of voltage-gated Na+ channels may increase theexcitability of MNTB neurons and enhance their phase-locking fidelity and capacity during high-frequencysynaptic transmission. 展开更多
关键词 voltage-gated sodium channels auditory neurons DEVELOPMENT
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Targeting voltage-gated sodium channels for treatment for chronic visceral pain 被引量:3
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作者 Fei-Hu Qi You-Lang Zhou Guang-Yin Xu 《World Journal of Gastroenterology》 SCIE CAS CSCD 2011年第19期2357-2364,共8页
Voltage-gated sodium channels (VGSCs) play a fundamental role in controlling cellular excitability,and their abnormal activity is related to several pathological processes,including cardiac arrhythmias,epilepsy,neurod... Voltage-gated sodium channels (VGSCs) play a fundamental role in controlling cellular excitability,and their abnormal activity is related to several pathological processes,including cardiac arrhythmias,epilepsy,neurodegenerative diseases,spasticity and chronic pain.In particular,chronic visceral pain,the central symptom of functional gastrointestinal disorders such as irritable bowel syndrome,is a serious clinical problem that affects a high percentage of the world population.In spite of intense research efforts and after the dedicated decade of pain control and research,there are not many options to treat chronic pain conditions.However,there is a wealth of evidence emerging to give hope that a more refined approach may be achievable.By using electronic databases,available data on structural and functional properties of VGSCs in chronic pain,particularly functional gastrointestinal hypersensitivity,were reviewed.We summarize the involvement and molecular bases of action of VGSCs in the pathophysiology of several organic and functionalgastrointestinal disorders.We also describe the efficacy of VGSC blockers in the treatment of these neurological diseases,and outline future developments that may extend the therapeutic use of compounds that target VGSCs.Overall,clinical and experimental data indicate that isoform-specific blockers of these channels or targeting of their modulators may provide effective and novel approaches for visceral pain therapy. 展开更多
关键词 Voltage-gated sodium channel Dorsal root ganglion Visceral pain Functional gastrointestinal disorders TREATMENT
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Expression and Role of Voltage-Gated Sodium Channels in Human Dorsal Root Ganglion Neurons with Special Focus on Nav1.7,Species Differences, and Regulation by Paclitaxel 被引量:13
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作者 Wonseok Chang Temugin Berta +3 位作者 Yong Ho Kim Sanghoon Lee Seok-Yong Lee Ru-Rong Ji 《Neuroscience Bulletin》 SCIE CAS CSCD 2018年第1期4-12,共9页
Voltage-gated sodium channels (Navs) play an important role in human pain sensation. However, the expression and role of Nav subtypes in native human sensory neurons are unclear. To address this issue, we obtained h... Voltage-gated sodium channels (Navs) play an important role in human pain sensation. However, the expression and role of Nav subtypes in native human sensory neurons are unclear. To address this issue, we obtained human dorsal root ganglion (hDRG) tissues from healthy donors. PCR analysis of seven DRG-expressed Nav subtypes revealed that the hDRG has higher expression of Navl.7 (,-~ 50% of total Nav expression) and lower expres- sion of Navl.8 (~ 12%), whereas the mouse DRG has higher expression of Nav 1.8 (- 45%) and lower expression of Navl.7 (- 18%). To mimic Nav regulation in chronic pain, we treated hDRG neurons in primary cultures with paclitaxel (0.1-1 μmol/L) for 24 h. Paclitaxel increased the Navl.7 but not Navl.8 expression and also increased the transient Na+ currents and action potential firing frequency in small-diameter (〈50 ~tm) hDRG neurons. Thus, the hDRG provides a translational model in which to study "human pain in a dish" and test new pain therapeutics. 展开更多
关键词 Dorsal root ganglion Neuropathic pain Paclitaxel Voltage-gated sodium channels
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Theoretical and simulation studies on voltage-gated sodium channels 被引量:1
