2005年毕业于复旦大学获临床医学学士学位，2012年毕业于中国科学院神经科学研究所获理学博士学位。2012-2016年在美国Johns Hopkins University （约翰霍普金斯大学）从事博士后研究。获得中国科学院优秀导师奖、益海嘉里优秀导师奖、人类前沿科学奖、美国马里兰干细胞研究基金奖、中国科学院院长特别奖、中国科学院优秀博士学位论文奖、礼来优秀博士毕业论文奖、细胞生物学青年论坛学术新人奖、神经细胞生物学青年前沿论坛特邀报告人奖等。2024年获国家杰出青年科学基金。现任中国神经科学学会神经发育与再生分会委员、突触与神经可塑性分会委员，生物物理学会单细胞多组学分会委员，遗传学会代谢遗传分会委员，北京医学科学健康学会副会长，北京细胞生物学会理事，北京神经科学学会功能性疾病与认知发育专委会副主任。

 

    1、下丘脑发育：从神经发生到环路组装

    下丘脑通过调节内分泌、自主神经和行为功能来维持机体内稳态，包括饥饿、睡眠、体温、口渴、昼夜节律、情绪调节、性欲和激素释放等。然而，对于不同脊椎动物的下丘脑发育，包括其模式生成、神经发生和环路组装，领域内所知甚少。我们团队结合单细胞谱系追踪（即克隆分析）、单细胞多组学和跨物种比较等方法，系统性揭示了下丘脑神经发生的规律，提出了“级联放大论”、“多谱系起源”和“阶梯式命运决定”等概念 (Cell Stem Cell, 2021; Dev Cell, 2025; Sci Adv, 2022; PLoS Bio, 2018)。由于下丘脑神经元连接的复杂性以和功能的重要性，我们需要付出更多的努力来解码神经元生成和环路组装的过程和机制。

 

    2、下丘脑介导肥胖的神经体液机制

    下丘脑不仅可以感知来自外周的糖脂信号，还能分泌神经递质、神经肽、神经激素等，用以协调大脑和外周器官（脂肪、肠道、肝脏）之间的相互协作，以维持机体的能量平衡。然而，下丘脑如何与外周代谢器官进行交互尚不清楚。我们团队鉴定出新型下丘脑神经元，并揭示其调控机体能量消耗的神经机制 (Neuron, 2025)。

 

    3、神经干细胞的稳态调控与脑肿瘤

    神经干细胞在数量、活性、自我更新与分化之间维持一种动态平衡，这种现象称为稳态。神经干细胞稳态对脑发育、脑结构和脑功能至关重要；其稳态失衡可导致自闭症、智力障碍、巨头症、脑肿瘤等疾病。我们团队研究生理与病理条件下神经干细胞稳态的调控机制，首次发现神经祖细胞竞争现象，及其对干细胞数量和脑器官大小的调控作用；首次揭示下丘脑干细胞失稳态可诱发颅咽管瘤，进而筛选出先导药物 (Dev Cell, 2023; Sci Transl Med, 2024; Nat Commun, 2021; Cell Rep, 2020; Cell, 2012)。

    “中国科学院优秀导师奖”（吴青峰）;  “益海嘉里优秀导师奖” （吴青峰）; ”国家奖学金”（4人：张宇虹、石翔、孙雪莲、李斯）;  “中科院院长优秀奖”（2人：张宇虹、孙雪莲）;   “中科院优秀毕业生”（1人：李斯）;  “三好学生标兵”（1人：陈振华）;  “瑞沃德基础医学明德奖学金”（一等奖）（1人：陈振华）;  “益海嘉里优秀博士生奖”（3人：李斯、石翔、张宇虹）;  “地奥奖学金一等奖”（2人：李斯、孙雪莲）; “朱李月华优秀博士生奖学金”（1人：石翔）;  “中国神经科学学会奥利巴斯优秀墙报奖”（5人：石翔、张宇虹、李斯、孙雪莲、陈振华）;  “中国细胞生物学学会优秀墙报奖”（1人：张宇虹）

 

    穆文辉：内蒙古大学，研究员，博导;  

    张宇虹：广州医科大学，特聘教授，硕导;

    李斯：首都医科大学宣武医院 ，助理研究员。

 

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51. Zhao, M., Zhang, Li., Chen, Z., Zhang, S., Cheng, X., Huang, M., Li, X., Gu, H., Guan, X., Geng, D., Li, Y., Tu, Y., Xie, Z., Zhang, F., Ma, H., Li, X., Li, D., Wu Q.F.*, Cao, P.* (2025) A molecularly defined brain circuit module for regulating panic-like defensive state. Nat Commun. 16(1):5523.

