记忆是人类认识世界、获取知识、掌握技能的基础。记忆原理解析是实现脑科学从基础研究到转化应用的关键,相关研究连续入选Science公布的125个最具挑战性的科学问题。科学家们前赴后继,不断追寻“记忆如何存储和提取”、“能否数字化存储、操控和移植人类记忆”这些基础和应用问题的答案。从医学上讲,记忆的动态调控是理解慢性疾病症状演变和机能复健的重要突破口。课题组围绕“记忆原理及应用研究”总方向,依托研究院在脑科学交叉、融合和转化方面的优势,推进现代分子生物学、先进显微镜光学、细胞生物学等相关技术在记忆原理解析中的创新应用,选取情绪记忆、摄食记忆、运动记忆等包含不同内容的记忆模型作为攻关对象,从多维度解析记忆痕迹的基本特征及其神经生物学基础,以重构与合成为目标刻画情绪情感、营养代谢、运动行为等正常生命活动及其障碍发展的生理本质;同时,开拓记忆原理在脑-体交互调节中的应用,以记忆的视角审视慢性神经精神疾病的症状演变和康复;探索外周或中枢规律性刺激使大脑活性发生“记忆”样长程改变的新模式及其可塑性机理,解析脑内具有明确促康复作用的特征性细胞集群的活性演化过程及其分子驱动力,发展基于记忆原理的疾病干预新策略,推进临床转化应用;打造以记忆研究为特色,引领国际脑科学和生物医药领域发展的研究队伍。具体包括:
1、解析记忆在分子、神经环路和网络等不同尺度的痕迹基础;
2、以记忆的视角研究慢性神经精神疾病的症状演变及其康复;
3、发展记忆研究的新方法和基于记忆原理的疾病干预新策略。
邮箱:leiyanneung@163.com
研究方向:记忆原理的医学应用研究
邮箱:liuyingxiao12624@163.com
研究方向:记忆的神经可塑性机制
邮箱:shuai_ye@fudan.edu.cn
研究方向:脑-体交互的记忆调节机制
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研究方向:恐惧记忆遗忘的神经环路基础
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研究方向:脑深部刺激治疗效应的神经环路基础
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研究方向:记忆痕迹突触稳定性的机制研究
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研究方向:记忆痕迹环路中突触组织者的发现
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研究方向:记忆在不同尺度的痕迹基础
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研究方向:帕金森病异动症的神经元集群可塑性机制
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研究方向:帕金森病运动并发症的神经环路机制
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研究方向:恐惧消退后自发恢复的神经机制
邮箱:23211520047@m.fudan.edu.cn
研究方向:记忆遗忘的神经机制
邮箱:lanhun_206@163.com
研究方向:记忆原理的医学应用研究
邮箱:2826916517@qq.com
研究方向:记忆原理的医学应用研究
Zeng K#, Jiao ZH#, Jiang Q, He R, Zhang Y, Li WG*, Xu TL*, Chen Y*. Genetically encoded photocatalysis enables spatially restricted optochemical modulation of neurons in live mice. ACS Central Science 2023; doi: 10.1021/acscentsci.3c01351.
Liu Y#, Ye S#, Li XN, Li WG*. Memory trace for fear extinction: fragile yet reinforceable. Neuroscience Bulletin 2023; doi: 10.1007/s12264-023-01129-3.
Xu W#, Wang J#, Li XN, Liang J, Song L, Wu Y, Liu Z*, Sun B*, Li WG*. Neuronal and synaptic adaptations underlying the benefits of deep brain stimulation for Parkinson's disease. Translational Neurodegeneration 2023; 12(1): 55.
Du X#, Yan Y#, Yu J#, Zhu T, Huang CC, Zhang L, Shan X, Li R, Dai Y, Lv H, Zhang XY, Feng J, Li WG*, Luo Q*, Li F*. SH2B1 tunes hippocampal ERK signaling to influence fluid intelligence in humans and mice. Research 2023; 6: 0269.
Wu YJ#, Yi X#, Gu X, Wang Q, Jiang Q, Li Y, Ding J*, Li WG*, Xu TL*. Synaptic scaling of corticostriatal circuits underlies hyperactivity in GABA transporter-1 deficient mice. iScience 2023; 26(4): 106322.