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作者 Yang Li Haipeng Gong 《Protein & Cell》 SCIE CAS CSCD 2015年第6期413-422,共10页
Voltage-gated sodium (Nav) channels are indispensable membrane elements for the generation and propagation of electric signals in excitable cells. The successes in the crystallographic studies on prokaryotic Nay cha... Voltage-gated sodium (Nav) channels are indispensable membrane elements for the generation and propagation of electric signals in excitable cells. The successes in the crystallographic studies on prokaryotic Nay chan- nels in recent years greatly promote the mechanistic investigation of these proteins and their eukaryotic counterparts. In this paper, we mainly review the pro- gress in computational studies, especially the simula- tion studies, on these proteins in the past years. 展开更多
关键词 voltage-gated sodium channels molecular dynamics simulation ion permeation ionselectivity voltage gating
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Sodium channels in the apical membrane of human nasal epithelial cells
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作者 张欣欣 郭永清 +2 位作者 董震 杨占泉 张文杰 《Chinese Medical Journal》 SCIE CAS CSCD 2001年第3期89-92,110,共5页
Objective To study the electrophysiological properties of sodium channels in the apical membrane of human nasal epithelial cells Method Nasal epithelial cells of human inferior turbinate from patients with obstru... Objective To study the electrophysiological properties of sodium channels in the apical membrane of human nasal epithelial cells Method Nasal epithelial cells of human inferior turbinate from patients with obstructive sleep apnea syndrome were cultured in serum free medium on collagen gel coated membranes at an air liquid interface and studied by a patch clamp technique Results In cell attached patches, a typical single channel current with a conductance of 21 09?pS and reversal potential of -50 96 were recorded The permeability ratio P Na /P K was more than 5 80 In the presence of 10 4 mmol/L amiloride in the pipette, the incidence of sodium channels decreased from 26 67% to 5 13% This revealed that a population of channels were inhibited by amiloride at a dose of 10 4 mmol/L Ca 2+ at dose of 10 3 mmol/L did not influence the incidence of sodium channels There was no obvious association between voltage and the open probability of the channels Conclusions Our results indicate that most Na + channels in cell attached patches of human nasal epithelial cells are amiloride sensitive and Na + selective Only a few channels are amiloride insensitive The channels were not activated by extracellular Ca 2+ and the open probability followed a voltage independent manner 展开更多
关键词 sodium channels · patch clamp technique · human nasal epithelial cells
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Pertussis toxin modulation of sodium channels in the central neurons of cyhalothrin-resistant and cyhalothrinsusceptible cotton bollworm, Helicoverpa armigera
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作者 QIANG ZHAO DE-LING KONG +3 位作者 BING-JUN HE YAN-QIANG LIU XIAN-LIN FAN AN-XI LIU 《Insect Science》 SCIE CAS CSCD 2007年第2期107-115,共9页
Pertussis toxin (FIX) inhibits the activation of the α-subunit of the inhibitory heterotrimeric G-proteins (Cαi/o) and modulates voltage-gated sodium channels, which may be one of the primary targets of pyrethro... Pertussis toxin (FIX) inhibits the activation of the α-subunit of the inhibitory heterotrimeric G-proteins (Cαi/o) and modulates voltage-gated sodium channels, which may be one of the primary targets of pyrethroids. To investigate the potential mechanisms of agricultural pests resistance to pyrethroid insecticides, we examined the modulations by PTX on sodium channels in the central neurons of the 3rd-4th instar larvae of cyhalothrin-resistant (Cy-R) and cyhaiothrin-susceptible (Cy-S) Helicoverpa armigera by the whole-cell patch-clamp technique. The isolated neurons were cultured for 12-16 h in an improved L15 insect culture medium with or without PTX (400 ng/mL). The results showed that both the Cy-R and Cy-S sodium channels exhibited