Summary: To investigate the effect of thiopental sodium on the release of glutamate and γ-aminobutyric acid (GABA) from synaptosomes in the prefrontal cortex, synaptosomes were made, the spontaneous release and the e...Summary: To investigate the effect of thiopental sodium on the release of glutamate and γ-aminobutyric acid (GABA) from synaptosomes in the prefrontal cortex, synaptosomes were made, the spontaneous release and the evoked release by 30 mmol/L KCl or 20 μmol/L veratridine of glutamate and GABA were performed under various concentrations of thiopental sodium (10-300 μmol/L), glutamate and GABA concentrations were determined by reversed-phase high-performance liquid chromatography. Our results showed that spontaneous release and evoked release of glutamate were significantly inhibited by 30 μmol/L, 100 μmol/L and 300 μmol/L thiopental sodium, IC50 of thiopental sodium was 25.8±2.3 μmol/L for the spontaneous release, 23.4±2.4 μmol/L for KCl-evoked release, and 24.3±1.8 μmol/L for veratridine-evoked release. But GABA spontaneous release and evoked release were unaffected. The study showed that thiopental sodium with clinically related concentrations could inhibit the release of glutamate, but had no effect on the release of GABA from rats prefrontal cortical synaptosomes.展开更多
To investigate the effect of propofol on the release of glutamate and γ-aminobutyric acid (GABA) from rat hippocampal synatosomes, synaptosomes was made from hippocampus and incubated with artificial cerebrospinal ...To investigate the effect of propofol on the release of glutamate and γ-aminobutyric acid (GABA) from rat hippocampal synatosomes, synaptosomes was made from hippocampus and incubated with artificial cerebrospinal fluid (aCSF). With the experiment of Ca^2+-dependent release of glutamate and GABA, dihydrokainic acid (DHK) and nipectic acid were added into aCSF. For the observation of Ca^2+-independent release of glutamate and GABA, no DHK, nipectic acid and Ca^2+ were added from aCSF. The release of glutamate and GABA were evoked by 20 μmol/L veratridine or 30 mmol/L KCh The concentration of glutamate and GABA in aCSF was measured by using high-performance liquid chromatography (HPLC). 30, 100 arid 300 μmol/L propofol significantly inhibited veratridine-evoked Ca^2+-dependent release of glutamate and GABA (P〈0. 01 or P〈0. 05), However, propofol showed no effect on elevated KCl-evoked Ca^2+-dependent release of glutamate and GABA (P〉0, 05), Veratridine or elevated KCI evoked Ca^2+-independent release of glutamate and GABA was not affected significantly by propofol (P〉0.05). Propofol could inhibit Ca^2+- dependent release of glutamate and GABA, However, it has no effect on the Ca^2+-independent release of glutamate and GABA,展开更多
Many studies have shown that neurohypophyseal hormone vasopressin (Vp) has the effect of facilitating memory consolidation. The desglycinamide-arginine-8-vasopressin (DGAVP) is of the same central effect as vasopressi...Many studies have shown that neurohypophyseal hormone vasopressin (Vp) has the effect of facilitating memory consolidation. The desglycinamide-arginine-8-vasopressin (DGAVP) is of the same central effect as vasopressin, and it is a very useful neuropeptide for studying the mechanism of learning and memory. Learning and memory are the展开更多
Synapses are essential units for the flow of information in the brain.Over the last 70 years,synapses have been widely studied in multiple animal models including worms,fruit flies,and rodents.In comparison,the study ...Synapses are essential units for the flow of information in the brain.Over the last 70 years,synapses have been widely studied in multiple animal models including worms,fruit flies,and rodents.In comparison,the study of human synapses has evolved significantly slower,mainly because of technical limitations.However,three novel methods allowing the analysis of molecular,morphological,and functional properties of human synapses may expand our knowledge of the human brain.Here,we briefly describe these methods,and evaluate how the information provided by each unique approach may contribute to the functional and anatomical analysis of the synaptic component of human brain circuitries.In particular,using tissue from cryopreserved human brains,synaptic plasticity can be studied in isolated synaptosomes by fluorescence analysis of single-synapse long-term potentiation(FASS-LTP),and subpopulations of synapses can be thoroughly assessed in the ribbons of brain tissue by array tomography(AT).Currently,it is also possible to quantify synaptic density in the living human brain by positron emission tomography(PET),using a novel synaptic radio-ligand.Overall,data provided by FASS-LTP,AT,and PET may significantly contribute to the global understanding of synaptic structure and function in both healthy and diseased human brains,thus directly impacting translational research.展开更多
Through complex mechanisms that guide axons to the appropriate routes towards their targets, axonal growth and guidance lead to neuronal system formation. These mechanisms establish the synaptic circuitry necessary fo...Through complex mechanisms that guide axons to the appropriate routes towards their targets, axonal growth and guidance lead to neuronal system formation. These mechanisms establish the synaptic circuitry necessary for the optimal performance of the nervous system in all organisms. Damage to these networks can be repaired by neuroregenerative processes which in turn can re-establish synapses between injured axons and postsynaptic terminals. Both axonal growth and guidance and the neuroregenerative response rely on correct axonal growth and growth cone responses to guidance cues as well as correct synapses with appropriate targets. With this in mind, parallels can be drawn between axonal regeneration and processes occurring