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Nanobiomaterials for neural regeneration
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作者 Nuan Chen Lingling Tian +1 位作者 Liumin He Seeram Ramakrishna 《Neural Regeneration Research》 SCIE CAS CSCD 2016年第9期1372-1374,共3页
Diseases and disorders associated with nervous system such as injuries by trauma and neurodegeneration are shown to be one of the most serious problems in medicine, requiring innovative strategies to trigger and enhan... Diseases and disorders associated with nervous system such as injuries by trauma and neurodegeneration are shown to be one of the most serious problems in medicine, requiring innovative strategies to trigger and enhance the nerve regeneration. Tissue engineering aims to provide a highly biomimetic environment by using a combination of cells, materials and suitable biological cues, by which the lost body part may be regenerated or even fully rebuilt. Electrospinning, being able to produce extracellular matrix (ECM)-like nanostructures with great flexibility in design and choice of materials, have demonstrated their great po- tential for fabrication of nerve tissue engineered scaffolds. The review here begins with a brief description of the anatomy of native nervous system, which provides basic knowledge and ideas for the design of nerve tissue scaffolds, followed by five main parts in the design of electrospun nerve tissue engineered scaffolds including materials selection, structural design, in vitro bioreactor, functionalization and cellular support. Performances of biomimetic electrospun nanofibrous nerve implant devices are also reviewed. Finally, future directions for advanced electrospun nerve tissue engineered scaffolds are discussed. 展开更多
关键词 nerve regeneration tissue engineering contact guidance electrospun scaffold nanostructuredmaterials NANOFIBERS
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Genetically modified non-human primate models for research on neurodegenerative diseases 被引量:2
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作者 Ming-Tian Pan Han Zhang +1 位作者 Xiao-Jiang Li Xiang-Yu Guo 《Zoological Research》 SCIE CSCD 2024年第2期263-274,共12页
Neurodegenerative diseases(NDs)are a group of debilitating neurological disorders that primarily affect elderly populations and include Alzheimer's disease(AD),Parkinson's disease(PD),Huntington's disease(... Neurodegenerative diseases(NDs)are a group of debilitating neurological disorders that primarily affect elderly populations and include Alzheimer's disease(AD),Parkinson's disease(PD),Huntington's disease(HD),and amyotrophic lateral sclerosis(ALS).Currently,there are no therapies available that can delay,stop,or reverse the pathological progression of NDs in clinical settings.As the population ages,NDs are imposing a huge burden on public health systems and affected families.Animal models are important tools for preclinical investigations to understand disease pathogenesis and test potential treatments.While numerous rodent models of NDs have been developed to enhance our understanding of disease mechanisms,the limited success of translating findings from animal models to clinical practice suggests that there is still a need to bridge this translation gap.Old World nonhuman primates(NHPs),such as rhesus,cynomolgus,and vervet monkeys,are phylogenetically,physiologically,biochemically,and behaviorally most relevant to humans.This is particularly evident in the similarity of the structure and function of their central nervous systems,rendering such species uniquely valuable for neuroscience research.Recently,the development of several genetically modified NHP models of NDs has successfully recapitulated key pathologies and revealed novel mechanisms.This review focuses on the efficacy of NHPs in modeling NDs and the novel pathological insights gained,as well as the challenges associated with the generation of such models and the complexities involved in their subsequent analysis. 展开更多
关键词 NEURODEGENERATION Non-human primate Macaque monkey Animal model Gene modification
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Activation of endogenous neurogenesis and angiogenesis by basic fibroblast growth factor-chitosan gel in an adult rat model of ischemic stroke 被引量:4
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作者 Hongmei Duan Shulun Li +11 位作者 Peng Hao Fei Hao Wen Zhao Yudan Gao Hui Qiao Yiming Gu Yang Lv Xinjie Bao Kin Chiu Kwok-Fai So Zhaoyang Yang Xiaoguang Li 《Neural Regeneration Research》 SCIE CAS CSCD 2024年第2期409-415,共7页
Attempts have been made to use cell transplantation and biomaterials to promote cell proliferation,differentiation,migration,and survival,as well as angiogenesis,in the context of brain injury.However,whether bioactiv... Attempts have been made to use cell transplantation and biomaterials to promote cell proliferation,differentiation,migration,and survival,as well as angiogenesis,in the context of brain injury.However,whether bioactive materials can repair the damage caused by ischemic stroke by activating endogenous neurogenesis and angiogenesis is still unknown.In this study,we applied chitosan gel loaded with basic fibroblast growth factor to the stroke cavity 7 days after ischemic stroke in rats.The gel slowly released basic fibroblast growth factor,which improved the local microenvironment,activated endogenous neural stem/progenitor cells,and recruited these cells to migrate toward the penumbra and stroke cavity and subsequently differentiate into neurons,while enhancing angiogenesis in the penumbra and stroke cavity and ultimately leading to partial functional recovery.This study revealed the mechanism by which bioactive materials repair ischemic strokes,thus providing a new strategy for the clinical application of bioactive materials in the treatment of ischemic stroke. 展开更多