fast kinetics and tetrodotoxin (TTX) sensitivity. The Cy-R sodium channels exhibited not only altered gating properties, including a 8.88-mV right shift in voltage-dependent activation (V0.5act) and a 6.54-mV right shift in voltage-dependent inactivation (V0.5inact), but also a reduced peak in sodium channel density (Ⅰdensity) (55.2% of that in Cy-S neurons). Cy-R sodium channels also showed low excitability, as evidenced by right shift of activation potential (Ⅴacti) by 5-10 mV and peak potential (Ⅴpcak) by 20 mV. FIX exerted significant effects on Cy-S sodium channels, reducing sodium channel density by 70.04%, right shifting V0.5act by 14.41 mV and V0.5inact by 9. 38 mV. It did not cause any significant changes of the parameters mentioned above in the Cy-R sodium channels. The activation time (Tpeak) from latency to peak at peak voltage and the fast inactivation time constant (τinact) in both Cy-S and Cy-R neurons were not affected. The results suggest that cotton bollworm resistant to pyrethroid insecticides involves not only mutations and allosteric alterations of voltage-gated sodium channels, but also might implicate perturbation of PTX-sensitive Gαi/o-COupled signaling Wansduction pathways. 展开更多
关键词 CYHALOTHRIN G proteins Helicoverpa armigera insecticide resistant NEURON pertussis toxin sodium channels whole-cell patch-clamp technique
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Exploring the obscure profiles of pharmacological binding sites on voltage-gated sodium channels by BmK neurotoxins 被引量:6
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作者 Zhi-Rui Liu Pin Ye Yong-Hua Ji 《Protein & Cell》 SCIE CSCD 2011年第6期437-444,共8页
Diverse subtypes of voltage-gated sodium channels(VGSCs)have been found throughout tissues of the brain,muscles and the heart.Neurotoxins extracted from the venom of the Asian scorpion Buthus martensi Karsch(BmK)act a... Diverse subtypes of voltage-gated sodium channels(VGSCs)have been found throughout tissues of the brain,muscles and the heart.Neurotoxins extracted from the venom of the Asian scorpion Buthus martensi Karsch(BmK)act as sodium channel-specific modulators and have therefore been widely used to study VGSCs.α-type neurotoxins,named BmK I,BmKαIV and BmK abT,bind to receptor site-3 on VGSCs and can strongly prolong the inactivation phase of VGSCs.In contrast,β-type neurotoxins,named BmK AS,BmK AS-1,BmK IT and BmK IT2,occupy receptor site-4 on VGSCs and can suppress peak currents and hyperpolarize the activation kinetics of sodium channels.Accumulating evidence from binding assays of scorpion neurotoxins on VGSCs,however,indicate that pharmacological sensitivity of VGSC subtypes to different modulators is much more complex than that suggested by the simpleα-type and β-type neurotoxin distinction.Exploring the mechanisms of possible dynamic interactions between site 3-/4-specific modulators and region-and/or speciesspecific subtypes of VGSCs would therefore greatly expand our understanding of the physiological and pharmacological properties of diverse VGSCs.In this review,we discuss the pharmacological and structural diversity of VGSCs as revealed by studies exploring the binding properties and cross-competitive binding of site 3-or site 4-specific modulators in VGSC subtypes in synaptosomes from distinct tissues of diverse species. 展开更多
关键词 voltage-gated sodium channel receptor sites scorpion neurotoxins
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Phenolic acids isolated from the fungus Schizophyllum commune exert analgesic activity by inhibiting voltage-gated sodium channels 被引量:2
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作者 YAO Hui-Min WANG Gan +5 位作者 LIU Ya-Ping RONG Ming-Qiang SHEN Chuan-Bin YAN Xiu-Wen LUO Xiao-Dong LAI Ren 《Chinese Journal of Natural Medicines》 SCIE CAS CSCD 2016年第9期661-670,共10页
