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Small molecule inhibitor DDQ-treated hippocampal neuronal cells show improved neurite outgrowth and synaptic branching
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作者 Jangampalli Adi Pradeepkiran Priyanka Rawat +2 位作者 Arubala P.Reddy Erika Orlov PHemachandra Reddy 《Neural Regeneration Research》 SCIE CAS 2025年第9期2624-2632,共9页
The process of neurite outgrowth and branching is a crucial aspect of neuronal development and regeneration.Axons and dendrites,sometimes referred to as neurites,are extensions of a neuron's cellular body that are... The process of neurite outgrowth and branching is a crucial aspect of neuronal development and regeneration.Axons and dendrites,sometimes referred to as neurites,are extensions of a neuron's cellular body that are used to start networks.Here we explored the effects of diethyl(3,4-dihydroxyphenethylamino)(quinolin-4-yl)methylphosphonate(DDQ)on neurite developmental features in HT22 neuronal cells.In this work,we examined the protective effects of DDQ on neuronal processes and synaptic outgrowth in differentiated HT22cells expressing mutant Tau(mTau)cDNA.To investigate DDQ chara cteristics,cell viability,biochemical,molecular,western blotting,and immunocytochemistry were used.Neurite outgrowth is evaluated through the segmentation and measurement of neural processes.These neural processes can be seen and measured with a fluorescence microscope by manually tracing and measuring the length of the neurite growth.These neuronal processes can be observed and quantified with a fluorescent microscope by manually tracing and measuring the length of the neuronal HT22.DDQ-treated mTau-HT22 cells(HT22 cells transfected with cDNA mutant Tau)were seen to display increased levels of synaptophysin,MAP-2,andβ-tubulin.Additionally,we confirmed and noted reduced levels of both total and p-Tau,as well as elevated levels of microtubule-associated protein 2,β-tubulin,synaptophysin,vesicular acetylcholine transporter,and the mitochondrial biogenesis protein-pe roxisome prolife rator-activated receptor-gamma coactivator-1α.In mTa u-expressed HT22 neurons,we observed DDQ enhanced the neurite characteristics and improved neurite development through increased synaptic outgrowth.Our findings conclude that mTa u-HT22(Alzheimer's disease)cells treated with DDQ have functional neurite developmental chara cteristics.The key finding is that,in mTa u-HT22 cells,DDQ preserves neuronal structure and may even enhance nerve development function with mTa u inhibition. 展开更多
关键词 diethyl(3 4-dihydroxyphenethylamino)(quinolin-4-yl)methylphosphonate(DDQ) hippocampal neuronal cells HT22 neurite outgrowth neuronal development small molecule
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Neuroprotective effect of Spilanthes acmella Murr. on pesticide-induced neuronal cells death 被引量:1
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作者 Wilasinee Suwanjang Bongkot Khongniam +2 位作者 Sujittra Srisung Supaluk Prachayasittikul Virapong Prachayasittikul 《Asian Pacific Journal of Tropical Medicine》 SCIE CAS 2017年第1期35-41,共7页
Objective: To investigate protective effects of Spilanthes acmella(S,acmella) Murr,extracts against pesticide-induced neuronal cells death and to elucidate the underlying molecular mechanism in dopaminergic(SH-SY5Y) c... Objective: To investigate protective effects of Spilanthes acmella(S,acmella) Murr,extracts against pesticide-induced neuronal cells death and to elucidate the underlying molecular mechanism in dopaminergic(SH-SY5Y) cells lines,Methods: Cell viability of SH-SY5 Y cells was studied by treating the cells with various concentration of pirimicarb for 24 hr,Neuroprotective effect of S,acmella Murr,extracts was investigated by adding the plant extracts to the medium for 24 hr prior to the incubation with 100 μM H_2O_2 or with pirimicarb for 24 hr,Control-untreated cells were incubated with the culture medium,Cell viability was measured by MTT assay,calpain and calpastatin expressions were analyzed by Western blotting and immunocytochemistry,Results: Pretreatment of SH-SY5 Y cells with S,acmella Murr,extracts(1 μg/m L) for 24 hr significantly increased the dopaminergic neurons in pirimicarb-induced neurotoxicity,In addition,pretreatment with the S,acmella Murr,extracts led to decreased calpain but increased calpastatin protein levels,Conclusion: S,acmella Murr,extracts exerted neuroprotective effect,via an alteration of calcium homeostasis,against pirimicarb induced neurotoxicity,The S,acmella Murr,might be a potential natural candidate with neuroprotective activity. 展开更多
关键词 Spilanthes acmella Murr. PIRIMICARB PESTICIDE neuronal cell CALPAIN CALPASTATIN
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Relevance and therapeutic potential of Cyp A targeting to block apoptosis inducing factor-mediated neuronal cell death 被引量:2