关键词 adult endogenous neurogenesis ANGIOGENESIS basic fibroblast growth factor-chitosan gel CHITOSAN functional recovery ischemic stroke neural stem cell newborn neuron
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Surgical intervention combined with weight-bearing walking training promotes recovery in patients with chronic spinal cord injury:a randomized controlled study 被引量:1
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作者 Hui Zhu James D.Guest +19 位作者 Sarah Dunlop Jia-Xin Xie Sujuan Gao Zhuojing Luo Joe E.Springer Wutian Wu Wise Young Wai Sang Poon Song Liu Hongkun Gao Tao Yu Dianchun Wang Libing Zhou Shengping Wu Lei Zhong Fang Niu Xiaomei Wang Yansheng Liu Kwok-Fai So Xiao-Ming Xu 《Neural Regeneration Research》 SCIE CAS CSCD 2024年第12期2773-2784,共12页
For patients with chronic spinal cord injury,the co nventional treatment is rehabilitation and treatment of spinal cord injury complications such as urinary tract infection,pressure sores,osteoporosis,and deep vein th... For patients with chronic spinal cord injury,the co nventional treatment is rehabilitation and treatment of spinal cord injury complications such as urinary tract infection,pressure sores,osteoporosis,and deep vein thrombosis.Surgery is rarely perfo rmed on spinal co rd injury in the chronic phase,and few treatments have been proven effective in chronic spinal cord injury patients.Development of effective therapies fo r chronic spinal co rd injury patients is needed.We conducted a randomized controlled clinical trial in patients with chronic complete thoracic spinal co rd injury to compare intensive rehabilitation(weight-bearing walking training)alone with surgical intervention plus intensive rehabilitation.This clinical trial was registered at ClinicalTrials.gov(NCT02663310).The goal of surgical intervention was spinal cord detethering,restoration of cerebrospinal fluid flow,and elimination of residual spinal cord compression.We found that surgical intervention plus weight-bearing walking training was associated with a higher incidence of American Spinal Injury Association Impairment Scale improvement,reduced spasticity,and more rapid bowel and bladder functional recovery than weight-bearing walking training alone.Overall,the surgical procedures and intensive rehabilitation were safe.American Spinal Injury Association Impairment Scale improvement was more common in T7-T11 injuries than in T2-T6 injuries.Surgery combined with rehabilitation appears to have a role in treatment of chronic spinal cord injury patients. 展开更多
关键词 chronic spinal cord injury intensive rehabilitation locomotor training neurological recovery surgical intervention weightbearing walking training
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A core scientific problem in the treatment of central nervous system diseases:newborn neurons
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作者 Peng Hao Zhaoyang Yang +1 位作者 Kwok-Fai So Xiaoguang Li 《Neural Regeneration Research》 SCIE CAS CSCD 2024年第12期2588-2601,共14页
It has long been asserted that failure to recover from central nervous system diseases is due to the system's intricate structure and the regenerative incapacity of adult neurons.Yet over recent decades,numerous s... It has long been asserted that failure to recover from central nervous system diseases is due to the system's intricate structure and the regenerative incapacity of adult neurons.Yet over recent decades,numerous studies have established that endogenous neurogenesis occurs in the adult central nervous system,including humans'.This has challenged the long-held scientific consensus that the number of adult neurons remains constant,and that new central nervous system neurons cannot be created or renewed.Herein,we present a comprehensive overview of the alterations and regulatory mechanisms of endogenous neurogenesis following central nervous system injury,and describe novel treatment strategies that to rget endogenous neurogenesis and newborn neurons in the treatment of central nervous system injury.Central nervous system injury frequently results in alterations of endogenous neurogenesis,encompassing the activation,proliferation,ectopic migration,diffe rentiation,and functional integration of endogenous neural stem cells.Because of the unfavorable local microenvironment,most activated neural stem cells diffe rentiate into glial cells rather than neurons.Consequently,the injury-induced endogenous neurogenesis response is inadequate for repairing impaired neural function.Scientists have attempted to enhance endogenous neurogenesis using various strategies,including using neurotrophic factors,bioactive materials,and cell reprogramming techniques.Used alone or in combination,these therapeutic strategies can promote targeted migration of neural stem cells to an injured area,ensure their survival and diffe rentiation into mature functional neurons,and facilitate their integration into the neural circuit.Thus can integration re plenish lost neurons after central nervous system injury,by improving the local microenvironment.By regulating each phase of endogenous neurogenesis,endogenous neural stem cells can be harnessed to promote effective regeneration of newborn neurons.This offers a novel approach for treating central nervous system injury. 展开更多