The present study was designed to search for compounds with analgesic activity from the Schizophyllum commune(SC), which is widely consumed as edible and medicinal mushroom world. Thin layer chromatography(TLC), tosil... The present study was designed to search for compounds with analgesic activity from the Schizophyllum commune(SC), which is widely consumed as edible and medicinal mushroom world. Thin layer chromatography(TLC), tosilica gel column chromatography, sephadex LH 20, and reverse-phase high performance liquid chromatography(RP-HPLC) were used to isolate and purify compounds from SC. Structural analysis of the isolated compounds was based on nuclear magnetic resonance(NMR). The effects of these compounds on voltage-gated sodium(NaV) channels were evaluated using patch clamp. The analgesic activity of these compounds was tested in two types of mouse pain models induced by noxious chemicals. Five phenolic acids identified from SC extracts in the present study included vanillic acid, m-hydroxybenzoic acid, o-hydroxybenzeneacetic acid, 3-hydroxy-5-methybenzoic acid, and p-hydroxybenzoic acid. They inhibited the activity of both tetrodotoxin-resistant(TTX-r) and tetrodotoxin-sensitive(TTX-s) NaV channels. All the compounds showed low selectivity on NaV channel subtypes. After intraperitoneal injection, three compounds of these compounds exerted analgesic activity in mice. In conclusion, phenolic acids identified in SC demonstrated analgesic activity, facilitating the mechanistic studies of SC in the treatment of neurasthenia. 展开更多
关键词 Schizophyllum commune sodium channel Phenolic acids PAIN
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Mechanism of action of two insect toxins huwentoxin-Ⅲ and hainantoxin-Ⅵ on voltage-gated sodium channels 被引量:1
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作者 Rui-lan WANG Su YI Song-ping LIANG 《Journal of Zhejiang University-Science B(Biomedicine & Biotechnology)》 SCIE CAS CSCD 2010年第6期451-457,共7页
Selenocosmia huwena and Selenocosmia hainana are two tarantula species found in southern China.Their venoms contain abundant peptide toxins.Two new neurotoxic peptides,huwentoxin-Ⅲ(HWTX-Ⅲ) and hainantoxin-VI(HNTX-VI... Selenocosmia huwena and Selenocosmia hainana are two tarantula species found in southern China.Their venoms contain abundant peptide toxins.Two new neurotoxic peptides,huwentoxin-Ⅲ(HWTX-Ⅲ) and hainantoxin-VI(HNTX-VI),were obtained from the venom using ion-exchange chromatography and reverse-phase high performance liquid chromatography(RP-HPLC).The mechanism of action of HWTX-Ⅲ and HNTX-VI on insect neuronal voltage-gated sodium channels(VGSCs) was studied via whole-cell patch clamp techniques.In a fashion similar to δ-atracotoxins,HNTX-VI can induce a slowdown of current inactivation of the VGSC and reduction in the peak of Na+ current in cockroach dorsal unpaired median(DUM) neurons.Meanwhile,10 μmol/L HNTX-IV caused a positive shift of steady-state inactivation of sodium channel.HWTX-ⅡI inhibited VGSCs on DUM neurons(concentration of toxin at half-maximal inhibition(IC50)≈1.106 μmol/L) in a way much similar to tetrodotoxin(TTX).HWTX-Ⅲ had no effect on the kinetics of activation and inactivation.The shift in the steady-state inactivation curve was distinct from other depressant spider toxins.The diverse effect and the mechanism of action of the two insect toxins illustrate the diverse biological activities of spider toxins and provide a fresh theoretical foundation to design and develop novel insecticides. 展开更多
关键词 Insect neurotoxin Dorsal unpaired median neurons sodium channel Whole-cell patch clamp technique
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Distribution and Functional Characteristics of Voltage-Gated Sodium Channels in Immature Cochlear Hair Cells
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作者 You Zhou Chenchen Xia +3 位作者 Manli Yi Xueling Wang Hao Wu Yonghua Ji 《Neuroscience Bulletin》 SCIE CAS CSCD 2020年第1期49-65,共17页