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作者 Nunzianna Doti Menotti Ruvo 《Neural Regeneration Research》 SCIE CAS CSCD 2017年第9期1428-1429,共2页
Programmed cell death (PCD) signaling pathways are import- ant contributors to acute neurological insults such as hypox- ic-ischemic brain damage, traumatic brain injury, stroke etc. The pathogenesis of all these di... Programmed cell death (PCD) signaling pathways are import- ant contributors to acute neurological insults such as hypox- ic-ischemic brain damage, traumatic brain injury, stroke etc. The pathogenesis of all these diseases is closely linked with ab- erration of apoptotic cell death pathways. Mitochondria play a crucial role during PCD, acting as both sensors of death signals, and as initiators of biochemical path- ways, which cause cell death (Bras et al., 2005). Cytochrome c was the firstly identified apoptogenic factor released from mitochondria into the cytosol, where it induces apoptosome formation through the activation of caspases. Other proteins, such as apoptosis inducing factor (AIF), have been subsequently identified as mitochondrial released factors. AIF contributes to apoptotic nuclear DNA damage (Bras et al., 2005). in a caspase-independent way 展开更多
关键词 AIF Relevance and therapeutic potential of Cyp A targeting to block apoptosis inducing factor-mediated neuronal cell death
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Caspase 3 siRNA decreases apoptosis in cultured neuronal cells
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作者 Chunting Ye Yaoxiong Huang +1 位作者 Xiaohong Yang Honghui Chen 《Neural Regeneration Research》 SCIE CAS CSCD 2009年第9期672-676,共5页
BACKGROUND: Lentiviral vectors, a type of retroviral vector, are able to infect cells at all phases of cell cycle. They are able to express exogenous target genes in vivo over long periods of time with limited immuno... BACKGROUND: Lentiviral vectors, a type of retroviral vector, are able to infect cells at all phases of cell cycle. They are able to express exogenous target genes in vivo over long periods of time with limited immunological reaction. OBJECTIVE: To inhibit neuronal apoptosis by blocking the apoptotic cascade reaction, gene silencing of Caspase 3, and transfection of Caspase 3 short hairpin ribonucleic acid (shRNA) into Neuro 2a cells using a lentiviral vector.DESIGN: TiME-AND SETTING: An observational, genetic engineering cellular biology experiment was performed in Guangzhou Red Cross Hospital and Guangzhou Institute of Traumatic Surgery between March 2007 and June 2008. MATERIALS: PLL3.7, PCMV-VSV-G, and PH'8.9∧PR plasmids were provided by the CBR Institute for Biomedical Research, Harvard Medical School, USA. Staurosporine was purchased from Sigma, USA.METHODS: Caspase 3 siRNA was synthesized and cloned into the PLL3.7 plasmid. The Caspase 3 shRNA-PLL3.7 Ientivirus was generated in 293T cells using a calcium phosphate transfection kit. After the lentivirus was transfected into Neuro 2a cells, apoptosis was induced in both the transfected and untransfected cells by staurosporine. Cell apoptosis was assessed by flow cvtometrv.MAIN OUTCOME MEASURES: Caspase 3 mRNA expression was measured by RT-PCR and Caspase protein expression was assessed by Western blot. Cellular apoptosis was determined by flow cytometry using Annevin V-PE/Taad-Cy7. RESULTS: The transfection rate of caspase 3 shRNA was 〉 98% using the lentiviral vector, RT-PCR and Western blot results demonstrated that significantly reduced Caspase 3 mRNA and protein expression in the transfected Neuro 2a. The control group exhibited 38.7% Annexin V/7aad-positive cells, which suggested apoptotic anaphase, while only 5.0% cells in the Caspase 3 gene silencing group entered apoptotic anaphase. CONCKUSION: Caspase 3 shRNA inhibited Caspase 3 expression in Neuro 2a ceils and decreased drug-induced apoptosis of Neuro 2a cells. 展开更多
关键词 caspase 3 SHRNA gene transduction APOPTOSIS neuronal cell
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Regulation of Gonadotropin-Releasing Hormone(GnRH)Secretion and mRNA Expression by Dopamine and cAMP Second Messenger Pathway in a GnRH Neuronal Cell Line
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作者 K.L.Yu M.H.Tsang K.W.Dong 《中山大学学报论丛》 1995年第3期197-197,共1页
关键词 GnRH)Secretion and mRNA Expression by Dopamine and cAMP Second Messenger Pathway in a GnRH neuronal cell Line Regulation of Gonadotropin-Releasing Hormone
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One-step cell biomanufacturing platform:porous gelatin microcarrier beads promote human embryonic stem cell-derived midbrain dopaminergic progenitor cell differentiation in vitro and survival after transplantation in vivo 被引量:1
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作者 Lin Feng Da Li +10 位作者 Yao Tian Chengshun Zhao Yun Sun Xiaolong Kou Jun Wu Liu Wang Qi Gu Wei Li Jie Hao Baoyang Hu Yukai Wang 《Neural Regeneration Research》 SCIE CAS CSCD 2024年第2期458-464,共7页