 

50. Wang, T., Han, S., Wang, Y., Li, Y., Zhang, S., Zhu, F., Chen, Z.H., Xing, Z., Li, Y., Wang, J.,Xu, M., Liu, Q., Jiang, M., Xu, X., Li, X., Cao, P., Gong, H., Wu Q.F.* (2025) Identification of a neural basis for energy expenditure in the arcuate hypothalamus. bioRxiv (doi.org/10.1101/2025.03.11.642601）

 

49. Chen, Z.H., Pan, B.T., Zhang, Y.H., Wang, B., Sun, X.L., Gao, M., Sun Y., Xu, M., Han, S., Shi,X., Correa-da-Silva, F., Yang, C., Guo, J., Wu, H., Li, Y.Z., Liu, X.Q, Gao, F., Xu, Z., Xu, S. Liu,X., Zhu, Y., Deng, Z., Liu, S., Zhou, Y., Yi, C.X., Liu, L.*, Wu Q.F.* (2025) Transcriptional conservation and evolutionary divergence of cell types across mammalian hypothalamus development. Dev Cell. 60(13):1916-1930

 

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46. Li, J. Cui, J., Li, X., Zhu, D., Chen, Z., Huang, X., Wang, Y., Wu, Q.F., Tian, Y.* (2025) TMBIM-2 orchestrates systemic mitochondrial stress response via facilitating Ca2+ oscillations. J Cell Biol. 224(5):e202408050

 

45. Li, S., Li, W., Miao, Y., Gao, M., Jia, Y., Chen, Z., Chen, X., Pan, T., Zhang, S., Xing, Z., Han, S., Sun, X., Wei, X., Liu, Z., Zhou, W., Wu, W., Liu, F., Han, L., Zhu, H., Ye, H., Liu, L., Li, Y.,  Zhang, P., Gong, J., Tian, Y., Ai, Y., Cao, P., Wu, D.*, Qi, X.*, Gui, S.*, Wu, Q.F.* (2024) Modeling craniopharyngioma for drug screening reveals a neuronal mechanism for tumor growth. Sci Transl Med. 16(778):eadn6763

 

44. Hu, T., Kong, Y., Tan, Y., Ma, P., Wang, J., Sun, X., Xiang, K., Mao, B., Wu, Q.F., Yi, S.V., Shi, L.* (2024) Cis-Regulatory Evolution of CCNB1IP1 Driving Gradual Increase of Cortical Size and Folding in primates. BioRxiv. 12.08.627376

 

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42. Lu, H., Chen, G., Zhao, M., Gu, H., Zheng, W., Li, X., Huang, M., Geng, D., Yu, M., Guan, X., Zhang, L., Song, H., Li, Y., Wu, M., Zhang, F., Li, D., Wu, Q.F., Shang, C., Xie, Z., Cao, P.* (2024) Brainstem opioid peptidergic neurons regulate cough reflexes in mice. Innovation (Camb). 21;5(6):100721.

 

41. Miao, Y., Fan, K., Peng, X., Li, S., Chen, J., Wei, Y., Deng, Y., Zhao, C.*, Wu, Q.F.*, Ge, M.*, Gong, J.*, Wu, D.* (2024) Serum sodium level fluctuations following the resection of childhood-onset craniopharyngioma. Brain Behav. 14(3):e3430.