Voltage-gated sodium channels(VGSCs)are transiently expressed in cochlear hair cells before hearing onset and play an indispensable role in shaping spontaneous activity.In this study,we showed that Na^+currents shaped... Voltage-gated sodium channels(VGSCs)are transiently expressed in cochlear hair cells before hearing onset and play an indispensable role in shaping spontaneous activity.In this study,we showed that Na^+currents shaped the spontaneous action potentials in developing mouse inner hair cells(IHCs)by decreasing the time required for the membrane potential to reach the action-potential threshold.In immature IHCs,we identified 9 known VGSC subtypes(Navl.la-l.9ot),among which Navl.7a was the most highly expressed subtype and the main contributor to Na+currents in developing hair cells.Electrophysiological recordings of two cochlea-specific Navi.7 variants(CbmNavl.7a and CbmNavl.7b)revealed a novel loss-of-function mutation(C934R)at the extracellular linker between segments 5 and 6 of domain II.In addition,post-transcriptional modification events,such as alternative splicing and RNA editing,amended the gating properties and kinetic features of CbmNavl.7a(C934).These results provide molecular and functional characteristics of VGSCs in mammalian IHCs and their contributions to spontaneous physiological activity during cochlear maturation. 展开更多
关键词 Cochlear hair cell Spontaneous action potential Voltage-gated sodium channel Post-transcriptional modification Gating property Introduction
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Research Progress on the Influence of Structural Changes inμ-Conotoxins on Sodium Channel Receptors
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作者 Chengzhang LIN Yanling LIAO +1 位作者 Jiao CHEN Bingmiao GAO 《Agricultural Biotechnology》 2023年第6期99-105,共7页
The voltage-gated sodium channel(Na v)is widely present in mammals and can generate cell action potentials,which are related to many diseases.Theμ-Conotoxins(μ-CTx)isolated from the venom of cone snails can specific... The voltage-gated sodium channel(Na v)is widely present in mammals and can generate cell action potentials,which are related to many diseases.Theμ-Conotoxins(μ-CTx)isolated from the venom of cone snails can specifically block the voltage-gated sodium channel;it can be widely used as a necessary probe to distinguish the Na v channel subtypes.In this study,the effects of eightμ-CTx on different Na v channel isoforms were reviewed,and sequence alignment and protein homologous modeling were used to predict their biological activities,and the structure-activity relationship betweenμ-CTx and mutagenesis strategies. 展开更多
关键词 μ-Conotoxins voltage-gated sodium channel homologous modeling structure-activity relationship
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Design of artificial biomimetic channels with Na^(+)permeation rate and selectivity potentially outperforming the natural sodium channel
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作者 Zhi Zhu Yan Zhao +7 位作者 Chao Chang Shaojian Yan Tingyu Sun Shiyu Gu Yangmei Li Dengsong Zhang Chunlei Wang Xiao Cheng Zeng 《Nano Research》 SCIE EI CSCD 2024年第9期8638-8646,共9页
Artificial ion channels that enable high-efficiency ion transport have important implications in nanofluidics and biomedical applications such as drug delivery.Herein,we show a simulation-based chemical design of a bi... Artificial ion channels that enable high-efficiency ion transport have important implications in nanofluidics and biomedical applications such as drug delivery.Herein,we show a simulation-based chemical design of a biomimetic sodium channel that possesses permeation rate and selectivity potentially higher than those of the state-of-the-art natural vertebrate voltage-gated sodium channels.Importantly,our theoretical findings have undergone empirical testing,aligning well with the Arrhenius law as derived from a diverse range of experimental results.The high-efficiency ion transport is achieved by anchoring the carboxylate functional groups within the channel filter.A key chemical guiding principle underlying the ion channel design is that the free-energy barrier for the Na^(+)passage across the channel should be comparable to typical thermal energy at room temperature.With the implementation of the chemical design,we found that the relatively low free-energy barrier can be attributed to the compensation effect of the carboxylate groups to the partially lost oxygen shell of the ion within the ion channel,as well as to the consonant vibration of the ions inside and outside the channel.This mechanistic understanding brings new insight,at the molecular level,into the high-efficiency ion transport across the designed membrane channels.The proof of principle achieved from the simulations will stimulate future experimental confirmation and potential applications of the high-performance artificial channels in nanofluidics and in bioinspired iontronics. 展开更多