during embryonic nervous system development. However, when studying parallels between axonal development and regeneration many questions still arise; mainly, how do axons grow and synapse with their targets and how do they repair their membranes, grow and orchestrate regenerative responses after injury. Major players in the cellular and molecular processes that lead to growth cone development and movement during embryonic development are the Soluble N-ethylamaleimide Sensitive Factor (NSF) Attachment Protein Receptor (SNARE) proteins, which have been shown to be involved in axonal growth and guidance. Their involvement in axonal growth, guidance and neuroregeneration is of foremost importance, due to their roles in vesicle and membrane trafficking events. Here, we review the recent literature on the involvement of SNARE proteins in axonal growth and guidance during embryonic development and neuroregeneration.展开更多
Curcumin has been shown to significantly improve spatial memory impairment induced by HIV-1 gp 120 V3 in rats, but the electrophysiological mechanism remains unknown. Using extracellular microelectrode recording techn...Curcumin has been shown to significantly improve spatial memory impairment induced by HIV-1 gp 120 V3 in rats, but the electrophysiological mechanism remains unknown. Using extracellular microelectrode recording techniques, this study confirmed that the gp120 V3 loop could suppress long-term potentiation in the rat hippocampal CA1 region and synaptic plasticity, and that curcumin could antagonize these inhibitory effects. Using a Fura-2/AM calcium ion probe, we found that curcumin resisted the effects of the gp120 V3 loop on hippocampal synaptosomes and decreased Ca2+ concentration in synaptosomes. This effect of curcumin was identical to nimodipine, suggesting that curcumin improved the inhibitory effects of gpl20 on synaptic plasticity, ameliorated damage caused to the central nervous system, and might be a potential neuroprotective drug.展开更多
Calcium homeostasis in synaptosomes is altered during aging. The intrasynaptomal free calcium concentration ([Ca2+]i) was determined in 3- and 24-month-old rats treated with or without Rbl and Rgl. As expected, the [C...Calcium homeostasis in synaptosomes is altered during aging. The intrasynaptomal free calcium concentration ([Ca2+]i) was determined in 3- and 24-month-old rats treated with or without Rbl and Rgl. As expected, the [Ca2-]i level increased with age. Treatment with Rbl and Rgl elicited an obvious decrease of [Ca2+]i content, especially in aged rates. In addition, Rbl and Rgl significantly stimulated the activity of Na+, K+-ATPase while Rbl inhibited the activity of Ca2+, Mg2--ATPase arid calmodulin. In view of the close relationship of [Ca2-]i level with aging, the changes of [Ca2+]i induced by Rbl and Rgl, as shown by our results, might provide an explanation of the mechanisms of their antiaging function.展开更多
Sigma-1 receptors are unique receptors that are postulated to act as intracellular amplifiers for signal transduction within cells of the nervous system. The present paper studied the
Tumor Necrosis Factor α(TNFα) is best known as a mediator of inflammation and immunity, and also plays important roles in tumor biology. However, the role of TNFα in tumor biology is complex and not completely unde...Tumor Necrosis Factor α(TNFα) is best known as a mediator of inflammation and immunity, and also plays important roles in tumor biology. However, the role of TNFα in tumor biology is complex and not completely understood. In a human melanoma cell line, M2, and a lung carcinoma cell line, A549, TNFα up-regulates prion protein(PrP) level, and promotes tumor cell migration in a PrP dependent manner. Silencing PRNP abrogates TNFα induced tumor cell migration;this phenotype is reversed when PRNP is re-introduced. Treatment with TNFα activates nuclear factor kappa B(NF-κB)signaling, which then mitigates autophagy by reducing the expression of Forkhead Box P3(FOXP3). Down regulation of FOXP3 reduces the transcription of synaptosome associated protein 29(SNAP29), which is essential in the fusion of autophagosome and lysosome creating autolysosome. FOXP3 being a bona fide transcription factor for SNAP29 is confirmed in a promoter binding assay. Accordingly, silencing SNAP29 in these cell lines also up-regulates PrP, and promotes tumor cell migration without TNFα treatment. But, when SNAP29 or FOXP3 is silenced in these cells, they are no longer respond to TNFα. Thus, a reduction in autophagy is the underlying mechanism by which expression of PrP is up-regulated,and tumor cell migration is enhanced upon TNFα treatment. Disrupting the TNFα-NF-κB-FOXP3-SNAP29 signaling axis may provide a therapeutic approach to mitigate tumor cell migration.展开更多
文摘Summary: To investigate the effect of thiopental sodium on the release of glutamate and γ-aminobutyric acid (GABA) from synaptosomes in the prefrontal cortex, synaptosomes were made, the spontaneous release and the evoked release by 30 mmol/L KCl or 20 μmol/L veratridine of glutamate and GABA were performed under various concentrations of thiopental sodium (10-300 μmol/L), glutamate and GABA concentrations were determined by reversed-phase high-performance liquid chromatography. Our results showed that spontaneous release and evoked release of glutamate were significantly inhibited by 30 μmol/L, 100 μmol/L and 300 μmol/L thiopental sodium, IC50 of thiopental sodium was 25.8±2.3 μmol/L for the spontaneous release, 23.4±2.4 μmol/L for KCl-evoked release, and 24.3±1.8 μmol/L for veratridine-evoked release. But GABA spontaneous release and evoked release were unaffected. The study showed that thiopental sodium with clinically related concentrations could inhibit the release of glutamate, but had no effect on the release of GABA from rats prefrontal cortical synaptosomes.
