CNS 2024 | 专题研讨会：感官系统，动机、情感和药物成瘾

文摘 2024-09-05 00:05 北京

中国神经科学学会第十七届全国学术会议将于2024年9月26日－29日在苏州市召开，作为我国神经科学领域规模最大的学术会议，其学术质量在国内屈指可数。2024年，中国神经科学学会积极组织召集专题研讨会，通过多轮投票筛选确定51个专题研讨会。

学会将陆续推出2024年专题研讨会的详细介绍，敬请关注。

以下专题排名不分先后。

参会注册：

The 17th Annual Meeting of Chinese Neuroscience Society (cns.org.cn)

Sensory Systems

Biology, Biomimetics, and Bionic Vision: Mechanism and Translation

Organizer: Jiayi Zhang, Wei Li

Introduction: Early discoveries in biological vision have inspired computer vision, including hardware such as event cameras and algorithms such as Convolutional Neural Networks (CNNs). The development of biomimetics and bionic vision has in turn contributed to the understanding of biological vision and the restoration of visual functions. In this session, we focus on the ‘hardware’ aspects of both biological and bionic vision, aiming to showcase cutting-edge research in the areas of cornea, lens, photoreceptors and retinal ganglion cells. We also plan to present recent progress in translational applications for treating blind patients.

报告人

Zhiyong Fan

Hong Kong University of Science and Technology

Prof. Zhiyong Fan is a Chair Professor at the Department of Electronic and Computer Engineering and Department of Chemical and Biological Engineering. He received B.S. and M. S. degrees from Fudan University, PhD degree from University of California, Irvine in 2006 then worked as a postdoctoral fellow at UC Berkeley and Lawrence Berkeley National Laboratory in 2007~2010. He joined Hong Kong University of Science and Technology (HKUST) in 2010. Currently, he is the founding Director of Center on Smart Sensors and Environmental Technologies, Co-director of the State Key Laboratory of Advanced Display and Optoelectronics Technologies at HKUST. He is a Fellow of the Royal Society of Chemistry, Fellow of Optica, Senior Member of IEEE, and Founding Member of the Young Academy of Sciences of Hong Kong. He has won a number of awards, including 2022 Tencent Xplorer Prize, 2022 HKBOC Science and Technology Innovation Prize, Shandong Natural Science Second Prize, 2022 and 2020 Top 10 Research Progress on Semiconductors in China, HKUST SENG Young Investigator Award, Outstanding Research Award, etc. His research interest is focused on functional nanomaterials and structures for electronic, optoelectronic and bionic electronic devices. Till date, he has published over 250 peer reviewed papers in Nature, Nature Photonics, Nature Electronics, Nature Materials, Science Robotics, etc., with citations >30,000, H index 91. He also has over 33 Chinese/US patents and one national high-tech company.

Kai Liu

Hong Kong University of Science and Technology

Liu Kai received his Bachelor degree from School of Life Sciences at Peking University in 1998, and received his Ph.D. from Rutgers University at New Brunswick in 2006. Then he did his postdoc research at Children’s Hospital Boston/Harvard Medical School. He joined Division of Life Science at HKUST as Assistant Professor in 2011, and is currently Cheng Associate Professor of Science. His research interest focuses on the intrinsic mechanisms regulating axonal regeneration and functional repair after central nervous system injuries.

Wei Li

National Eye Institute,NIH

Dr. Wei Li received his medical degree in 1997 from Zhejiang University in China and his Ph.D. in Visual Neuroscience in 2003 from the University of Texas at Houston. He completed a postdoctoral fellowship at Northwestern University. Dr. Li is currently a Senior Investigator and Chief of the Retinal Neurophysiology Section at the National Eye Institute (NEI), National Institutes of Health (NIH). His research bridges the fields of neuroscience, physiology, and ophthalmology, with a focus on the retina as a model for broader central nervous system functioning and adaptation. His primary objectives include understanding the functionality of the retina under normal physiological conditions, its development, its deterioration in pathological conditions, and the potential for repair. Dr. Li's work is centered around two main themes: 1) Investigation of Retinal Structure, Synapses, Circuits, and Development. 2) Study of Hibernation and Metabolic Adaptations in the Retina and Beyond.