关键词 sodium channels anchoring carboxylate functional groups molecular dynamics simulations low free-energy barrier for ion passage thermal kinetic energy
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Diabetes-induced changes in cardiac voltage-gated ion channels 被引量:7
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作者 Nihal Ozturk Serkan Uslu Semir Ozdemir 《World Journal of Diabetes》 SCIE 2021年第1期1-18,共18页
Diabetes mellitus affects the heart through various mechanisms such as microvascular defects,metabolic abnormalities,autonomic dysfunction and incompatible immune response.Furthermore,it can also cause functional and ... Diabetes mellitus affects the heart through various mechanisms such as microvascular defects,metabolic abnormalities,autonomic dysfunction and incompatible immune response.Furthermore,it can also cause functional and structural changes in the myocardium by a disease known as diabetic cardiomyopathy(DCM)in the absence of coronary artery disease.As DCM progresses it causes electrical remodeling of the heart,left ventricular dysfunction and heart failure.Electrophysiological changes in the diabetic heart contribute significantly to the incidence of arrhythmias and sudden cardiac death in diabetes mellitus patients.In recent studies,significant changes in repolarizing K+currents,Na+currents and L-type Ca^(2+)currents along with impaired Ca^(2+ )homeostasis and defective contractile function have been identified in the diabetic heart.In addition,insulin levels and other trophic factors change significantly to maintain the ionic channel expression in diabetic patients.There are many diagnostic tools and management options for DCM,but it is difficult to detect its development and to effectively prevent its progress.In this review,diabetes-associated alterations in voltage-sensitive cardiac ion channels are comprehensively assessed to understand their potential role in the pathophysiology and pathogenesis of DCM. 展开更多
关键词 DIABETES Action potential Cardiac ion channels L-type Ca^(2+)channels Potassium channels sodium channels
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MODELING AND SIMULATION OF E1784K MUTATION AND SODIUM IONIC CHANNEL DISEASES
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作者 张雯 袁永峰 孔姝涵 《Transactions of Nanjing University of Aeronautics and Astronautics》 EI 2011年第4期385-392,共8页
In the clinical reports, the E1784K mutation in SCN5A is recognized as a phenotypic overlap between the long QT syndrome (LQT3) and the Brugada syndrome (BrS) in the characteristics of electrocardiograms (ECGs) ... In the clinical reports, the E1784K mutation in SCN5A is recognized as a phenotypic overlap between the long QT syndrome (LQT3) and the Brugada syndrome (BrS) in the characteristics of electrocardiograms (ECGs) since the mutation can influence sodium channel functions. However it is still unclear if the E1784K mutation-induced sodium ionic channel alterations account for the overlap at tissue level. Thsu, a detailed computational model is developed to underpin the functional impacts of the E1784K mutation on the action potential (AP), the effective refractory period (ERP) and the abnormal ECG. Simulation results stlggest'that the E1784K mutation-induced sodium channel alterations are insufficient to produce the phenotypic overlap between LQT3 and BrS, and the overlap may arise from the complicated effects of the E1784K mutation-induced changes in sodium channel currents with an increase of the transient outward current ITo or a decrease of the L-type calcium current ICaL . 展开更多
关键词 E1784K mutation sodium ionic channel long QT syndrome Brugada syndrome
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Changes in urinary excretion of water and sodium transporters during amiloride and bendroflumethiazide treatment