关键词 bioactive materials brain trauma endogenous neurogenesis hippocampal dentate gyrus neural stem cells neurotrophic factors newborn neurons spinal cord injury stroke subventricular zone
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Chitosan-based thermosensitive hydrogel with long-term release of murine nerve growth factor for neurotrophic keratopathy
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作者 Jie Wu Yulei Huang +10 位作者 Hanrui Yu Kaixiu Li Shifeng Zhang Guoqing Qiao Xiao Liu Hongmei Duan Yifei Huang Kwok-Fai So Zhaoyang Yang Xiaoguang Li Liqiang Wang 《Neural Regeneration Research》 SCIE CAS CSCD 2024年第3期680-686,共7页
Neurotrophic keratopathy is a persistent defect of the corneal epithelium,with or without stromal ulceration,due to corneal nerve deficiency caused by a variety of etiologies.The treatment options for neurotrophic ker... Neurotrophic keratopathy is a persistent defect of the corneal epithelium,with or without stromal ulceration,due to corneal nerve deficiency caused by a variety of etiologies.The treatment options for neurotrophic keratopathy are limited.In this study,an ophthalmic solution was constructed from a chitosan-based thermosensitive hydrogel with long-term release of murine nerve growth factor(CTH-mNGF).Its effectiveness was evaluated in corneal denervation(CD)mice and patients with neurotrophic keratopathy.In the preclinical setting,CTH-mNGF was assessed in a murine corneal denervation model.CTH-mNGF was transparent,thermosensitive,and ensured sustained release of mNGF for over 20 hours on the ocular surface,maintaining the local mNGF concentration around 1300 pg/mL in vivo.Corneal denervation mice treated with CTH-mNGF for 10 days showed a significant increase in corneal nerve area and total corneal nerve length compared with non-treated and CTH treated mice.A subsequent clinical trial of CTH-mNGF was conducted in patients with stage 2 or 3 neurotrophic keratopathy.Patients received topical CTH-mNGF twice daily for 8 weeks.Fluorescein sodium images,Schirmer’s test,intraocular pressure,Cochet-Bonnet corneal perception test,and best corrected visual acuity were evaluated.In total,six patients(total of seven eyes)diagnosed with neurotrophic keratopathy were enrolled.After 8 weeks of CTH-mNGF treatment,all participants showed a decreased area of corneal epithelial defect,as stained by fluorescence.Overall,six out of seven eyes had fluorescence staining scores<5.Moreover,best corrected visual acuity,intraocular pressure,Schirmer’s test and Cochet-Bonnet corneal perception test results showed no significant improvement.An increase in corneal nerve density was observed by in vivo confocal microscopy after 8 weeks of CTH-mNGF treatment in three out of seven eyes.This study demonstrates that CTH-mNGF is transparent,thermosensitive,and has sustained-release properties.Its effectiveness in healing corneal epithelial defects in all eyes with neurotrophic keratopathy suggests CTH-mNGF has promising application prospects in the treatment of neurotrophic keratopathy,being convenient and cost effective. 展开更多
关键词 chitosan corneal reinnervation murine nerve growth factor neurotrophic keratopathy thermosensitive hydrogel
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Regeneration and functional recovery of the completely transected optic nerve in adult rats by CNTF-chitosan
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作者 Xiao Liu Fei Hao +7 位作者 Peng Hao Jingxue Zhang Liqiang Wang Si-Wei You Ningli Wang Zhaoyang Yang Kwok-Fai So Xiaoguang Li 《Signal Transduction and Targeted Therapy》 SCIE CSCD 2023年第3期912-915,共4页
Dear Editor,The optic nerve,which belongs to the central nervous system(CNS),cannot regenerate when injured in adult mammals.1 Up to now,no readily translatable measures are available for repairing a severely injured ... Dear Editor,The optic nerve,which belongs to the central nervous system(CNS),cannot regenerate when injured in adult mammals.1 Up to now,no readily translatable measures are available for repairing a severely injured optic nerve.Herein we demonstrated that ciliary neurotrophic factor(CNTF)-chitosan enabled the reconstruction and functional recovery of the adult rat visual system,thus shedding light on the clinical potential for repairing the severely injured optic nerve. 展开更多
关键词 REGENERATION functional CNTF
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Overexpressing NeuroD1 reprograms Müller cells into various types of retinal neurons 被引量:4
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作者 Di Xu Li-Ting Zhong +6 位作者 Hai-Yang Cheng Zeng-Qiang Wang Xiong-Min Chen Ai-Ying Feng Wei-Yi Chen Gong Chen Ying Xu 《Neural Regeneration Research》 SCIE CAS CSCD 2023年第5期1124-1131,共8页
The onset of retinal degenerative disease is often associated with neuronal loss. Therefore, how to regenerate new neurons to restore vision is an important issue. NeuroD1 is a neural transcription factor with the abi... The onset of retinal degenerative disease is often associated with neuronal loss. Therefore, how to regenerate new neurons to restore vision is an important issue. NeuroD1 is a neural transcription factor with the ability to reprogram brain astrocytes into neurons in vivo. Here, we demonstrate that in adult mice, NeuroD1 can reprogram Müller cells, the principal glial cell type in the retina, to become retinal neurons. Most strikingly, ectopic expression of NeuroD1 using two different viral vectors converted Müller cells into different cell types. Specifically, AAV7 m8 GFAP681::GFP-ND1 converted Müller cells into inner retinal neurons, including amacrine cells and ganglion cells. In contrast, AAV9 GFAP104::ND1-GFP converted Müller cells into outer retinal neurons such as photoreceptors and horizontal cells, with higher conversion efficiency. Furthermore, we demonstrate that Müller cell conversion induced by AAV9 GFAP104::ND1-GFP displayed clear dose-and time-dependence. These results indicate that Müller cells in adult mice are highly plastic and can be reprogrammed into various subtypes of retinal neurons. 展开更多