Xiao Zhang

Beijing Tongren Hospital,CMU

Yuqian Ma

University of Science and Technology, China

马玉乾，博士，中国科学技术大学副研究员。2018年博士毕业于中国科学技术大学。2018-至今，于中国科学技术大学从事博士后、副研究员工作。主要聚焦视觉神经科学研究方向，取得了多项重要成果：1）突破物理感知极限，首次实现哺乳动物裸眼红外光感知和红外图像视觉；2）发现了ipRGCs介导非成像视觉的长时程光监控功能的分子机制；3）阐述哺乳动物视觉系统光-暗适应的细胞分子机制。第一作者或共同通讯作者论文发表在Cell、Protein & Cell、Adv. Fun. Mater.杂志上。曾获中国生命科学十大进展、安徽省自然科学一等奖、Cell杂志年度最佳论文、吴瑞奖学金、博新计划、中科院优博论文等奖项。

Jae-Woong Jeong

Korea Advanced Institute of Science and Technology (KAIST)

Dr. Jae-Woong Jeong is an Associate Professor in Electrical Engineering at Korea Advanced Institute of Science and Technology (KAIST). He received his BS degree from the University of Texas at Austin in 2005, and MS and PhD degrees from Stanford University in 2008 and 2012, respectively, all in electrical engineering. He worked as a postdoctoral research associate in Frederick Seitz Materials Research Laboratory at the University of Illinois at Urbana-Champaign from 2012 to 2014, and as an Assistant Professor in Electrical, Computer & Energy Engineering at University of Colorado Boulder from 2015 to 2017. Dr. Jeong’s research focus is in the future generation bio-integrated electronics and systems for advanced healthcare and brain research, based on unusual materials, flexible/stretchable electronics and N/MEMS technologies. He is the recipient of Biomedical Engineering Society Career Development Award, Samsung Global Research Outreach Award, and University of Colorado Outstanding Research Award.

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The Mechanism of Chronic Pain: From Sensation to Emotion and Cognition

Organizer: Yong-Jing Gao, Ceng Luo

Introduction: Chronic pain caused by nerve injury, tissue damage, or visceral inflammation is one of the most challenging clinical problems. Patients with chronic pain not only suffer physical pain but also experience anxiety, depression, and cognitive disorders. However, the molecular mechanism and neural circuits associated with chronic pain and its comorbidity have not been clarified yet. In this symposium, the speakers will present their novel findings about the molecular targets and neural circuits mediating pain sensation, negative emotion, and attention and memory deficits. These findings may provide new ideas for treating chronic pain and related emotional and cognitive disorders in clinical work.

报告人

Yunqing Li

Airforce Medical University

Professor Yun-Qing Li is the President of Chinese Society for Anatomical Sciences (CSAS), the Professor and Director of KK Leung Brain Research Centre of the Airforce Medical University of China. He received his MD in clinical medicine from his university, China, in 1984, and PhD in neuroanatomy from his university, China, in 1989, and Kyoto University, Japan, in 1990, respectively. His research interests mainly focus on nociceptive sensory information transmission and modulation and its comorbid with negative emotion. Recent years, he has published more than 20 peer-reviewed articles in SCI journals, such as Neuron, Nature Communications, JCI, Pain and so on.

张珞颖

华中科技大学

主要研究方向为睡眠与生物钟，包括：（1）研究睡眠和生物钟对情绪的影响及调节机理，从而探索睡眠和生物钟的功能；（2）从系统生物学的角度研究睡眠与生物钟的调控机理和功能。近5年以通讯作者身份在Nature Communications、EMBO J、eLife等期刊发表论文11篇。目前任国际生物节律研究会教育委员会委员、中国细胞生物学学会理事及生物节律分会会长、中国睡眠研究会生理与药理专委会常务委员、中国生理学学会青年工作委员会委员，以及湖北省细胞生物学学会副理事长。