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作者 Janni M Jensen Frank H Mose +3 位作者 Anna-Ewa O Kulik Jesper N Bech Robert A Fenton Erling B Pedersen 《World Journal of Nephrology》 2015年第3期423-437,共15页
AIM: To quantify changes in urinary excretion of aquaporin2 water channels (u-AQP2), the sodium-potassium-chloride co-transporter (u-NKCC2) and the epithelial sodium channels (u-ENaC) during treatment with bend... AIM: To quantify changes in urinary excretion of aquaporin2 water channels (u-AQP2), the sodium-potassium-chloride co-transporter (u-NKCC2) and the epithelial sodium channels (u-ENaC) during treatment with bendrofumethiazide (BFTZ), amiloride and placebo.METHODS: In a randomized, double-blinded, placebo-controlled, 3-way crossover study we examined 23 healthy subjects on a standardized diet and fuid intake. The subjects were treated with amiloride 5 mg, BFTZ 1.25 mg or placebo twice a day for 4.5 d before each examination day. On the examination day, glomerular filtration rate was measured by the constant infusion clearance technique with 51Cr-EDTA as reference substance. To estimate the changes in water transport via AQP2 and sodium transport via NKCC2 and ENaC, u-NKCC2, the gamma fraction of ENaC (u-ENaCγ), and u-AQP2 were measured at baseline and after infusion with 3% hypertonic saline. U-NKCC2, u-ENaCγ, u-AQP2 and plasma concentrations of vasopressin (p-AVP), renin (PRC), angiotensin Ⅱ (p-ANG Ⅱ) and aldosterone (p-Aldo) were measured, by radioimmunoassay. Central blood pressure was estimated by applanation tonometry and body fuid volumes were estimated by bio-impedance spectroscopy. General linear model with repeated measures or related samples Friedman’s two-way analysis was used to compare differences. Post hoc Bonferroni correction was used for multiple comparisons of post infusion periods to baseline within each treatment group.RESULTS: At baseline there were no differences in u-NKCC2, u-ENaCγ and u-AQP2. PRC, p-Ang Ⅱ and p-Aldo were increased during active treatments (P 〈 0.001). After hypertonic saline, u-NKCC2 increased during amiloride (6% ± 34%; P = 0.081) and increased significantly during placebo (17% ± 24%; P = 0.010). U-AQP2 increased signifcantly during amiloride (31% ± 22%; P 〈 0.001) and placebo (34% ± 27%; P 〈 0.001), while u-NKCC2 and u-AQP2 did not change signifcantly during BFTZ (-7% ± 28%; P = 0.257 and 5% ± 16%; P = 0.261). U- ENaCγ increased in all three groups ( P 〈 0.050). PRC, AngⅡ and p-Aldo decreased to the same extent, while AVP increased, but to a smaller degree during BFTZ ( P = 0.048). cDBP decreased significantly during BFTZ (P 〈 0.001), but not during amiloride or placebo. There were no significant differences in body fuid volumes.CONCLUSION: After hypertonic saline, u-NKCC2 and u-AQP2 increased during amiloride, but not during BFTZ. Lower p-AVP during BFTZ potentially caused less stimulation of NKCC2 and AQP2 and subsequent lower reabsorption of water and sodium. 展开更多
关键词 AMILORIDE THIAZIDE sodium-potassium-chloride co-transporter Aquaporin2 Epithelial sodium channels sodium WATER sodium transporters Hypertonic saline URINE
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Deglycosylation altered the gating properties of rNav1.3:glycosylation/deglycosylation homeostasis probably complicates the functional regulation of voltage-gated sodium channel
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作者 徐清 程慧雯 +5 位作者 何慧琼 刘志睿 贺明 杨宏天 周智磊 吉永华 《Neuroscience Bulletin》 SCIE CAS CSCD 2008年第5期283-287,共5页
Objective To examine the effect of deglycosylation on gating properties of rNav1.3. Methods rNav1.3 was expressed in Xenopus oocyte, with glycosylation inhibition by using tunicamycin. Two-electrode voltage clamp was ... Objective To examine the effect of deglycosylation on gating properties of rNav1.3. Methods rNav1.3 was expressed in Xenopus oocyte, with glycosylation inhibition by using tunicamycin. Two-electrode voltage clamp was employed to record the whole-cell sodium current and data were analyzed by Origin software. Those of glycosylated rNav1.3 were kept as control. Results Compared with glycosylated ones, the steady-state activation curve of deglycosylated rNav1.3 was positively shifted by about 10 mV, while inactivation curve was negatively shifted by about 8 mV. Conclusion Glycosylation altered the gating properties of rNav 1.3 and contributed to the functional diversity. 展开更多