文摘To investigate the effect of propofol on the release of glutamate and γ-aminobutyric acid (GABA) from rat hippocampal synatosomes, synaptosomes was made from hippocampus and incubated with artificial cerebrospinal fluid (aCSF). With the experiment of Ca^2+-dependent release of glutamate and GABA, dihydrokainic acid (DHK) and nipectic acid were added into aCSF. For the observation of Ca^2+-independent release of glutamate and GABA, no DHK, nipectic acid and Ca^2+ were added from aCSF. The release of glutamate and GABA were evoked by 20 μmol/L veratridine or 30 mmol/L KCh The concentration of glutamate and GABA in aCSF was measured by using high-performance liquid chromatography (HPLC). 30, 100 arid 300 μmol/L propofol significantly inhibited veratridine-evoked Ca^2+-dependent release of glutamate and GABA (P〈0. 01 or P〈0. 05), However, propofol showed no effect on elevated KCl-evoked Ca^2+-dependent release of glutamate and GABA (P〉0, 05), Veratridine or elevated KCI evoked Ca^2+-independent release of glutamate and GABA was not affected significantly by propofol (P〉0.05). Propofol could inhibit Ca^2+- dependent release of glutamate and GABA, However, it has no effect on the Ca^2+-independent release of glutamate and GABA,
文摘Many studies have shown that neurohypophyseal hormone vasopressin (Vp) has the effect of facilitating memory consolidation. The desglycinamide-arginine-8-vasopressin (DGAVP) is of the same central effect as vasopressin, and it is a very useful neuropeptide for studying the mechanism of learning and memory. Learning and memory are the
基金supported by National Institutes of Health Grants R21-AG048506,P01-AG000538 and RO1-AG34667(to CWC)UC MEXUS-CONACYT Grant CN-16-170(to GAP and CWC)
文摘Synapses are essential units for the flow of information in the brain.Over the last 70 years,synapses have been widely studied in multiple animal models including worms,fruit flies,and rodents.In comparison,the study of human synapses has evolved significantly slower,mainly because of technical limitations.However,three novel methods allowing the analysis of molecular,morphological,and functional properties of human synapses may expand our knowledge of the human brain.Here,we briefly describe these methods,and evaluate how the information provided by each unique approach may contribute to the functional and anatomical analysis of the synaptic component of human brain circuitries.In particular,using tissue from cryopreserved human brains,synaptic plasticity can be studied in isolated synaptosomes by fluorescence analysis of single-synapse long-term potentiation(FASS-LTP),and subpopulations of synapses can be thoroughly assessed in the ribbons of brain tissue by array tomography(AT).Currently,it is also possible to quantify synaptic density in the living human brain by positron emission tomography(PET),using a novel synaptic radio-ligand.Overall,data provided by FASS-LTP,AT,and PET may significantly contribute to the global understanding of synaptic structure and function in both healthy and diseased human brains,thus directly impacting translational research.