张凡

河北医科大学

河北医科大学教授，基础医学研究所副所长；河北省生物医学技术重点实验室主任。主要研究方向为躯体感觉及其调控本能行为机制研究。第一作者及通讯作者(含共同通讯)在Nature Neuroscience, Neuron等杂志发表论文19篇。主担任河北省数理医学青年委员会副主任委员；河北省神经科学学会理事；河北省药理学会理事；北京神经科学学会青年委员会委员；中国神经科学学会感觉与运动分会委员；中国生理学会干细胞专业委员会委员；中国生理学会疼痛转化专业委员会；《Stress and brain》杂志青年编委。

Cheng Cen

Neuroscience Research Institate, PeKing University

CEN Cheng is now an assistant professor in Neuroscience Research Institute of Peking University. She is dedicated to uncovering the neural mechanisms behind sensory coding and the interplay of pain with emotional and cognitive behaviors. She has published the series of work in journals including Science Signaling, Nature Communications, and the Journal of Neuroscience. As the principal investigator, she has led projects supported by the National Natural Science Foundation of China (NSFC) Youth Program, General Program, Beijing Natural Science Foundation, Peking University Clinical Medicine + X Youth Special Project and first-class funding for Chinese postdoctoral researchers.

Yiheng Tu

Institute of Psychology, Chinese Academy of Science

Dr. Tu Yiheng obtained his PhD from the University of Hong Kong in 2016. Following that, he completed his postdoctoral training and became a faculty member at Massachusetts General Hospital and Harvard Medical School. Currently he is a Professor at the Institute of Psychology, Chinese Academy of Sciences. His laboratory investigates the neural representation and modulation of pain using brain imaging, computational modeling, and neural engineering techniques. His research findings have been published in journals including Nature Human Behaviour (2023), Nature Communications (2020), PNAS (2023, 2021, 2019), Molecular Psychiatry (2021), and Neurology (2020, 2019). Dr. Tu is a recipient of the National Excellent Young Scientist Award from National Natural Science Foundation, the Hundred-talent program from the Chinese Academy of Sciences, and the sole nominee of 2024 International Union of Psychological Science Young Investigator Award from China. He has been supported by funding sources including the China’s Brain Project and the National Natural Science Foundation.

Feng Wang

Faculty of Dentistry, CERVO Brain Research Center, Laval University, Quebec City, Canada

Feng obtained his PhD at Institute of Neuroscience in Shanghai, under the supervision of Dr. Xu Zhang. Then he did his post-doctoral training in Dr. Yves De Koninck’s lab at Mental Health Institute in Quebec City, Canada. His work has focused on elucidating the physiological sensitivity of sensory afferents and uncovering the cellular and molecular mechanisms of normal and pathological pain. Now he is an Adjunct Professor at Faculty of Dentistry in Laval University. His lab mainly uses cutting-edge optical and behavioral approaches to study how a population of sensory neurons, including primary afferents and spinal cord neurons, encode different natural stimuli and how the coding scheme is altered in various pathological conditions, including chronic pain. His recent publications include Adv. Exp. Med. Biol., Cell reports, and Front Cell Neurosci.

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Motivation, Emotion and Drug Addiction

Neural Circuits of Emotion and Social Behaviors

Organizer: Shengxi WU, Hailan Hu

Introduction: Understanding how the brain controls emotions and social interactions is essential for both animal and human communities. Emotions and social behaviors are deeply intertwined, playing a critical role in the survival and well-being of animals and humans alike. The neural circuits that govern these processes are complex and their dysfunction can lead to significant social and emotional challenges. These challenges often manifest as difficulties in communication, forming relationships, and adapting to social norms, which can have profound impacts on individual lives and society at large. This symposium will invite well-known experts and young talents in the field to discuss the research progress of the neural circuit mechanism of emotion and social behavior.

报告人

Hongwei Dong

University of California Los Angeles

Hong-Wei Dong is a Professor of Neurobiology at UCLA. His research focuses on whole-brain wiring diagrams, cataloging neuron types, multi-modal brain atlases, and computational and visualization tools. Previously, Dr. Dong constructed the original Allen Reference Atlas (Dong, Wiley, 2007), which serves as the backbone of the Allen Brain Atlas project informatics pipeline. Dr. Dong founded The Mouse Connectome Project (MCP), a pioneering large-scale brain mapping project aiming to construct a three-dimensional, Google Earth-like, digital Connectome atlas of the C57BL/6J mouse brain. Dr. Dong is one leader of the BICCN (Brain Initiative Cell Census Network) Anatomy & Morphology working group, which aims to develop technologies for accelerating whole-brain wiring diagram data and corresponding informatics/computational tools. Recently, Dr. Dong has also expanded his work to map connectopathies in mouse models of Alzheimer’s disease.