 

40. Lei, Y., Liang, X., Sun, Y., Yao, T., Gong, H., Chen, Z., Gao, Y., Wang, H., Wang, R., Huang, Y., Yang, T., Yu, M., Liu, L., Yi, C., Wu, Q.F., Kong, X., Xu, X., Liu, S.*, Zhang, Z.*, Liu, T.* (2024) Region-specific transcriptomic responses to obesity and diabetes in macaque hypothalamus. Cell Metab. 36(2):438-453.e6.

 

39. Li, H., J, T., An, S., Xu, M., Guo, L., Ren, B., Shi, X., Wang, X., Yan, J., Yuan, J., Xu, X., Wu, Q.F., Luo, Q., Gong, H., Bian, W.*, Li, A.*, Yu, X.* (2024) Single-neuron projectomes of mouse paraventricular hypothalamic nucleus oxytocin neurons reveal mutually exclusive projection patterns. Neuron. 112(7):1081-1099

 

38. Han, L., Liu, Z., Jing, Z., Liu, Y., Chang, H., Lei, J., Peng, Y., Wang, K., Xu, Y., Liu, W., Wu, Z., Li, Q., Shi, X., Zheng, M., Wang, H., Deng, J., Zhong, Y., Pan, H., Lin, J., Zhang, R., Chen, Y., Wu, J., Xu, M., Ren, B., Cheng, M., Yu, Q., Song, X., Wei, Y., Zhang, S., Dou, Y., Zhao, Y., Han, L., Zhu, Q., Xu, Y., Wang, S., Chen, H., Wang, D., Bai, Y., Liang,Y., Liu, Y., Chen, M., Xie, C., Bo, B., Li, M., Zhang, X., Ting, W., Chen, Z., Fang, J., Li, S., Jiang, Y., Tan, X., Zou, G., Xie, Y., Li, H., Tao, Q., Li, Y., Liu, J., Liu, Y., Hao, M., Wang, J., Wen, H., Liu, J., Yan, Y., Zhang, H., Sheng,Y., Han, M., Yu, S., Liao, X., Jiang, X., Wang, G., Liu, H., Wang, C., Feng, N., Liu, X., Ma, K., Xu, J., Han, T., Cao, H., Zheng, H., Chen, Y., Lu, H., Yu, Z., Zhang, J., Wang, B., Wang, Z., Xie, Q., Pan, S., Liu, C., Xu, C., Cui, L., Li, Y., Liu, S., Liao, S., Chen, A., Wu, Q.F., Wang, J., Liu, Z., Sun, Y., Mulder, J., Yang, H., Wang, Y.*, Li, C.*, Yao, J.*, Xu, X.*, Liu, L.*, Shen, Z.*, Wei, W.*, Sun, Y.* (2023) Spatially resolved molecular and cellular atlas of the mouse brain. bioRxiv. https://www.biorxiv.org/content/10.1101/2023.12.03.569501v1

 

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35. Zhuang, Y., Li, Z., Xiong, S., Sun, C., Li, B., Wu, S., Li, J., Shi, X., Yang, L., Chen, Y., Bao, Z., Li, X., Sun, C., Chen, Y., Deng, H., Li, T., Wu, Q.F., Qi, L., Huang, Y., Yang, X.*, Lin, Y.* (2023) Circadian clocks are modulated by compartmentalized oscillating translation. Cell. 186(15):3245-3260.e23.

 

34. Zhu, X., Meng, J., Han, C.,Wu, Q.F., Du, Y., Qi, J., Wei, L., Li, H., He, W., Zhang, K., Lu, Y.* (2023) CCL2-mediated inflammatory pathogenesis underlies high myopia-related anxiety. Cell Discov. 9(1):94.

 

33. Sun, X., Chen, Z., Guo, X., Wang, J., Ge, M., Wong, S.Z.H., Wang, T., Li, S., Yao, M., Johnston, L.A., Wu, Q.F.* (2023) Stem cell competition driven by Axin2-p53 axis controls brain size during murine development. Dev Cell. 58(9):744-759

 

32. Yao, Y., Wei, L., Chen, Z., Li, H., Qi, J., Wu, Q.F., Zhou, X., Lu, Y., Zhu, X.* (2023) Single-cell RNA sequencing: Inhibited Notch2 signalling underlying the increased lens fibre cells differentiation in high myopia. Cell Prolif. 56(8):e13412.