Numerous studies have shown that cell replacement therapy can replenish lost cells and rebuild neural circuitry in animal models of Parkinson’s disease.Transplantation of midbrain dopaminergic progenitor cells is a p... Numerous studies have shown that cell replacement therapy can replenish lost cells and rebuild neural circuitry in animal models of Parkinson’s disease.Transplantation of midbrain dopaminergic progenitor cells is a promising treatment for Parkinson’s disease.However,transplanted cells can be injured by mechanical damage during handling and by changes in the transplantation niche.Here,we developed a one-step biomanufacturing platform that uses small-aperture gelatin microcarriers to produce beads carrying midbrain dopaminergic progenitor cells.These beads allow midbrain dopaminergic progenitor cell differentiation and cryopreservation without digestion,effectively maintaining axonal integrity in vitro.Importantly,midbrain dopaminergic progenitor cell bead grafts showed increased survival and only mild immunoreactivity in vivo compared with suspended midbrain dopaminergic progenitor cell grafts.Overall,our findings show that these midbrain dopaminergic progenitor cell beads enhance the effectiveness of neuronal cell transplantation. 展开更多
关键词 axonal integrity cell cryopreservation cellular environment cellular niche cell replacement therapy dopaminergic progenitors human pluripotent stem cell mechanical damage neuronal cell delivery Parkinson’s disease small-aperture gelatin microcarriers
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APP and APLP1 are degraded through autophagy in response to proteasome inhibition in neuronal cells 被引量:8
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作者 Fangfang Zhou Theo van Laar +1 位作者 Huizhe Huang Long Zhang 《Protein & Cell》 SCIE CSCD 2011年第5期377-383,共7页
Amyloid beta(Aβ)precursor protein(APP)is a key protein in the pathogenesis of Alzheimer’s disease(AD).Both APP and its paralogue APLP1(amyloid beta precursor-like protein 1)have multiple functions in cell adhesion a... Amyloid beta(Aβ)precursor protein(APP)is a key protein in the pathogenesis of Alzheimer’s disease(AD).Both APP and its paralogue APLP1(amyloid beta precursor-like protein 1)have multiple functions in cell adhesion and proliferation.Previously it was thought that autophagy is a novel beta-amyloid peptide(Aβ)-generating pathway activated in AD.However,the protein proteolysis of APLP1 is still largely unknown.The present study shows that APLP1 is rapidly degraded in neuronal cells in response to stresses,such as proteasome inhibition.Activation of the endoplasmic reticulum(ER)stress by proteasome inhibitors induces autophagy,causing reduction of mature APLP1/APP.Blocking autophagy or JNK stress kinase rescues the protein expression for both APP and APLP1.Therefore,our results suggest that APP/APLP1 is degraded through autophagy and the APLP1 proteolysis is mainly mediated by autophagy-lysosome pathway. 展开更多
关键词 amyloid beta precursor-like protein 1(APLP1) amyloid precursor protein(APP) proteasome inhibition endoplasmic reticulum stress AUTOPHAGY neuronal cells
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Induction of clusterin Expression by Neuronal Cell Death in Zebrafish 被引量:1
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作者 Yun-Mi Jeong Tae-Eun Jin +10 位作者 Jung-Hwa Choi Mi-Sun Lee Hyun-Taek Kim Kyu-Seok Hwang Doo-Sang Park Hyun-Woo Oh Joong-Kook Choi Vladimir Korzh Melitta Schachner Kwan-Hee You Cheol-Hee Kim 《Journal of Genetics and Genomics》 SCIE CAS CSCD 2014年第11期583-589,共7页
Clusterin, a protein associated with multiple functions, is expressed in a wide variety of mammalian tissues. Although clusterin is known to be involved in neurodegenerative diseases, ageing, and tumorigenesis, a deta... Clusterin, a protein associated with multiple functions, is expressed in a wide variety of mammalian tissues. Although clusterin is known to be involved in neurodegenerative diseases, ageing, and tumorigenesis, a detailed analysis of the consequences of gain- or loss-of- function approaches has yet to be performed to understand the underlying mechanisms of clusterin functions. Since clusterin levels change in neurological diseases, it is likely that clusterin contributes to cell death and degeneration in general. Zebrafish was investigated as a model system to study human diseases. During development, zebrafish clusterin was expressed in the notochord and nervous system. Embryonic overexpression of clusterin by mRNA microinjection did not affect axis formation, whereas its knock-down by anti-sense morpholino treatment resulted in neuronal cell death. To analyze the function of clusterin in neurodegeneration, a transgenic zebrafish was investigated, in which nitroreductase expression is regulated under the control of a neuron-specifc huC promoter which is active between the stages of early neuronal precursors and mature neurons. Nitroreductase turns metronidazole into a cytotoxic agent that induces cell death within 12 h. After metronidazole treatment, transgenic zebrafish showed neuron-specific cell death. Interestingly, we also observed a dramatic induction of clusterin expression in the brain and spinal cord in these fish, suggesting a direct or indirect role of clusterin in neuronal cell death and thus, more generally, in neurodegeneration. 展开更多