马爽爽

浙江大学医学院

马爽爽，现为浙江大学胡海岚教授实验室博士后。自2016年起，师从胡海岚教授从事抑郁症分子机制研究。博士期间，主要参与的研究工作为：氯胺酮长效抗抑郁机制的研究、氯胺酮作用的脑区特异性机制研究。部分研究工作以共同第一作者发表于Nature。

Hong Qing

Minzu University of China

Qing team demonstrates that mice help conspecifics to avoid harm, a behavior that relies on the neural activities of the anterior cingulate cortex (ACC). Optogenetic modulation of mediodorsal thalamus-projecting ACC neurons at specific time points abolishes the behavior.

Ying Li

The Chinese Institute of Brain Research, Beijing

Dr. Ying Li received her Ph.D. degree from the Institute of Neuroscience, Chinese Academy of Sciences in 2013, mentored by Dr. Jiulin Du, studied the physiological function of microglia in zebrafish. She continued her postdoc training with at Harvard University with Dr. Catherine Dulac, studied with the neuronal representation of social cues in the medial amygdala neurons of behaving mice. She started her own lab at the Chinese Institute of Brain Research, Beijing in 2019. The major interest of her laboratory is to understand the neural mechanisms involved in the generation of adaptive social behaviors in rodents and non-human primates. Dr. Ying Li was awarded with Qiushi Outstanding Young Investigator Award in 2020, HFSP Career Development Award in 2019, Chinese Academy of Sciences Presidential Prize and Ray Wu Prize in 2013.

Baolin Guo

Fourth Military Medical University

Baolin Guo received his M.D. and Ph.D. degrees from the Air Force Medical University in 2021 under the supervision of Professor Shengxi Wu. During his Ph.D., he visited the McGovern Institute for Brain Research at MIT and the Stanley Center for Psychiatric Research at Broad Institute. In 2023, he established his own research group as a Principal Investigator at the Air Force Medical University. His lab utilizes genetically engineered mouse models and state-of-the-art techniques, including two-photon imaging and high-throughput in vivo electrophysiology, to study the genetic and neural mechanisms underlying psychiatric disorders such as autism spectrum disorder. His research findings have been published in Nature Neuroscience, Neuron, Sci Adv etc. He is also the winner of Ray Wu Prize in 2021.

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Neurochemical Symphony: Dopamine, Adenosine, and Neuropeptides in Movement, Motivation and Emotion

Organizer: JIANGFAN CHEN, Haining Zhong

报告人

Dayu Lin

New York University

Dayu Lin is a neuroscientist and Professor of Psychiatry, Neuroscience and Physiology at the New York University Grossman School of Medicine in New York City. Lin discovered the neural circuits in the hypothalamus that give rise to aggression in mice. Her lab at NYU now probes the neural circuits underlying innate social behaviors, with a focus on aggressive and defensive behaviors. 1. Lischinsky et al. (2023), Transcriptionally defined amygdala subpopulations play distinct roles in innate social behaviors, Nature Neuroscience. 2. Guo et al. (2023), Neural dynamics in the limbic system during male social behaviors, Neuron. 3. Mei et al. (2023), Antagonistic circuits mediating infanticide and maternal care in female mice, Nature. 4. Wei et al. (2023), A hypothalamic pathway that suppresses aggression toward superior opponents, Nature Neuroscience.

JIANGFAN CHEN

Wenzhou Medical University

Professor Jiang-Fan Chen has long-standing interest in adenosine receptor neuropharmacology with focus on in adenosine A2A receptor control of physiological (cognition and sleep) and pathological (ischemia and neurodegeneration) processes. Dr. Chen made a major contribution to the development and eventual FDA approval of A2A antagonists as a novel treatment strategy for Parkinson’s disease. Dr. Chen has published 250 papers on adenosine neurobiology in primary neuroscience journals, with H index 80.