 

31. Shi, X., Zhuang, Y., Chen, Z., Xu, M., Kuang, J., Sun, X.L., Gao, L, Kuang, X., Zhang, H., Li, W., Wong, S.Z.H., Liu, C., Liu, L., Jiang, D., Pei, D., Lin, Y.*, Wu, Q.F.* (2022) Hierarchical deployment of Tbx3 dictates the identity of hypothalamic KNDy neurons to control puberty onset. Sci Adv.  8(46):eabq2987

 

30. Ge, M., Sheikhshahrokh, A., Shi, X., Zhang, Y.H., Xu, Z., Wu, Q.F.* (2022) A Spacetime Odyssey of Neural Progenitors to Generate Neuronal Diversity. Neurosci. Bull. 39, 645-658. DOI: 10.1007/s12264-022-00956-0

 

29. Hong, H., Zhao, Z., Huang, X., Guo, C., Zhao, H., Wang, G., Zhang, Y.P., Zhao, J.P., Shi, J., Wu, Q.F., Jiang, Y.H., Wang, Y., Li, L.M., Du, Z., Zhang, Y.Q.*, Xiong, Y.* (2022) Comparative proteome and cis-regulatory element analysis reveals specific molecular pathways conserved in dog and human brains. Mol Cell Proteomics. 21, 100261

 

28. Wu, H.*, Fu, R., Zhang, Y.H., Liu, Z., Chen, Z., Xu, J., Tian, Y.*, Jin, W.*, Wong, S.Z.H.*, Wu, Q.F. (2022) Single-cell RNA sequencing unravels upregulation of immune cell crosstalk in relapsed pediatric ependymoma. Front Immunol. 13, 903246.

 

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26. Yun. H., Dumbell, R., Hanna, K., Bowen, J., Mclean, S.L., Kantamneni, S., Pors, K., Wu, Q.F., Helfer, G.* (2022) The chemerin-CMKLR1 axis is functionally important for central regulation of energy homeostasis. Front Physiol. 13, 897105.

 

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24. Zhao, Z., Zhang, D., Yang, F., Xu, M., Zhao, S., Pan, T., Liu, C., Liu, Y., Wu, Q.F., Tu, Q., Zhou, P., Li, R., Kang, J., Zhu, L., Gao, F., Wang, Y.*, Xu Z.* (2022) Evolutionarily conservative and non-conservative regulatory networks during primate interneuron development revealed by single-cell RNA and ATAC sequencing. Cell Res. 32, 425-436.

 

23. Yan, Y., Tian, M., Li, M., Zhou, G., Chen, Q., Xu, M., Hu, Y., Luo, W., Guo, X., Zhang, Cheng., Xie, H., Wu, Q.F., Xiong, W.*, Liu, S.*, Guan, J.* (2022) ASH1L haploinsufficiency results in autistic-like phenotypes in mice and links Eph receptor gene to autism spectrum disorder. Neuron. 110, 1156-1172.

 

22. Wen, Q., Weng, H., Liu, T., Yu, L., Zhao, T., Qin, J., Li, S., Wu, Q.F., Tissir, F., Qu, Y., Zhou, L.* (2022) Inactivating Celsr2 promotes motor axon fasciculation and regeneration in mouse and human. Brain. 145(2): 670–683.

 

21. Chen, Z., Li, S., Xu, M., Liu, C., Ye, H., Wang, B., Wu, Q.F.* (2022) Single-cell Transcriptomic Profiling of the Hypothalamic Median Eminence during Aging. J Genet Genomics. 49, 523-536. doi: 10.1016/j.jgg.2022.01.001.

 

20. Wang, A., Wang, J., Tian, K., Huo, D., Ye, H., Li, S., Zhao, C., Zhang, B., Zheng, Y., Xu, L., Hua, X., Wang, K., Wu, Q.F., Wu, X., Zeng, T., Liu, Y., Zhou, Y.* (2021) An epigenetic circuit controls neurogenic programs during neocortex development. Development. 148 (22): dev199772.