关键词 amacrine cell ganglion cell horizontal cell in vivo reprogramming Müller cell NeuroD1 PHOTORECEPTOR REGENERATION RETINA retinal degeneration
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Poly-L-ornithine blocks the inhibitory effects of fibronectin on oligodendrocyte differentiation and promotes myelin repair 被引量:2
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作者 Ya-Jie Xiong Shahid Hussain Soomro +3 位作者 Zhong-Hai Huang Pan-Pan Yu Jie Ping Hui Fu 《Neural Regeneration Research》 SCIE CAS CSCD 2023年第4期832-839,共8页
The extracellular matrix surrounding oligodendrocytes plays an important role during myelination and remyelination in the brain.In many cases,the microenvironment surrounding demyelination lesions contains inhibitory ... The extracellular matrix surrounding oligodendrocytes plays an important role during myelination and remyelination in the brain.In many cases,the microenvironment surrounding demyelination lesions contains inhibitory molecules,which lead to repair failure.Accordingly,blocking the activity of these inhibitory factors in the extracellular matrix should lead to more successful remyelination.In the central nervous system,oligodendrocytes form the myelin sheath.We performed primary cell culture and found that a natural increase in fibronectin promoted the proliferation of oligodendrocyte progenitors during the initial stage of remyelination while inhibiting oligodendrocyte differentiation.Poly-L-ornithine blocked these inhibitory effects without compromising fibronectin’s pro-proliferation function.Experiments showed that poly-L-ornithine activated the Erk1/2 signaling pathway that is necessary in the early stages of differentiation,as well as PI3K signaling pathways that are needed in the mid-late stages.When poly-L-ornithine was tested in a lysolecithin-induced animal model of focal demyelination,it enhanced myelin regeneration and promoted motor function recovery.These findings suggest that poly-L-ornithine has the potential to be a treatment option for clinical myelin sheath injury. 展开更多
关键词 differentiation Erk1/2 extracellular matrix FIBRONECTIN lysolecithin-induced demyelination OLIGODENDROCYTE PI3K poly-L-ornithine proliferation REMYELINATION
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Defects and asymmetries in the visual pathway of non-human primates with natural strabismus and amblyopia
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作者 Feng Liu Zhong-Hao Wang +11 位作者 Wanjing Huang Ying Xu Xuan Sang Ruifeng Liu Zhou-Yue Li Ya-Lan Bi Lei Tang Jing-Yi Peng Jia-Ru Wei Zhi-Chao Miao Jian-Hua Yan Sheng Liu 《Zoological Research》 SCIE CAS CSCD 2023年第1期153-168,共16页
Strabismus and amblyopia are common ophthalmologic developmental diseases caused by abnormal visual experiences. However, the underlying pathogenesis and visual defects are still not fully understood. Most studies hav... Strabismus and amblyopia are common ophthalmologic developmental diseases caused by abnormal visual experiences. However, the underlying pathogenesis and visual defects are still not fully understood. Most studies have used experimental interference to establish diseaseassociated animal models, while ignoring the natural pathophysiological mechanisms. This study was designed to investigate whether natural strabismus and amblyopia are associated with abnormal neurological defects. We screened one natural strabismic monkey(Macaca fascicularis) and one natural amblyopic monkey from hundreds of monkeys, and retrospectively analyzed one human strabismus case. Neuroimaging, behavioral,neurophysiological, neurostructural, and genovariation features were systematically evaluated using magnetic resonance imaging(MRI), behavioral tasks, flash visual evoked potentials(FVEP),electroretinogram(ERG), optical coherence tomography(OCT), and whole-genome sequencing(WGS), respectively. Results showed that the strabismic patient and natural strabismic and amblyopic monkeys exhibited similar abnormal asymmetries in brain structure, i.e., ipsilateral impaired right hemisphere. Visual behavior, visual function, retinal structure, and fundus of the monkeys were impaired. Aberrant asymmetry in binocular visual function and structure between the strabismic and amblyopic monkeys was closely related, with greater impairment of the left visual pathway.Several similar known mutant genes for strabismus and amblyopia were also identified. In conclusion,natural strabismus and amblyopia are accompanied by abnormal asymmetries of the visual system,especially visual neurophysiological and neurostructural defects. Our results suggest that future therapeutic and mechanistic studies should consider defects and asymmetries throughout the entire visual system. 展开更多
关键词 Non-human primates Natural disease models Strabismic patients STRABISMUS AMBLYOPIA
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Differential neuronal reprogramming induced by NeuroD1 from astrocytes in grey matter versus white matter 被引量:11