1. Zhou et al. (2024), 40 Hz Light Flickering Promotes Sleep through Cortical Adenosine Signaling, Cell Research (Accepted).

2. Wang et al. (2023), Lateral septum adenosine A2A receptors control stress-induced depressive-like behaviors via signaling to the hypothalamus and habenula, Nature Communications.

3.Zhang et al. (2022), Neural representation and modulation of volitional motivation in response to escalating efforts, The Journal of Physiology.

Yun-Feng Zhang

Institute of Zoology,CAS

Yun-Feng Zhang got his PhD at Institute of Zoology, Chinese Academy of Sciences, and pursued his postdoc career at the Department of Neuroscience of Perelman School of Medicine, University of Pennsylvania. Since his good performance in research, Yun-Feng was honored the Polak Young Investigator Award of the Association for Chemoreception Sciences in 2018. In September 2022, he set up his lab at Institute of Zoology, Chinese Academy of Sciences. His research interest focused on olfactory coding mechanisms responsible for instinct behaviors of mice in health and disease. His studies reveal the versatile and crucial role of ventral striatal D3 neurons in orchestrating asocial behavior (self-grooming), social behavior as well as emotion-related behaviors in mice. His work has been published in Nature Neuroscience, Nature Communications, Journal of Neuroscience, iScience, Journal of Neurochemistry, etc.

1. Zhang et al. (2023), Ventral striatal islands of Calleja neurons bidirectionally mediate depression-like behaviors in mice. Nature Communications.

2. Zhang et al. (2022), Self-grooming promotes social interaction in mice via chemosensory communication. iScience.

3.Zhang et al. (2021), The Islands of Calleja, a Ventral Striatal Circuit for Grooming Control. Nature Neuroscience.

Pu Fan

Institute of Basic Medical Sciences, CAMS

Dr. Pu Fan’s lab uses rats, which are highly social group-living animals, as model organisms to investigate the molecular and neurobiological mechanisms of social behavior and related psychiatric disorders. The main research directions include: 1) The biological mechanisms underlying prosocial behaviors; 2) The neural circuits and molecular basis of social bonding formation; 3) Exploring the mechanisms of emotional regulation and their relationship with social behavior.

Haining Zhong

Vollum Institute

Haining Zhong’s lab develops cutting-edge technologies associated with microscopic visualization of biological processes, and uses these technologies to study the cellular mechanisms underlying animal behavior, learning and memory. Recently, his lab became the first to achieve in vivo PKA imaging with cellular resolution in the cortex and the striatum of behaving mice. These technologies have resulted in the discovery of novel neuromodulatory mechanisms, mediated by adenosine, underlying animal locomotion.

1. Ma et al. (2022), Locomotion activates PKA through dopamine and adenosine in striatal neurons, Nature.

2.Massengill et al. (2022), Sensitive genetically encoded sensors for population and subcellular imaging of cAMP in vivo, Nature Methods.

Zhaofa Wu

Institute of Genetics and Developmental Biology, Chinese Academy of Sciences

Zhaofa Wu got his Ph.D. degree from Peking University (2019), under the supervision of Prof. Yulong Li. From 2019 to 2023, Zhaofa pursued postdoctoral research at Peking University, co-supervised by Prof. Yulong Li and Prof. Bastian Hengerer. Currently, Zhaofa leads a research group dedicated to unraveling the complexities of neural communication and brain function by employing a synergistic approach that integrates the development of fluorescent probe technology, in vivo fluorescence imaging, and sophisticated manipulation techniques such as optogenetics, pharmacology, and gene editing.

1. Wu et al. (2023), Neuronal activity-induced, ENT-dependent, somatodendritic adenosine release revealed by a GRAB sensor, PNAS.

2. Wu et al. (2022), A sensitive GRAB sensor for detecting extracellular ATP in vitro and in vivo, Neuron.

3.Wu et al. (2022), Pushing the frontiers: tools for monitoring neurotransmitters and neuromodulators, Nature Reviews Neuroscience.

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