李书鹏
  • 李书鹏

  • 职务:课题组长、特聘研究员

  • 电话:+86-755-2603-2325

  • 邮箱:lisp@pkusz.edu.cn

  • 课题组主页:http://web.pkusz.edu.cn/lisp/

     
  • 教育背景及工作经历

    2016- 至今 威廉英语app深圳英国威廉希尔公司 特聘研究员

    2012- 2016 助理教授 加拿大 多伦多大学 精神病学系
    2010- 2016 研究科学家 (Research Scientist) 加拿大 多伦多大学 成瘾与精神卫生研究中心
    2005-2009 博士后 加拿大 多伦多大学 成瘾性与精神卫生研究中心

    2001年9月 —2005年2月 博士 神经生物学 自然科学学院 国立庆尚大学 晋州, 660-701, 韩国
    1998年9月— 2001年7月 硕士 病理生理学 同济医学院 华中科技大学 武汉, 430030, 中国
    1993年9月 — 1998年7月 学士 同济医科大学 武汉, 430030, 中国

  • 奖项及荣誉

           

    1999- 2000 华中科技大学研究生奖学金
    2002-2005 Rotary 基金会职工奖学金
    2007-2008 CAMH 博士后研究奖学金
    2008-2010 加拿大卫生部-TUSP研究奖学金
    2008-2010 加拿大心脏病与中风基金会研究奖学金
    2011 美洲华人生物学家协会“刘宗正教授“最佳论文奖
    2011 Juliusz, Dorota and Zofia (Zosia) 神经精神药理学纪念奖

  • 研究兴趣

           

    各种神经递质与受体系统间的协调作用是人脑发挥功能作用的基础。但受体和下游信号系统的正常协调机制,受体功能异常导致神经和精神性疾病的机制尚不清楚。既往的研究表明,递质与受体信号传导和整合发生在不同的水平。在分子水平,受体以蛋白复合体的形式介导了学习记忆、缺血性中风、成瘾、抑郁症,和精神分裂症等;在细胞水平,神经细胞不同部位的受体协同处理不同时称的刺激,整合下游信号的激活和神经细胞兴奋性,后者又进一步通过长时程或短时程的突触变化改变了神经细胞间的通讯联系。受体对神经功能核团的调制最终体现为神经通路的改变,而神经通路最终介导了脑高级认知功能,如注意、记忆、情绪等。我们初步的研究以及大量早期的报道支持这样一种假说,即发生在以上各水平的受体协调缺陷均可影响神经精神性疾病的发病,包括帕金森氏病和老年性痴呆。借助传统的分子药理学、电生理学、生物化学、成像、行为学方法,以及新近的化员工物学、基因学方法,我们的长期研究目标是发现、揭示发病相关的病理性受体和分子信号,为临床诊断、药物治疗提供新的目标分子。

  • 代表性成果

           

    1.  Zhang H, Li T, Li S, Liu F. (2016)  Cross-talk between α7 nAchR and NMDAR revealed by protein profiling. J Proteomics. 10;131:113-21.

    2.  Su P*, Li S*, Chen S, Lipina TV, Wang M, Lai TK, Lee FH, Zhang H, Zhai D, Ferguson SS, Nobrega JN, Wong AH, Roder JC, Fletcher PJ, Liu F. A Dopamine D2 Receptor-DISC1 Protein Complex may Contribute to Antipsychotic-Like Effects. Neuron. 2014. pii: S0896-6273(14)01007-1. (* co-contributor)

    3.  Li S, Wong AH, Liu F. (2014) Ligand-gated ion channel interacting proteins and their role in neuroprotection. Front Cell Neurosci. 8:125.

    4.  Li S, Nai Q, Lipina TV, Roder JC, Liu F. (2013) α7nAchR/NMDAR coupling affects NMDAR function and object recognition. Mol Brain. 6(1):58.

    5.  Zhai D, Li S, Wang M, Chin K, Liu F. (2013) Disruption of the GluR2/GAPDH complex protects against ischemia-induced neuronal damage. Neurobiology of Disease 54:392-403.

    6.  Li S, Li Z, Pei L, Le AD, Liu F. (2012) α7 nACh-NMDA receptor complex is involved in cue-induced reinstatement of nicotine seeking. Journal of Experimental Medicine. 209:2141-7.

    7.  Wang M, Li S, Zhang H, Pei L, Zou S, Lee FJ, Wang YT, Liu F.(2012) Direct interaction between GluR2 and GAPDH regulates AMPAR-mediated excitotoxicity. Mol Brain. 5(1):13.

    8.  Lin Pei*, Shupeng Li*, Min Wang*, Mustansir Diwan, Hymie Anisman, Paul J. Fletcher, José N. Nobrega and Fang Liu. (2010) Uncoupling Dopamine D1-D2 Receptor Complex Exerts antidepressant-like Effects. Nature Medicine. 16:1393-5.(* co-contributor).

    9.  Qiang Nai*, Shupeng Li*, Szu-Han Wang*, Frank J.S. Lee,Paul W. Frankland and Fang Liu.(2010) Uncoupling the D1-NMDA receptor complex impairs NMDA-dependent LTP and working memory. Biologcial Psychiatry. 67:246-254.(* co-contributor).