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作者 Min-Hui Liu Wen Li +3 位作者 Jia-Jun Zheng Yu-Ge Xu Qing He Gong Chen 《Neural Regeneration Research》 SCIE CAS CSCD 2020年第2期342-351,共10页
A new technology called in vivo glia-to-neuron conversion has emerged in recent years as a promising next generation therapy for neural regeneration and repair. This is achieved through reprogramming endogenous glial ... A new technology called in vivo glia-to-neuron conversion has emerged in recent years as a promising next generation therapy for neural regeneration and repair. This is achieved through reprogramming endogenous glial cells into neurons in the central nervous system through ectopically expressing neural transcriptional factors in glial cells. Previous studies have been focusing on glial cells in the grey matter such as the cortex and striatum, but whether glial cells in the white matter can be reprogrammed or not is unknown. To address this fundamental question, we express NeuroD1 in the astrocytes of both grey matter(cortex and striatum) and white matter(corpus callosum) to investigate the conversion efficiency, neuronal subtypes, and electrophysiological features of the converted neurons. We discover that NeuroD1 can efficiently reprogram the astrocytes in the grey matter into functional neurons, but the astrocytes in the white matter are much resistant to neuronal reprogramming. The converted neurons from cortical and striatal astrocytes are composed of both glutamatergic and GABAergic neurons, capable of firing action potentials and having spontaneous synaptic activities. In contrast, the few astrocyte-converted neurons in the white matter are rather immature with rare synaptic events. These results provide novel insights into the differential reprogramming capability between the astrocytes in the grey matter versus the white matter, and highlight the impact of regional astrocytes as well as microenvironment on the outcome of glia-toneuron conversion. Since human brain has large volume of white matter, this study will provide important guidance for future development of in vivo glia-to-neuron conversion technology into potential clinical therapies. Experimental protocols in this study were approved by the Laboratory Animal Ethics Committee of Jinan University(approval No. IACUC-20180321-03) on March 21, 2018. 展开更多
关键词 ASTROCYTE CONVERSION efficiency corpus callosum cortex grey MATTER in vivo cell CONVERSION NeuroD1 neuron REPROGRAMMING STRIATUM white MATTER
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Human adipose tissue-and umbilical cord-derived stem cells: which is a better alternative to treat spinal cord injury? 被引量:7
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作者 Ai-Mei Liu Bo-Li Chen +6 位作者 Ling-Tai Yu Tao Liu Ling-Ling Shi Pan-Pan Yu Yi-Bo Qu Kwok-Fai So Li-Bing Zhou 《Neural Regeneration Research》 SCIE CAS CSCD 2020年第12期2306-2317,共12页
Multiple types of stem cells have been proposed for the treatment of spinal cord injury,but their comparative information remains elusive.In this study,a rat model of T10 contusion spinal cord injury was established b... Multiple types of stem cells have been proposed for the treatment of spinal cord injury,but their comparative information remains elusive.In this study,a rat model of T10 contusion spinal cord injury was established by the impactor method.Human umbilical cord-derived mesenchymal stem cells(UCMSCs)or human adipose tissue-derived mesenchymal stem cells(ADMSCs)(2.5μL/injection site,1×10^5 cells/μL)was injected on rostral and caudal of the injury segment on the ninth day after injury.Rats injected with mesenchymal stem cell culture medium were used as controls.Our results show that although transplanted UCMSCs and ADMSCs failed to differentiate into neurons or glial cells in vivo,both significantly improved motor and sensory function.After spinal cord injury,UCMSCs and ADMSCs similarly promoted spinal neuron survival and axonal regeneration,decreased glial scar and lesion cavity formation,and reduced numbers of active macrophages.BioPlex analysis of spinal samples showed a specific increase of interleukin-10 and decrease of tumor necrosis factorαin the ADMSC group,as well as a downregulation of macrophage inflammatory protein 3αin both UCMSC and ADMSC groups at 3 days after cell transplantation.Upregulation of interleukin-10 and interleukin-13 was observed in both UCMSC and ADMSC groups at 7 days after cell transplantation.Isobaric tagging for relative and absolute quantitation proteomics analyses showed that UCMSCs and ADMSCs induced changes of multiple genes related to axonal regeneration,neurotrophy,and cell apoptosis in common and specific manners.In conclusion,UCMSC and ADMSC transplants yielded quite similar contributions to motor and sensory recovery after spinal cord injury via anti-inflammation and improved axonal growth.However,there were some differences in cytokine and gene expression induced by these two types of transplanted cells.Animal experiments were approved by the Laboratory Animal Ethics Committee at Jinan University(approval No.20180228026)on February 28,2018,and the application of human stem cells was approved by the Medical Ethics Committee of Medical College of Jinan University of China(approval No.2016041303)on April 13,2016. 展开更多
关键词 behavior central nervous system factor inflammation model spinal cord stem cells TRANSPLANTATION
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Lycium barbarum polysaccharide-glycoprotein preventative treatment ameliorates aversive stimuli-induced depression 被引量:10