关键词 CLUSTERIN neuronal cell death NEURODEGENERATION ZEBRAFISH
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Anionic liposomes for small interfering ribonucleic acid (siRNA) delivery to primary neuronal cells: Evaluation of alpha-synuclein knockdown efficacy 被引量:1
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作者 Michele Schlich Francesca Longhena +5 位作者 Gaia Faustini Caitriona M. O'Driscoll Chiara Sinico Anna Maria Fadda Arianna Bellucci Francesco Lai 《Nano Research》 SCIE EI CAS CSCD 2017年第10期3496-3508,共13页
Alpha-synuclein (a-syn) deposition in Lewy bodies (LB) is one of the main neuropathological hallmarks of Parkinson's disease (PD). LB accumulation is considered a causative factor of PD, which suggests that str... Alpha-synuclein (a-syn) deposition in Lewy bodies (LB) is one of the main neuropathological hallmarks of Parkinson's disease (PD). LB accumulation is considered a causative factor of PD, which suggests that strategies aimed at reducing a-syn levels could be relevant for its treatment. In the present study, we developed novel nanocarriers suitable for systemic delivery of small interfering ribonucleic acid (siRNA) that were specifically designed to reduce neuronal α-syn by RNA interference. Anionic liposomes loaded with an siRNA-protamine complex for α-syn gene silencing and decorated with a rabies virus glycoprotein (RVG)-derived peptide as a targeting agent were prepared. The nanoparticles were characterized for their ability to load, protect, and deliver the functional siRNA to mouse primary hippocampal and cortical neurons as well as their efficiency to induce gene silencing in these cells. Moreover, the nanocarriers were evaluated for their stability in serum. The RVG-decorated liposomes displayed suitable characteristics for future in vivo applications and successfully induced α-syn gene silencing in primary neurons without altering cell viability. Collectively, our results indicate that RVG-decorated liposomes may be an ideal tool for further studies aimed at achieving efficient in vivo α-syn gene silencing in mouse models of PD. 展开更多
关键词 rabies virus glycoprotein (RVG) peptide liposomes small interfering ribonudeic acid (siRNA) ALPHA-SYNUCLEIN primary neuronal cells Parkinson's disease
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Real-time effects of nicotine exposure and withdrawal on neurotransmitter metabolism of hippocampal neuronal cells by microfluidic chip-coupled LC-MS
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作者 Zhiyu Chen Lei Fu +4 位作者 Xin-An Liu Zhiyi Yang Wenbo Li Fang Li Qian Luo 《Chinese Chemical Letters》 SCIE CAS CSCD 2022年第6期3101-3105,共5页
Nicotine ingested from smoking exerts neuroprotection and developmental neurotoxicity in central nervous system.It can produce several changes of cognitive behaviors through regulating the release of different neurotr... Nicotine ingested from smoking exerts neuroprotection and developmental neurotoxicity in central nervous system.It can produce several changes of cognitive behaviors through regulating the release of different neurotransmitters in the brain.However,the effects of nicotine exposure or withdrawal on neurotransmitter metabolism of hippocampus are still unclear.In this study,we real-time evaluated the dynamic alterations in neurotransmitter metabolism of hippocampal neuronal(HT22)cells induced by nicotine exposure and withdrawal at relevant exposure levels of smoking and secondhand smoke by using a microfluidic chip-coupled with liquid chromatography-mass spectrometry(MC-LC-MS)system.We found HT22 cells mainly released related neurotransmitters of tryptophan and choline metabolism,both nicotine exposure and withdraw altered its neurotransmitters and their metabolites release.Exposure to nicotine mainly altered the secretion of serotonin,kynurenic acid,choline and acetylcholine of HT22 cells to improve hippocampal dependent cognition,and the change are closely related to the dose and duration of exposure.Moreover,the altered metabolites could rapidly recover after nicotine withdrawal,but picolinic acid was elevated.MC-LC-MS system used in present study showed a greater advantage to detect unstable metabolites than conventional method by using in vitro model,and the results of dynamic alterations of neurotransmitter metabolism induced by nicotine might provide a potential targets for drug development of neuroprotection or cognitive improvement. 展开更多
关键词 NICOTINE Microfluidic chip-coupled LC-MS Hippocampal neuronal cells Neurotransmitter metabolism Cognition