基金supported by the Ramon y Cajal programme(RYC-2007-00417,RYC-2009-05510)grants from the Spanish MINECO(SAF2013-42445R and BFU2010-21507)CIBERNED
文摘Through complex mechanisms that guide axons to the appropriate routes towards their targets, axonal growth and guidance lead to neuronal system formation. These mechanisms establish the synaptic circuitry necessary for the optimal performance of the nervous system in all organisms. Damage to these networks can be repaired by neuroregenerative processes which in turn can re-establish synapses between injured axons and postsynaptic terminals. Both axonal growth and guidance and the neuroregenerative response rely on correct axonal growth and growth cone responses to guidance cues as well as correct synapses with appropriate targets. With this in mind, parallels can be drawn between axonal regeneration and processes occurring during embryonic nervous system development. However, when studying parallels between axonal development and regeneration many questions still arise; mainly, how do axons grow and synapse with their targets and how do they repair their membranes, grow and orchestrate regenerative responses after injury. Major players in the cellular and molecular processes that lead to growth cone development and movement during embryonic development are the Soluble N-ethylamaleimide Sensitive Factor (NSF) Attachment Protein Receptor (SNARE) proteins, which have been shown to be involved in axonal growth and guidance. Their involvement in axonal growth, guidance and neuroregeneration is of foremost importance, due to their roles in vesicle and membrane trafficking events. Here, we review the recent literature on the involvement of SNARE proteins in axonal growth and guidance during embryonic development and neuroregeneration.
基金supported by the National Natural Science Foundation of China,No.81171134 and 81471235a grant from the Introducing Talents of Discipline to Universities,No.B14036+4 种基金a grant from the College Students’Extracurricular Scientific Innovation and Entrepreneurial Activity Research Topic of Jinan University Challenge Cup,No.(2013)27 and (2014)16a grant from the College Students’Extracurricular Scientific Innovation and Entrepreneurial Activity Research Topic of Jinan University in China,No.201410559079,1055914162 and CX14261a grant from the National Basic Research Program of China(973 Program),No.2011CB707501the Science and Technology Foundation of Guangdong Province in China,No.2010B030700016the Natural Science Foundation of Guangdong Province in China,No.2014A030313360
文摘Curcumin has been shown to significantly improve spatial memory impairment induced by HIV-1 gp 120 V3 in rats, but the electrophysiological mechanism remains unknown. Using extracellular microelectrode recording techniques, this study confirmed that the gp120 V3 loop could suppress long-term potentiation in the rat hippocampal CA1 region and synaptic plasticity, and that curcumin could antagonize these inhibitory effects. Using a Fura-2/AM calcium ion probe, we found that curcumin resisted the effects of the gp120 V3 loop on hippocampal synaptosomes and decreased Ca2+ concentration in synaptosomes. This effect of curcumin was identical to nimodipine, suggesting that curcumin improved the inhibitory effects of gpl20 on synaptic plasticity, ameliorated damage caused to the central nervous system, and might be a potential neuroprotective drug.
文摘Calcium homeostasis in synaptosomes is altered during aging. The intrasynaptomal free calcium concentration ([Ca2+]i) was determined in 3- and 24-month-old rats treated with or without Rbl and Rgl. As expected, the [Ca2-]i level increased with age. Treatment with Rbl and Rgl elicited an obvious decrease of [Ca2+]i content, especially in aged rates. In addition, Rbl and Rgl significantly stimulated the activity of Na+, K+-ATPase while Rbl inhibited the activity of Ca2+, Mg2--ATPase arid calmodulin. In view of the close relationship of [Ca2-]i level with aging, the changes of [Ca2+]i induced by Rbl and Rgl, as shown by our results, might provide an explanation of the mechanisms of their antiaging function.
文摘Sigma-1 receptors are unique receptors that are postulated to act as intracellular amplifiers for signal transduction within cells of the nervous system. The present paper studied the
基金supported by grants from the National Science Foundation of China (31670170 & 81560442)from MOST (2018YFA0507201)from the Natural Science Foundation of Guangdong Province (2017ZC0236)。
文摘Tumor Necrosis Factor α(TNFα) is best known as a mediator of inflammation and immunity, and also plays important roles in tumor biology. However, the role of TNFα in tumor biology is complex and not completely understood. In a human melanoma cell line, M2, and a lung carcinoma cell line, A549, TNFα up-regulates prion protein(PrP) level, and promotes tumor cell migration in a PrP dependent manner. Silencing PRNP abrogates TNFα induced tumor cell migration;this phenotype is reversed when PRNP is re-introduced. Treatment with TNFα activates nuclear factor kappa B(NF-κB)signaling, which then mitigates autophagy by reducing the expression of Forkhead Box P3(FOXP3). Down regulation of FOXP3 reduces the transcription of synaptosome associated protein 29(SNAP29), which is essential in the fusion of autophagosome and lysosome creating autolysosome. FOXP3 being a bona fide transcription factor for SNAP29 is confirmed in a promoter binding assay. Accordingly, silencing SNAP29 in these cell lines also up-regulates PrP, and promotes tumor cell migration without TNFα treatment. But, when SNAP29 or FOXP3 is silenced in these cells, they are no longer respond to TNFα. Thus, a reduction in autophagy is the underlying mechanism by which expression of PrP is up-regulated,and tumor cell migration is enhanced upon TNFα treatment. Disrupting the TNFα-NF-κB-FOXP3-SNAP29 signaling axis may provide a therapeutic approach to mitigate tumor cell migration.