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作者 Yun-Wei Fu Yan-Fang Peng +7 位作者 Xiao-Dan Huang Yan Yang Lu Huang Yue Xi Zheng-Fang Hu Song Lin Kwok-Fai So Chao-Ran Ren 《Neural Regeneration Research》 SCIE CAS CSCD 2021年第3期543-549,共7页
Previous studies have shown that Lycium barbarum polysaccharide,the main active component of Lycium barbarum,exhibits antiinflammatory and antioxidant effects in treating neurological diseases.However,the therapeutic ... Previous studies have shown that Lycium barbarum polysaccharide,the main active component of Lycium barbarum,exhibits antiinflammatory and antioxidant effects in treating neurological diseases.However,the therapeutic action of Lycium barbarum polysaccharide on depression has not been studied.In this investigation,we established mouse models of depression using aversive stimuli including exposure to fox urine,air puff and foot shock and physical restraint.Concurrently,we administered 5 mg/kg per day Lycium barbarum polysaccharide-glycoprotein to each mouse intragastrically for the 28 days.Our results showed that long-term exposure to aversive stimuli significantly enhanced depressive-like behavior evaluated by the sucrose preference test and the forced swimming test and increased anxietylike behaviors evaluated using the open field test.In addition,aversive stimuli-induced depressed mice exhibited aberrant neuronal activity in the lateral habenula.Importantly,concurrent Lycium barbarum polysaccharide-glycoprotein treatment significantly reduced these changes.These findings suggest that Lycium barbarum polysaccharide-glycoprotein is a potential preventative intervention for depression and may act by preventing aberrant neuronal activity and microglial activation in the lateral habenula.The study was approved by the Jinan University Institutional Animal Care and Use Committee(approval No.20170301003)on March 1,2017. 展开更多
关键词 aversive stimuli behaviors DEPRESSION immune response inflammation lateral habenula Lycium barbarum polysaccharide mice MICROGLIA NEURON
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Alerting effects of light in healthy individuals: a systematic review and meta-analysis 被引量:3
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作者 Yi-Man Mu Xiao-Dan Huang +4 位作者 Sui Zhu Zheng-Fang Hu Kwok-Fai So Chao-Ran Ren Qian Tao 《Neural Regeneration Research》 SCIE CAS CSCD 2022年第9期1929-1936,共8页
Light plays an essential role in psychobiological and psychophysiological processes,such as alertness.The alerting effect is influenced by light characteristics and the timing of interventions.This meta-analysis is th... Light plays an essential role in psychobiological and psychophysiological processes,such as alertness.The alerting effect is influenced by light characteristics and the timing of interventions.This meta-analysis is the first to systematically review the effect of light intervention on alertness and to discuss the optimal protocol for light intervention.In this meta-analysis,registered at PROSPERO(Registration ID:CRD42020181485),we conducted a systematic search of the Web of Science,PubMed,and PsycINFO databases for studies published in English prior to August 2021.The outcomes included both subjective and objective alertness.Subgroup analyses considered a variety of factors,such as wavelength,correlated color temperature(CCT),light illuminance,and timing of interventions(daytime,night-time,or all day).Twenty-seven crossover studies and two parallel-group studies were included in this meta-analysis,with a total of 1210 healthy participants(636(52%)male,mean age 25.62 years).The results revealed that light intervention had a positive effect on both subjective alertness(standardized mean difference(SMD)=-0.28,95%confidence interval(CI):-0.49 to-0.06,P=0.01)and objective alertness in healthy subjects(SMD=-0.34,95%CI:-0.68 to-0.01,P=0.04).The subgroup analysis revealed that cold light was better than warm light in improving subjective alertness(SMD=-0.37,95%CI:-0.65 to-0.10,P=0.007,I2=26%)and objective alertness(SMD=-0.36,95%CI:-0.66 to-0.07,P=0.02,I2=0).Both daytime(SMD=-0.22,95%CI:-0.37 to-0.07,P=0.005,I2=74%)and night-time(SMD=-0.32,95%CI:-0.61 to-0.02,P=0.04,I2=0)light exposure improved subjective alertness.The results of this meta-analysis and systematic review indicate that light exposure is associated with significant improvement in subjective and objective alertness.In addition,light exposure with a higher CCT was more effective in improving alertness than light exposure with a lower CCT.Our results also suggest that both daytime and night-time light exposure can improve subjective alertness. 展开更多
关键词 correlated color temperature ILLUMINANCE LIGHT META-ANALYSIS objective alertness subjective alertness time of light intervention wavelength
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Voluntary running delays primary degeneration in rat retinas after partial optic nerve transection 被引量:2
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作者 Hong-Ying Li Xi Hong +1 位作者 Mi Huang Kwok-Fai So 《Neural Regeneration Research》 SCIE CAS CSCD 2019年第4期728-734,共7页