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c-Abl-MST1 Signaling Pathway Mediates Oxidative Stress Induced Neuronal Cell Death
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作者 Lei Xiao1, Wenzhi Bi2, Junbing Wu1, Yu Sun1, Jian Ren1, Guangju Ji1, Zengqiang Yuan1 1National Laboratory of Biomacromolecules .Institute of Biophysics, Chinese Academy of Sciences, 15 Datun Road, Chaoyang District, Beijing, 100101, China 2 Department of Osteopediatrics, PLA General Hospital, 79 Fuxin Road, Haidian District, Beijing, 100853 《生物物理学报》 CAS CSCD 北大核心 2009年第S1期284-284,共1页
Oxidative stress influences cell survival and homeostasis, but the mechanisms underlying the biological effects of oxidative stress remain to be elucidated. We have defined that the
关键词 MST cell c-Abl-MST1 Signaling Pathway Mediates Oxidative Stress Induced neuronal cell Death FOXO
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Denervated hippocampus provides a favorable microenvironment for neuronal differentiation of endogenous neural stem cells 被引量:3
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作者 Lei Zhang Xiao Han +3 位作者 Xiang Cheng Xue-feng Tan He-yan Zhao Xin-hua Zhang 《Neural Regeneration Research》 SCIE CAS CSCD 2016年第4期597-603,共7页
Fimbria-fornix transection induces both exogenous and endogenous neural stem cells to differentiate into neurons in the hippocampus.This indicates that the denervated hippocampus provides an environment for neuronal d... Fimbria-fornix transection induces both exogenous and endogenous neural stem cells to differentiate into neurons in the hippocampus.This indicates that the denervated hippocampus provides an environment for neuronal differentiation of neural stem cells.However,the pathways and mechanisms in this process are still unclear.Seven days after fimbria fornix transection,our reverse transcription polymerase chain reaction,western blot assay,and enzyme linked immunosorbent assay results show a significant increase in ciliary neurotrophic factor m RNA and protein expression in the denervated hippocampus.Moreover,neural stem cells derived from hippocampi of fetal(embryonic day 17) Sprague-Dawley rats were treated with ciliary neurotrophic factor for 7 days,with an increased number of microtubule associated protein-2-positive cells and decreased number of glial fibrillary acidic protein-positive cells detected.Our results show that ciliary neurotrophic factor expression is up-regulated in the denervated hippocampus,which may promote neuronal differentiation of neural stem cells in the denervated hippocampus. 展开更多
关键词 nerve regeneration ciliary neurotrophic factor hippocampus neural stem cells neurons neuronal differentiation fimbria-fornix transection neural regeneration
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Cell cycle exit and neuronal differentiation 1-engineered embryonic neural stem cells enhance neuronal differentiation and neurobehavioral recovery after experimental traumatic brain injury 被引量:2
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作者 Ren Wang Dian-Xu Yang +5 位作者 Ying-Liang Liu Jun Ding Yan Guo Wan-Hai Ding Heng-Li Tian Fang Yuan 《Neural Regeneration Research》 SCIE CAS CSCD 2022年第1期130-136,共7页
Our previous study showed that cell cycle exit and neuronal differentiation 1(CEND1)may participate in neural stem cell cycle exit and oriented differentiation.However,whether CEND1-transfected neural stem cells can i... Our previous study showed that cell cycle exit and neuronal differentiation 1(CEND1)may participate in neural stem cell cycle exit and oriented differentiation.However,whether CEND1-transfected neural stem cells can improve the prognosis of traumatic brain injury remained unclear.In this study,we performed quantitative proteomic analysis and found that after traumatic brain injury,CEND1 expression was downregulated in mouse brain tissue.Three days after traumatic brain injury,we transplanted CEND1-transfected neural stem cells into the area surrounding the injury site.We found that at 5 weeks after traumatic brain injury,transplantation of CEND1-transfected neural stem cells markedly alleviated brain atrophy and greatly improved neurological function.In vivo and in vitro results indicate that CEND1 overexpression inhibited the proliferation of neural stem cells,but significantly promoted their neuronal differentiation.Additionally,CEND1 overexpression reduced protein levels of Notch1 and cyclin D1,but increased levels of p21 in CEND1-transfected neural stem cells.Treatment with CEND1-transfected neural stem cells was superior to similar treatment without CEND1 transfection.These findings suggest that transplantation of CEND1-transfected neural stem cells is a promising cell therapy for traumatic brain injury.This study was approved by the Animal Ethics Committee of the School of Biomedical Engineering of Shanghai Jiao Tong University,China(approval No.2016034)on November 25,2016. 展开更多