 

19. Zhang, Y., Xu, M., Shi, X., Sun, X.L., Mu, W., Wu, H., Wang, J., Li, S., Su, P., Gong, L., He, M., Yao, M., Wu, Q.F.* (2021)  Cascade diversification directs generation of neuronal diversity in the hypothalamus. Cell Stem Cell. 28, 1483-1499.

 

18. Mu, W., Li, S., Xu, J., Guo, X., Wu, H., Chen, Z., Qiao, L., Helfer, G., Lu, F., Liu, C., Wu, Q.F.* (2021) Hypothalamic Rax+ tanycytes contribute to tissue repair and tumorigenesis upon oncogene activation in mice. Nat Commun. 12, 2288.

 

17. Zhu, X., Du, Y., Li, D., Xu, J., Wu, Q.F., He, W., Zhang, K., Zhu, J., Guo, L., Qi, M., Liu, A., Qi, J., Wang, G., Meng, J., Yang, Z., Zhang, K., Lu, Y. (2021) Aberrant TGF-β1 signaling activation by MAF underlies pathological lens growth in high myopia. Nat Commun. 12, 2102.

 

16. Chang, Y., Jiang, Y., Li, C., Wang, Q., Zhang, F., Qin, C.F., Wu, Q.F., Li, J., Xu, Z. (2021) Different Gene Networks are Disturbed by Zika Virus Infection in a Mouse Microcephaly Model. Genom. Proteom. Bioinform. 18, 737-748.

 

15. Wang J., Li T., Wang J., Xu Z., Meng W., Wu, Q.F.* (2020)  Talpid3-Mediated Centrosome Integrity Restrains Neural Progenitor Delamination to Sustain Neurogenesis by Stabilizing Adherens Junctions. Cell Rep. 33, 108495.

 

14. Zhang, Y., Xu, M., Li, S., Wu, H., Shi, X., Guo, X., Mu, W., Gong, L., Yao, M., He, M., Wu, Q.F.* (2020) Cascade Diversification Directs the Generation of Neuronal Diversity in Hypothalamus. bioRxiv. 125054.

 

13. Berg, D.A., Su, Y., Jimenez-Cyrus, D., Patel, A., Huang, N., Morizet, D., Lee, S., Shah, R., Rojas Ringeling F., Jain, R., Epstein, J.A., Wu, Q.F., Canzar, S., Ming, G.L., Song, H., and Bond, A.M.  (2019)   A Common Embryonic Origin of Stem Cells Drives Developmental and Adult Neurogenesis. Cell. 18, 654-668. 

 

12. Tang, C., Wang, M., Wang, P., Wang, L., Wu, Q., and Guo, W.  (2019). Neural Stem Cells Behave as a Functional Niche for the Maturation of Newborn Neurons through the Secretion of PTN. Neuron. 101, 32-44.

 

11. Xu, M., Wang, J., Guo, X., Li, T., Kuang, X., Wu, Q.F.* (2018) Illumination of neural development by in vivo clonal analysis. Cell Regen. 12, 33-39.

 

10. Helfer, G., and Wu, Q.F.*  (2018). Chemerin: a multifaceted adipokine involved in metabolic disorders. J Endocrinol. 238, R79-R94.

 

9. Wong, S.Z.H., Scott, E.P., Mu, W., Guo, X., Borgenheimer, E., Freeman, M., Ming, G.L., Wu, Q.F.*, Song, H., and Nakagawa, Y. (2018). In vivo clonal analysis reveals spatiotemporal regulation of thalamic nucleogenesis. PLoS Biol. 16, e2005211.

 

8. Wei, D., Gao, N., Li, L., Zhu, J.X., Diao, L., Huang, J., Han, Q.J., Wang, S., Xue, H., Wang, Q., Wu, Q.F., Zhang, X., and Bao, L. (2017). alpha-Tubulin acetylation restricts axon overbranching by dampening microtubule plus-end dynamics in neurons. Cereb Cortex. 28, 3332-3346.

 

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