Running is believed to be beneficial for human health. Many studies have focused on the neuroprotective effects of voluntary running on animal models. There were both primary and secondary degeneration in neurodegener... Running is believed to be beneficial for human health. Many studies have focused on the neuroprotective effects of voluntary running on animal models. There were both primary and secondary degeneration in neurodegenerative diseases, including glaucoma. However, whether running can delay primary or secondary degeneration or both of them was not clear. Partial optic nerve transection model is a valuable glaucoma model for studying both primary and secondary degeneration because it can separate primary(mainly in the superior retina) from secondary(mainly in the inferior retina) degeneration. Therefore, we compared the survival of retinal ganglion cells between Sprague-Dawley rat runners and non-runners both in the superior and inferior retinas. Excitotoxicity, oxidative stress, and apoptosis are involved in the degeneration of retinal ganglion cells in glaucoma. So we also used western immunoblotting to compare the expression of some proteins involved in apoptosis(phospho-c-Jun N-terminal kinases, p-JNKs), oxidative stress(manganese superoxide dismutase, MnSOD) and excitotoxicity(glutamine synthetase) between runners and non-runners after partial optic nerve transection. Results showed that voluntary running delayed the death of retinal ganglion cells vulnerable to primary degeneration but not those to secondary degeneration. In addition, voluntary running decreased the expression of glutamine synthetase, but not the expression of p-JNKs and MnSOD in the superior retina after partial optic nerve transection. These results illustrated that primary degeneration of retinal ganglion cells might be mainly related with excitotoxicity rather than oxidative stress; and the voluntary running could down-regulate excitotoxicity to delay the primary degeneration of retinal ganglion cells after partial optic nerve transection. 展开更多
关键词 VOLUNTARY running OPTIC NERVE injury oxidative stress EXCITOTOXICITY JNKs PRIMARY DEGENERATION secondary DEGENERATION
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Effect of chondroitin sulfate proteoglycans on neuronal cell adhesion, spreading and neurite growth in culture 被引量:2
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作者 Jingyu Jin Sharada Tilve +3 位作者 Zhonghai Huang Libing Zhou Herbert M.Geller Panpan Yu 《Neural Regeneration Research》 SCIE CAS CSCD 2018年第2期289-297,共9页
As one major component of extracellular matrix (ECM) in the central nervous system, chondroitin sul- fate proteoglycans (CSPGs) have long been known as inhibitors enriched in the glial scar that prevent axon regen... As one major component of extracellular matrix (ECM) in the central nervous system, chondroitin sul- fate proteoglycans (CSPGs) have long been known as inhibitors enriched in the glial scar that prevent axon regeneration after injury. Although many studies have shown that CSPGs inhibited neurite out- growth in vitro using different types of neurons, the mechanism by which CSPGs inhibit axonal growth remains poorly understood. Using cerebellar granule neuron (CGN) culture, in this study, we evaluated the effects of different concentrations of both immobilized and soluble CSPGs on neuronal growth, in- cluding cell adhesion, spreading and neurite growth. Neurite length decreased while CSPGs concentration arised, meanwhile, a decrease in cell density accompanied by an increase in cell aggregates formation was observed. Soluble CSPGs also showed an inhibition on neurite outgrowth, but it required a higher concen- tration to induce cell aggregates formation than coated CSPGs. We also found that growth cone size was significantly reduced on CSPGs and neuronal cell spreading was restrained by CSPGs, attributing to an inhibition on lamellipodial extension. The effect of CSPGs on neuron adhesion was further evidenced by interference reflection microscopy (IRM) which directly demonstrated that both CGNs and cerebral cortical neurons were more loosely adherent to a CSPG substrate. These data demonstrate that CSPGs have an effect on cell adhesion and spreading in addition to neurite outgrowth. 展开更多
关键词 chondroitin sulfate proteoglycans cell adhesion neurite growth interference reflection microscopy neural regeneration
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Dual face of axonal inhibitory inputs in the modulation of neuronal excitability in cortical pyramidal neurons 被引量:1
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作者 Lei Jiang Hong Ni +4 位作者 Qi-yi Wang Li Huang Shi-di Zhao Jian-dong Yu Rong-jing Ge 《Neural Regeneration Research》 SCIE CAS CSCD 2017年第7期1079-1085,共7页
Limited by the tiny structure of axons,the effects of these axonal hyperpolarizing inputs on neuronal activity have not been directly elucidated.Here,we imitated these processes by simultaneously recording the activit... Limited by the tiny structure of axons,the effects of these axonal hyperpolarizing inputs on neuronal activity have not been directly elucidated.Here,we imitated these processes by simultaneously recording the activities of the somas and proximal axons of cortical pyramidal neurons.We found that spikes and subthreshold potentials propagate between somas and axons with high fidelity.Furthermore,inhibitory inputs on axons have opposite effects on neuronal activity according to their temporal integration with upstream signals.Concurrent with somatic depolarization,inhibitory inputs on axons decrease neuronal excitability and impede spike generation.In addition,following action potentials,inhibitory inputs on an axon increase neuronal spike capacity and improve spike precision.These results indicate that inhibitory inputs on proximal axons have dual regulatory functions in neuronal activity(suppression or facilitation)according to neuronal network patterns. 展开更多