关键词 cell cycle exit and neuronal differentiation 1 cyclin D1 embryonic neural stem cells neuronal differentiation genetic engineering OVEREXPRESSION mice Notch1 p21 traumatic brain injury
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Combination of mild therapeutic hypothermia and adipose-derived stem cells for ischemic brain injury 被引量:9
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作者 Kai Zhao Rui Li +11 位作者 Sheng Bi Yu Li Long Liu Yu-Long Jia Peng Han Chang-Cong Gu Xi-Ze Guo Wan-Ping Zhang Chun Wang Chun-Ying Pei Lin-Lu Tian Li-Xian Li 《Neural Regeneration Research》 SCIE CAS CSCD 2018年第10期1759-1770,共12页
Mild therapeutic hypothermia has been shown to mitigate cerebral ischemia, reduce cerebral edema, and improve the prognosis of patients with cerebral ischemia. Adipose-derived stem cell-based therapy can decrease neur... Mild therapeutic hypothermia has been shown to mitigate cerebral ischemia, reduce cerebral edema, and improve the prognosis of patients with cerebral ischemia. Adipose-derived stem cell-based therapy can decrease neuronal death and infiltration of inflammatory cells, exerting a neuroprotective effect. We hypothesized that the combination of mild therapeutic hypothermia and adipose-derived stem cells would be neuroprotective for treatment of stroke. A rat model of transient middle cerebral artery occlusion was established using the nylon monofilament method. Mild therapeutic hypothermia(33°C) was induced after 2 hours of ischemia. Adipose-derived stem cells were administered through the femoral vein during reperfusion. The severity of neurological dysfunction was measured by a modified Neurological Severity Score Scaling System. The area of the infarct lesion was determined by 2,3,5-triphenyltetrazolium chloride staining. Apoptotic neurons were detected by terminal deoxynucleotidyl transferase-mediated d UTP-biotin nick end labeling(TUNEL) staining. The regeneration of microvessels and changes in the glial scar were detected by immunofluorescence staining. The inflammatory responses after ischemic brain injury were evaluated by in situ staining using markers of inflammatory cells. The expression of inflammatory cytokines was measured by reverse transcription-polymerase chain reaction. Compared with mild therapeutic hypothermia or adipose-derived stem cell treatment alone, their combination substantially improved neurological deficits and decreased infarct size. They synergistically reduced the number of TUNEL-positive cells and glial fibrillary acidic protein expression, increased vascular endothelial growth factor levels, effectively reduced inflammatory cell infiltration and down-regulated the m RNA expression of the proinflammatory cytokines interleukin-1β, tumor necrosis factor-α and interleukin-6. Our findings indicate that combined treatment is a better approach for treating stroke compared with mild therapeutic hypothermia or adipose-derived stem cells alone. 展开更多
关键词 nerve regeneration brain injury stroke rats transient middle cerebrum artery occlusion cerebral resuscitation mild therapeutic hypothermia adipose-derived stem cells combination therapy neuroprotection neuronal cell death neural regeneration
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Differentiation of neuron-like cells from mouse parthenogenetic embryonic stem cells 被引量:4
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作者 Xingrong Yan Yanhong Yang +8 位作者 Wei Liu Wenxin Geng Huichong Du Jihong Cui Xin Xie Jinlian Hua Shumin Yu Liwen Li Fulin Chen 《Neural Regeneration Research》 SCIE CAS CSCD 2013年第4期293-300,共8页
Parthenogenetic embryonic stem cells have pluripotent differentiation potentials, akin to fertilized embryo-derived embryonic stem cells. The aim of this study was to compare the neuronal differentiation potential of ... Parthenogenetic embryonic stem cells have pluripotent differentiation potentials, akin to fertilized embryo-derived embryonic stem cells. The aim of this study was to compare the neuronal differentiation potential of parthenogenetic and fertilized embryo-derived embryonic stem cells. Before differentiation, karyotype analysis was performed, with normal karyotypes detected in both parthenogenetic and fertilized embryo-derived embryonic stem cells. Sex chromosomes were identified as XX. Immunocytochemistry and quantitative real-time PCR detected high expression of the pluripotent gene, Oct4, at both the mRNA and protein levels, indicating pluripotent differentiation potential of the two embryonic stem cell subtypes. Embryonic stern cells were induced with retinoic acid to form embryoid bodies, and then dispersed into single cells. Single cells were differentiated in N2 differentiation medium for 9 days. Immunocytochemistry showed parthenogenetic and fertilized embryo-derived embryonic stem cells both express the neuronal cell markers nestin, ~lll-tubulin and myelin basic protein. Quantitative real-time PCR found expression of neuregenesis related genes (Sox-1, Nestin, GABA, Pax6, Zic5 and Pitxl) in both types of embryonic stem cells, and Oct4 expression was significantly decreased. Nestin and Pax6 expression in parthenogenetic embryonic stem cells was significantly higher than that in fertilized embryo-derived embryonic stem cells. Thus, our experimental findings indicate that parthenogenetic embryonic stem cells have stronger neuronal differentiation potential than fertilized embryo-derived embryonic stem cells. 展开更多