关键词 rNav1.3 voltage-gated sodium channel GLYCOSYLATION two-electrode voltage clamp Xenopus oocyte
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Ligustrazine inhibits high voltage-gated Ca^(2+) and TTX-resistant Na^+ channels of primary sensory neuron and thermal nociception in the rat:a study on peripheral mechanism 被引量:4
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作者 Bi-Hua BIE Yong CHEN Zhi-Qi ZHAO 《Neuroscience Bulletin》 SCIE CAS CSCD 2006年第2期79-84,共6页
Objective Ligustrazine, also named as tetramethylpyrazine, is a compound purified from Ligusticum chuanxiong hort and has ever been testified to be a calcium antagonist. The present investigation was to determine the ... Objective Ligustrazine, also named as tetramethylpyrazine, is a compound purified from Ligusticum chuanxiong hort and has ever been testified to be a calcium antagonist. The present investigation was to determine the antinociceptive effect of ligustrazine and, if any, the peripheral ionic mechanism involved. Methods Paw withdrawal Latency (PWL) to noxious heating was measured in vivo and whole-cell patch recording was performed on small dorsal root ganglion (DRG) neurons. Results Intraplantar injection of ligustrazine (0.5 mg in 25 μl) significantly prolonged the withdrawal latency of ipsilateral hindpaw to noxious heating in the rat. Ligustrazine not only reversibly inhibited high-voltage gated calcium current of dorsal root ganglion (DRG) neuron in dose-dependent manner with IC50 of 1.89 mmol/L, but also decreased tetrodotoxin (TTX) -resistant sodium current in relatively selective and dose-dependent manner with IC50 of 2.49 mmol/L. Conclusion The results suggested that ligustrazine could elevate the threshold of thermal nociception through inhibiting the high-voltage gated calcium current and TTX-resistant sodium current of DRG neuron .in the rat. 展开更多
关键词 LIGUSTRAZINE NOCICEPTION dorsal root ganglion sodium channel calcium channel
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Epigenetics of epithelial Na^+ channel-dependent sodium uptake and blood pressure regulation 被引量:7
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作者 Wenzheng Zhang 《World Journal of Nephrology》 2015年第3期363-366,共4页
The epithelial Na^+ channel (ENaC) consists of α, β, γ subunits. Its expression and function are regulated by aldosterone at multiple levels including transcription. ENaC plays a key role in Na^+ homeostasis a... The epithelial Na^+ channel (ENaC) consists of α, β, γ subunits. Its expression and function are regulated by aldosterone at multiple levels including transcription. ENaC plays a key role in Na^+ homeostasis and blood pressure. Mutations in ENaC subunit genes result in hypertension or hypotension, depending on the nature of the mutations. Transcription of αENaC is considered as the rate-limiting step in the formation of functional ENaC. As an aldosterone target gene, αENaC is activated upon aldosterone- mineralocorticoid receptor binding to the cis-elements in the αENaC promoter, which is packed into chromatin. However, how aldosterone alters chromatin structure to induce changes in transcription is poorly understood. Studies by others and us suggest that Dot1a-Af9 complex represses αENaC by directly binding and regulating targeted histone H3 K79 hypermethylation at the specific subregions of αENaC promoter. Aldosterone decreases Dot1a-Af9 formation by impairing expression of Dot1a and Af9 and by inducing Sgk1, which, in turn, phosphorylates Af9 at S435 to weaken Dot1a-Af9 interaction. MR attenuates Dot1a-Af9 effect by competing with Dot1a for binding Af9. Af17 relieves repression by interfering with Dot1a-Af9 interaction and promoting Dot1a nuclear export. Af17^-/- mice exhibit defects in ENaC expression, renal Na^+ retention, and blood pressure control. This review gives a brief summary of these novel fndings. 展开更多
关键词 Gene transcription CHROMATIN Epithelial sodium channel HISTONE Blood pressure
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