关键词 nerve regeneration cortex pyramidal neuron SOMA AXON HYPERPOLARIZATION neuronal network feedforward inhibition temporalintegration feedback inhibition EXCITABILITY neural regeneration
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A brief review of recent advances in stem cell biology 被引量:1
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作者 Jinhui Chen Libing Zhou Su-yue Pan 《Neural Regeneration Research》 SCIE CAS CSCD 2014年第7期684-687,共4页
Stem cells have the remarkable potential to develop into many different cell types, essentially with- out limit to replenish other cells as long as the person or animal is still alive, offering immense hope of curing ... Stem cells have the remarkable potential to develop into many different cell types, essentially with- out limit to replenish other cells as long as the person or animal is still alive, offering immense hope of curing Alzheimer's disease, repairing damaged spinal cords, treating kidney, liver and lung diseases and making damaged hearts whole. Until recently, scientists primarily worked with two kinds of stem cells from animals and humans: embryonic stem cells and non-embryonic "somatic" or "adult" stem cells. Recent breakthrough make it possible to convert or "reprogram" specialized adult cells to assume a stem stem-like cells with different technologies. The review will briefly dis- cuss the recent progresses in this area. 展开更多
关键词 stem cell adult stem cell embryonic stem cell somatic cell nuclear transfer induced plu-ripotent stern cell stimulus-triggered acquisition of pluripotency
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Self-assembling peptide nanofibrous hydrogel as a promising strategy in nerve repair after traumatic injury in the nervous system 被引量:1
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作者 Na Zhang Liumin He Wutian Wu 《Neural Regeneration Research》 SCIE CAS CSCD 2016年第5期717-718,共2页
Following injury in central nervous system(CNS),there are pathological changes in the injured region,which include neuronal death,axonal damage and demyelination,inflammatory response and activation of glial cells.T... Following injury in central nervous system(CNS),there are pathological changes in the injured region,which include neuronal death,axonal damage and demyelination,inflammatory response and activation of glial cells.The proliferation of a large number of astrocytes results in the formation of glial scar. 展开更多
关键词 NSCs Self-assembling peptide nanofibrous hydrogel as a promising strategy in nerve repair after traumatic injury in the nervous system RGD
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Differential development and electrophysiological activity in cultured cortical neurons from the mouse and cynomolgus monkey
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作者 Xue-Yan Zhang Jun Li +7 位作者 Cai-Juan Li Ying-Qi Lin Chun-Hui Huang Xiao Zheng Xi-Chen Song Zhu-Chi Tu Xiao-Jiang Li Sen Yan 《Neural Regeneration Research》 SCIE CAS CSCD 2021年第12期2446-2452,共7页
In vitro cultures of primary cortical neurons are widely used to investigate neuronal function.However,it has yet to be fully investigated whether there are significant differences in development and function between ... In vitro cultures of primary cortical neurons are widely used to investigate neuronal function.However,it has yet to be fully investigated whether there are significant differences in development and function between cultured rodent and primate cortical neurons,and whether these differences influence the utilization of cultured cortical neurons to model pathological conditions.Using in vitro culture techniques combined with immunofluorescence and electrophysiological methods,our study found that the development and maturation of primary cerebral cortical neurons from cynomolgus monkeys were slower than those from mice.We used a microelectrode array technique to compare the electrophysiological differences in cortical neurons,and found that primary cortical neurons from the mouse brain began to show electrical activity earlier than those from the cynomolgus monkey.Although cultured monkey cortical neurons developed slowly in vitro,they exhibited typical pathological features-revealed by immunofluorescent staining-when infected with adeno-associated viral vectors expressing mutant huntingtin(HTT),the Huntington’s disease protein.A quantitative analysis of the cultured monkey cortical neurons also confirmed that mutant HTT significantly reduced the length of neurites.Therefore,compared with the primary cortical neurons of mice,cultured monkey cortical neurons have longer developmental and survival times and greater sustained physiological activity,such as electrophysiological activity.Our findings also suggest that primary cynomolgus monkey neurons cultured in vitro can simulate a cell model of human neurodegenerative disease,and may be useful for investigating time-dependent neuronal death as well as treatment via neuronal regeneration.All mouse experiments and protocols were approved by the Animal Care and Use Committee of Jinan University of China(IACUC Approval No.20200512-04)on May 12,2020.All monkey experiments were approved by the IACUC protocol(IACUC Approval No.LDACU 20190820-01)on August 23,2019 for animal management and use. 展开更多
关键词 Axion-MEA electrical activities human disease model Huntington’s disease HTT monkey neuron morphometric analysis mouse neuron neurodegenerative diseases primary culture
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