关键词 neural regeneration stem cells PARTHENOGENESIS parthenogenetic embryonic stem cells embryonic stem cells neuronal cells KARYOTYPES Oct4 DIFFERENTIATION embryoid body mice grants-supported paper photographs-containing paper neuroregeneration
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Bis(7)-Tacrine, a Promising Anti-Alzheimer's Agent,Attenuates Glutamate-Induced Cell Injury in Primary Cultured Cerebrocortical Neurons of Rats 被引量:1
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作者 Zhang Bai fang,Peng Fang fang,Zhang Jiang zhou,Wu Dong cheng Biochemistry Department, School of Medicine, Wuhan University, Wuhan 430071, China 《Wuhan University Journal of Natural Sciences》 CAS 2001年第3期737-741,共5页
The effects of bis(7) tacrine, a novel dimeric acetylcholinesterase (AChE) inhibitor, on glutamate induced cell injury were investigated in primary cerebral cortical neurons of rats. Exposure of cultured neurons (1... The effects of bis(7) tacrine, a novel dimeric acetylcholinesterase (AChE) inhibitor, on glutamate induced cell injury were investigated in primary cerebral cortical neurons of rats. Exposure of cultured neurons (12 days after plating) to 0.5 mmol/L glutamate for 30 min resulted in significant cell damage. Pretreatment with bis(7) tacrine (0.03 1.0 μmol/L) reduced the glutamate induced neurotoxicity in a concentration dependent manner and the maximal response was seen at 1 μmol/L with approximately 30% protection. A receptor binding assay showed that bis(7) tacrine can completely displace MK 801 binding to rat cortical membrane with an IC 50 of 0.57 μmol/L. These findings suggest that bis(7) tacrine can directly interact with N methyl D aspartate receptor channel complex, which may contribute to the inhibitor's protective effects against glutamate induced excitotoxicity. Thus, it is possible that anti glutamate/anti AChE synergism is responsible for potentially better Alzheimer's therapy of bis(7) tacrine relative to tacrine. 展开更多
关键词 bis(7) tacrine TACRINE cholinesterase inhibitor GLUTAMATE primary neuronal cell culture
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Therapeutic effect of bone marrow mesenchymal stem cells on cold stress induced changes in the hippocampus of rats
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作者 Saravana Kumar Sampath Kumar Saraswathi Perumal Vijayaraghavan Rajagopalan 《Neural Regeneration Research》 SCIE CAS CSCD 2014年第19期1740-1744,共5页
The present study aims to evaluate the effect of bone marrow mesenchymal stem cells on cold stress induced neuronal changes in hippocampal CA1 region of Wistar rats. Bone marrow mes- enchymal stem cells were isolated ... The present study aims to evaluate the effect of bone marrow mesenchymal stem cells on cold stress induced neuronal changes in hippocampal CA1 region of Wistar rats. Bone marrow mes- enchymal stem cells were isolated from a 6-week-old Wistar rat. Bone marrow from adult femora and tibia was collected and mesenchymal stem cells were cultured in minimal essential medium containing 10% heat-inactivated fetal bovine serum and were sub-cultured. Passage 3 cells were analyzed by flow cytometry for positive expression of CD44 and CD90 and negative expression of CD45. Once CD44 and CD90 positive expression was achieved, the cells were cultured again to 90% confluence for later experiments. Twenty-four rats aged 8 weeks old were randomly and evenly divided into normal control, cold water swim stress (cold stress), cold stress + PBS (intra- venous infusion), and cold stress + bone marrow mesenchymal stem cells (1 x 106; intravenous infusion) groups. The total period of study was 60 days which included 1 month stress period followed by 1 month treatment. Behavioral functional test was performed during the entire study period. After treatment, rats were sacrificed for histological studies. Treatment with bone marrow mesenchymal stem cells significantly increased the number of neuronal cells in hippocampal CA 1 region. Adult bone marrow mesenchymal stem cells injected by intravenous administration show potential therapeutic effects in cognitive decline associated with stress-related lesions. 展开更多
关键词 nerve regeneration bone marrow mesenchymal stem cells HIPPOCAMPUS cold stress INTRAVENOUS COGNITION neuronal cells CA1 region neural regeneration
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Live-cell imaging:new avenues to investigate retinal regeneration 被引量:1