Sun PY#, Li HG#, Xu QY#, Zhang Z, Chen JW, Shen YH, Qi X, Lu JF, Tan YD, Wang XX, Li CX, Yang MY, Ma YZ, Lu Y, Xu TL, Shen JW, Li WG*, Guo YF*, Yao ZR*. Lidocaine alleviates inflammation and pruritus in atopic dermatitis by blocking different population of sensory neurons. British Journal of Pharmacology 2023, 180(10): 1339-1361.
Ma B, Shan X, Yu J, Zhu T, Li R, Lv H, Cheng H, Zhang T, Wang L, Wei F, Meng B, Yuan X, Mei B*, Zhang XY*, Li WG*, Li F*. Social deficits via dysregulated Rac1-dependent excitability control of prefrontal cortical neurons and increased GABA/glutamate ratios. Cell Reports 2022; 41(9): 111722.
Liu Y#, Xu M#, Li WG*. Segregating memories: targeting microenvironment of neuronal ensembles. Signal Transduction and Targeted Therapy 2022; 7: 363.
Wang Q#, Zhu JJ#, Wang L, Kan YP, Liu YM, Wu YJ, Gu X, Yi X, Lin ZJ, Wang Q, Lu JF, Jiang Q, Li Y, Liu MG, Xu NJ, Zhu MX, Wang LY, Zhang S*, Li WG*, Xu TL*. Insular cortical circuits as an executive gateway to decipher threat or extinction memory via distinct subcortical pathways. Nature Communications 2022; 13(1): 5540.
Gu X#, Wu YJ#, Zhang Z, Zhu JJ, Wu XR, Wang Q, Yi X, Lin ZJ, Jiao ZH, Xu M, Jiang Q, Li Y, Xu NJ, Zhu MX, Wang LY, Jiang F*, Xu TL*, Li WG*. Dynamic tripartite construct of interregional engram circuits underlies forgetting of extinction memory. Molecular Psychiatry 2022; 27(10): 4077-91.
Li WG#,*, Wu YJ#, Gu X#, Fan HR, Wang Q, Zhu JJ, Yi X, Wang Q, Jiang Q, Li Y, Yuan TF, Xu H, Lu J, Xu NJ, Zhu MX, Xu TL*. Input associativity underlies fear memory renewal. National Science Review 2021; 8(9): nwab004.
Yan Y#, Zhang L#, Zhu T#, Deng S, Ma B, Lv H, Shan X, Cheng H, Jiang K, Zhang T, Meng B, Mei B*, Li WG*, Li F*. Reconsolidation of a post-ingestive nutrient memory requires mTOR in the central amygdala. Molecular Psychiatry 2021; 26(7): 2820-36.
Wang Q#, Wang Q#, Song XL, Jiang Q, Wu YJ, Li Y, Yuan TF, Zhang S, Xu NJ, Zhu MX, Li WG*, Xu TL*. Fear extinction requires ASIC1a-dependent regulation of hippocampal-prefrontal correlates. Science Advances 2018; 4(10): eaau3075.
Yu Z#, Wu YJ#, Wang YZ, Liu DS, Song XL, Jiang Q, Li Y, Zhang S, Xu NJ, Zhu MX, Li WG*, Xu TL*. The acid-sensing ion channel ASIC1a mediates striatal synapse remodeling and procedural motor learning. Science Signaling 2018; 11(542): eaar4481.
Fan HR#, Du WF#, Zhu T#, Wu YJ#, Liu YM, Wang Q, Wang Q, Gu X, Shan X, Deng S, Zhu T, Xu TL, Ge WH, Li WG*, Li F*. Quercetin reduces cortical GABAergic transmission and alleviates MK-801-induced hyperactivity. EBioMedicine 2018, 34: 201-13.
Li WG#, Liu MG#, Deng S#, Liu YM, Shang L, Ding J, Hsu TT, Jiang Q, Li Y, Li F*, Zhu MX*, Xu TL*. ASIC1a regulates insular long-term depression and is required for the extinction of conditioned taste aversion. Nature Communications 2016, 7: 13770.
Peng Z#, Li WG#, Huang C, Jiang YM, Wang X, Zhu MX, Cheng X*, Xu TL*. ASIC3 mediates itch sensation in response to coincident stimulation by acid and nonproton ligand. Cell Reports 2015; 13: 387-98.
Yu Y#, Chen Z#, Li WG#, Cao H, Feng EG, Yu F, Liu H, Jiang H*, Xu TL*. A nonproton ligand sensor in the acid-sensing ion channel. Neuron 2010; 68(1): 61-72.
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