    10.  Naha N, Li SP, Yang BC, Park TJ, Kim MO. (2009) Time-dependent exposure of nicotine and smoke modulate ultrasubcellular organelle localization of dopamine D1 and D2 receptors in the rat caudate-putamen. Synapse. 63:847-54.

    11.  Muhammad Imran Naseer, Li Shupeng, Myeong Ok Kim. (2009) Maternal epileptic seizure induced by Pentylenetetrazol: Apoptotic neurodegeneration and decreased GABAB1 receptor expression in prenatal rat brain. Mol Brain. 2:20.

    12.  Zhang H, Li S, Wang M, Vukusic B, Pristupa ZB, Liu F. (2009) Regulation of dopamine transporter activity by carboxypeptidase E. Mol Brain. 2:10.

    13.  Jiang Y, Pei L, Li S, Wang M, Liu F.(2008)Extracellular dopamine induces the oxidative toxicity of SH-SY5Y cells. Synapse. 62:797-803.

    14.  Lee HY, Naha N, Li SP, Jo MJ, Naseer ML, Park MS, Park TJ, Chung BC, Kim MO. (2008)In vivo and in vitro ethanol exposure in prenatal rat brain: GABA(B) receptor modulation on dopamine D(1) receptor and protein kinase A. Synapse. 62:534-543.

    15.  Lee HY*, Li SP*, Park MS, Bahk YH, Chung BC, Kim MO. (2007) Ethanol's effect on intracellular signal pathways in prenatal rat cortical neurons is GABA(B1) dependent. Synapse. 61:622-628 (*co-contributor).

    16.  Park MS, Lee HY, Li SP, Koh PO, Bahk JY, Chung BC, Kim MO. (2007) Survival change of ventral mesencephalon-derived progenitor cells after grafting into unilateral intact adult rat striatum. J Vet Med Sci.69:25-30.

    17.  Li SP, Lee HY, Park MS, Bahk JY, Chung BC, Kim MO. (2006) Prenatal GABA(B1) and GABA(B2) receptors: Cellular and subcellular organelle localization in early fetal rat cortical neurons. Synapse. 60(8):557-66.

    18.  Li SP, Park MS, Jin GZ, Kim JH, Lee HL, Lee YL, Kim JH, Bahk JY, Park TJ, Koh PO, Chung BC, Kim MO (2005) Ethanol modulates GABA(B) receptor expression in cortex and hippocampus of the adult rat brain. Brain Res. 1061:27-35.

    19.  Li SP, Kim JH, Park MS, Bahk JY, Chung BC, Kim MO. (2005) Ethanol modulates the expression of GABA(B) receptor mRNAs in the prenatal rat brain in an age and area dependent manner. Neuroscie 134:857-66.

    20.  Li SP, Park MS, Kim JH, Kim MO (2004) Chronic nicotine and smoke treatment modulate dopaminergic activities in ventral tegmental area and nucleus accumbens and the gamma-aminobutyric acid type B receptor expression of the rat prefrontal cortex. J Neurosci Res. 78:868-879.

    21.  Li SP, Deng YQ, Wang XC, Wang YP, Wang JZ (2004) Melatonin protects SH-SY5Y neuroblastoma cells from calyculin A-induced neurofilament impairment and neurotoxicity. J Pineal Res. 36:186-191.

    22.  Li S, Park MS, Kim MO (2004) Prenatal alteration and distribution of the GABA(B1) and GABA(B2) receptor subunit mRNAs during rat central nervous system development. Brain Res Dev Brain Res. 150:141-150.

    23.  Li S, Kim KY, Kim JH, Kim JH, Park MS, Bahk JY, Kim MO (2004) Chronic nicotine and smoking treatment increases dopamine transporter mRNA expression in the rat midbrain. Neurosci Lett 363:29-32.

    24.  Li SP, Park MS, Yoon H, Rhee KH, Bahk JY, Lee JH, Park JS, Kim MO (2003) Differential distribution of GABA(B1) and GABA(B2) receptor mRNAs in the rat brain. Mol Cells. 16:40-47.

    25.  Kim MO, Li S, Park MS, Hornung JP (2003) Early fetal expression of GABA(B1) and GABA(B2) receptor mRNAs on the development of the rat central nervous system. Brain Res Dev Brain Res. 143:47-55.

    26.  Bahk JY*, Li S*, Park MS, Kim MO (2002) Dopamine D1 and D2 receptor mRNA up-regulation in the caudate-putamen and nucleus accumbens of rat brains by smoking. Prog Neuropsychopharmacol Biol Psychiatry. 26:1095-1104. (*co-first author).

    27.  Li SP, Park MS, Bahk JY, Kim MO (2002) Chronic nicotine and smoking exposure decreases GABA(B1) receptor expression in the rat hippocampus. Neurosci Lett. 334:135-139.

职务 课题组长、特聘研究员 电话 +86-755-2603-2325
邮箱 lisp@pkusz.edu.cn