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作者 Manuela Lahne David R.Hyde 《Neural Regeneration Research》 SCIE CAS CSCD 2017年第8期1210-1219,共10页
Sensing and responding to our environment requires functional neurons that act in concert. Neuronal cell loss resulting from degenerative diseases cannot be replaced in humans, causing a functional impairment to integ... Sensing and responding to our environment requires functional neurons that act in concert. Neuronal cell loss resulting from degenerative diseases cannot be replaced in humans, causing a functional impairment to integrate and/or respond to sensory cues. In contrast, zebrafish(Danio rerio) possess an endogenous capacity to regenerate lost neurons. Here, we will focus on the processes that lead to neuronal regeneration in the zebrafish retina. Dying retinal neurons release a damage signal, tumor necrosis factor α, which induces the resident radial glia, the Müller glia, to reprogram and re-enter the cell cycle. The Müller glia divide asymmetrically to produce a Müller glia that exits the cell cycle and a neuronal progenitor cell. The arising neuronal progenitor cells undergo several rounds of cell divisions before they migrate to the site of damage to differentiate into the neuronal cell types that were lost. Molecular and immunohistochemical studies have predominantly provided insight into the mechanisms that regulate retinal regeneration. However, many processes during retinal regeneration are dynamic and require live-cell imaging to fully discern the underlying mechanisms. Recently, a multiphoton imaging approach of adult zebrafish retinal cultures was developed. We will discuss the use of live-cell imaging, the currently available tools and those that need to be developed to advance our knowledge on major open questions in the field of retinal regeneration. 展开更多
关键词 multiphoton microscopy live-cell imaging ZEBRAFISH interkinetic nuclear migration tissue culture retinal regeneration Miiller glia neuronal progenitor cell differentiation PHAGOCYTOSIS
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Direct reprogramming of somatic cells into neural stem cells or neurons for neurological disorders 被引量:3
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作者 Shaoping Hou Paul Lu 《Neural Regeneration Research》 SCIE CAS CSCD 2016年第1期28-31,共4页
Direct reprogramming of somatic cells into neurons or neural stem cells is one of the most important frontier fields in current neuroscience research. Without undergoing the pluripotency stage, induced neurons or indu... Direct reprogramming of somatic cells into neurons or neural stem cells is one of the most important frontier fields in current neuroscience research. Without undergoing the pluripotency stage, induced neurons or induced neural stem cells are a safer and timelier manner resource in comparison to those derived from induced pluripotent stem cells. In this prospective, we review the recent advances in generation of induced neurons and induced neural stem cells in vitro and in vivo and their potential treatments of neurological disorders. 展开更多
关键词 neural cells induced neural stem cells induced neurons pluripotent stem cells neurological diseases
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Effect of Batroxobin on Expression of Neural Cell Adhesion Molecule in Temporal Infarction Rats and Spatial Learning and Memory Disorder 被引量:4
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作者 吴卫平 管兴志 +6 位作者 匡培根 姜树军 扬炯炯 隋南 AlbertChen 匡培梓 张小澍 《Journal of Traditional Chinese Medicine》 SCIE CAS CSCD 2001年第4期294-298,共5页
The effect of Batroxobin expression of neural cell adhesion molecule (NCAM) in left temporal ischemic rats with spatial memory disorder was investigated by means of Morri's water maze and immunohistochemical metho... The effect of Batroxobin expression of neural cell adhesion molecule (NCAM) in left temporal ischemic rats with spatial memory disorder was investigated by means of Morri's water maze and immunohistochemical methods. The results showed that the mean reaction time and distance of temporal ischemic rats for searching a goal were significantly longer than those of sham-operated rats and at the same time NCAM expression of left temporal ischemic region was significantly increased. However, the mean reaction time and distance of Batroxobin-treated rats were shorter and they used normal strategies more often and earlier than those of ischemic rats. The number of NCAM immune reactive cells of Batroxobin-treated rats was more than that of ischemic group. In conclusion, Batroxobin can improve spatial memory disorder of temporal ischemic rats and the regulation of the expression of NCAM is probably related to the neuroprotective mechanism. 展开更多
关键词 Animals BATROXOBIN cell Adhesion Molecules neuronal Cerebral Infarction Male Maze Learning Memory Disorders Neuroprotective Agents Random Allocation RATS Rats Wistar Temporal Lobe
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