1.Mutation analysis of presenilin-1 gene in Alzheimer' s disease patients and the effects of its mutation on expression of presenilin-1 and amyloid precursor protein
Xiaoxiong LU ; Qing LU ; Jiali PU ; Baorong ZHANG
Chinese Journal of Neurology 2013;(1):5-9
Objective To analyze the resenilin-1 (PS-1) gene mutations in Alzheimer' s disease (AD) patients and investigate the influence of the initiation codon mutation on the mRNA expression of PS-1 and amyloid precursor protein (APP) genes and the expression of PS-1 proteins.Methods (1) All 111 AD patients were enrolled by the Department of Neurology,Second Affiliated Hospital,College of Medicine,Zhejiang University from July 2004 to June 2010.Mutations in the 13 exons and flanking regions of PS-1 gene were examined by direct sequencing.(2) cDNAs encoding full-length wild-type and mutant (c.1A >G) PS-1 were subcloned into enhanced green fluorescent protein.Levels of the mRNA expression of PS-1 and APP genes and PS-1 proteins expression in the transfected cells were detected by quantitative real-time PCR and Western blot,respectively.Results A new heterozygous initiation codon mutation changing from ATG to GTG in one individual was identified.Compared to the control groups,the mRNA expression of the mutant PS-1 gene in HEK293 and N2a was significantly lower than the normal PS-1 gene(116.8 ± 3.9 vs 49.5 ±3.3,t =13.27,P <0.01 ;69.0 ± 1.9 vs 29.5 ± 1.3,t =17.20,P <0.01) and the APP gene was not obviously altered.The proteins were detected by Western blot analysis in HEK293 cells but not in N2a cells.Conclusions Since we only identified one novel heterozygous initiation codon mutation (from ATG to GTG),mutations in PS-1 are likely to be rare in AD patients.Initiation codon mutation would reduce the expression of PS-1 proteins.Inactivation of some of the PS-1 proteins could be insufficient to lead to AD and could be more likelv to act as a risk factor.
2.Structure, Distribution, and Genetic Profile of α-Synuclein and Their Potential Clinical Application in Parkinson's Disease.
Xiaoli SI ; Jiali PU ; Baorong ZHANG
Journal of Movement Disorders 2017;10(2):69-79
Parkinson's disease (PD), the second most common neurodegenerative disorder after Alzheimer's disease, is characterized by the loss of nigral dopaminergic neurons. PD leads to a series of clinical symptoms, including motor and non-motor disturbances. α-synuclein, the major component of Lewy bodies, is a hallmark lesion in PD. In this review, we concentrate on presenting the latest research on the structure, distribution, and function of α-synuclein, and its interactions with PD. We also summarize the clinic applications of α-synuclein, which suggest its use as a biomarker, and the latest progress in α-synuclein therapy.
alpha-Synuclein
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Alzheimer Disease
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Dopaminergic Neurons
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Lewy Bodies
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Neurodegenerative Diseases
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Parkinson Disease*
3.The glymphatic system: a new exploration of the clearance of alpha-synuclein in Parkinson′s disease
Chinese Journal of Neurology 2021;54(8):758-761
Parkinson′s disease (PD) is a common neurodegenerative disease. Impaired balance between deposition and clearance of α-synuclein lies at the core of PD pathogenesis. The glymphatic system is a highly organized fluid transport system that is capable of removing brain waste. Emerging evidence revealed that glymphatic dysfunction plays a critical role in the pathogenesis of neurodegenerative diseases, yet study on its implication in PD is at its early stage. An in-depth study of the relationship between the function of the glymphatic system and α-synuclein clearance in PD may shed light on the pathogenesis and therapeutics of the disease.
4.Recent advance of aquaporin-4 in neurodegenerative diseases
Zhiyun WANG ; Xiaoli SI ; Jiali PU ; Baorong ZHANG
Chinese Journal of Neurology 2021;54(8):838-843
Neurodegenerative disease is a type of disease characterized by the progressive loss of neurons, the cause of which is not clear. Aquaporin-4 (AQP4) is a member of the aquaporin family, which plays an important role in maintaining water homeostasis in the brain. In recent years, researchers found that AQP4 has the functions of draining brain metabolic wastes and participating in material exchange through the glmphatic system. This review aims to summarize the current researches of AQP4 in the pathogenesis and progression of neurodegenerative diseases such as Parkinson′s disease and Alzheimer′s disease, and to propose future research directions.
5.Applications of ZFN, TALEN and CRISPR/Cas9 techniques in disease modeling and gene therapy.
Guohua ZHAO ; Jiali PU ; Beisha TANG
Chinese Journal of Medical Genetics 2016;33(6):857-862
Precise and effective modification of complex genomes at the predicted loci has long been an important goal for scientists. However, conventional techniques for manipulating genomes in diverse organisms and cells have lagged behind the rapid advance in genomic studies. Such genome engineering tools have featured low efficiency and off-targeting. The newly developed custom-designed nucleases, zinc finger nucleases (ZFN), transcription activator-like effector nucleases (TALEN) and clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated (Cas) system have conferred genome modification with ease of customization, flexibility and high efficiency, which may impact biological research and studies on pathogenesis of human diseases. These novel techniques can edit the genomic DNA with high efficiency and specificity in a rich variety of organisms and cell types including the induced pluripotent stem cells (iPSCs), which has conferred them with the potential for revealing the pathogenesis and treatment of many human diseases. This review has briefly introduced the mechanisms of ZFN, TALENs and CRISPR/Cas9 system, and compared the efficiency and specificity of such approaches. In addition, the application of ZFN, TALENs and CRISPR/Cas9 mediated genome modification for human disease modeling and gene therapy was also discussed.
Base Sequence
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CRISPR-Cas Systems
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genetics
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Genetic Therapy
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methods
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Humans
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Transcription Activator-Like Effector Nucleases
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genetics
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Zinc Fingers
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genetics
6. cFos-ANAB: A cFos-based Web Tool for Exploring Activated Neurons and Associated Behaviors
Fan WANG ; Shuang QIU ; Jianhong LUO ; Shumin DUAN ; Zhihua GAO ; Wenjie SUN ; Lei CHANG ; Kefang SUN ; Leying HOU ; Linna QIAN ; Chaoyin JIN ; Jiandong CHEN ; Xiaojun HU ; Jiali PU ; Baorong ZHANG ; Xiaojun HU ; Panmeng YE
Neuroscience Bulletin 2021;37(10):1441-1453
cFos is one of the most widely-studied genes in the field of neuroscience. Currently, there is no systematic database focusing on cFos in neuroscience. We developed a curated database—cFos-ANAB—a cFos-based web tool for exploring activated neurons and associated behaviors in rats and mice, comprising 398 brain nuclei and sub-nuclei, and five associated behaviors: pain, fear, feeding, aggression, and sexual behavior. Direct relationships among behaviors and nuclei (even cell types) under specific stimulating conditions were constructed based on cFos expression profiles extracted from original publications. Moreover, overlapping nuclei and sub-nuclei with potentially complex functions among different associated behaviors were emphasized, leading to results serving as important clues to the development of valid hypotheses for exploring as yet unknown circuits. Using the analysis function of cFos-ANAB, multi-layered pictures of networks and their relationships can quickly be explored depending on users’ purposes. These features provide a useful tool and good reference for early exploration in neuroscience. The cFos-ANAB database is available at www.cfos-db.net.
7.cFos-ANAB: A cFos-based Web Tool for Exploring Activated Neurons and Associated Behaviors.
Fan WANG ; Wenjie SUN ; Lei CHANG ; Kefang SUN ; Leying HOU ; Linna QIAN ; Chaoyin JIN ; Jiandong CHEN ; Jiali PU ; Panmeng YE ; Shuang QIU ; Jianhong LUO ; Shumin DUAN ; Baorong ZHANG ; Zhihua GAO ; Xiaojun HU
Neuroscience Bulletin 2021;37(10):1441-1453
cFos is one of the most widely-studied genes in the field of neuroscience. Currently, there is no systematic database focusing on cFos in neuroscience. We developed a curated database-cFos-ANAB-a cFos-based web tool for exploring activated neurons and associated behaviors in rats and mice, comprising 398 brain nuclei and sub-nuclei, and five associated behaviors: pain, fear, feeding, aggression, and sexual behavior. Direct relationships among behaviors and nuclei (even cell types) under specific stimulating conditions were constructed based on cFos expression profiles extracted from original publications. Moreover, overlapping nuclei and sub-nuclei with potentially complex functions among different associated behaviors were emphasized, leading to results serving as important clues to the development of valid hypotheses for exploring as yet unknown circuits. Using the analysis function of cFos-ANAB, multi-layered pictures of networks and their relationships can quickly be explored depending on users' purposes. These features provide a useful tool and good reference for early exploration in neuroscience. The cFos-ANAB database is available at www.cfos-db.net .
Animals
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Fear
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Mice
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Neurons
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Proto-Oncogene Proteins c-fos
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Rats