钱斌治
学术职位:教授
联系信息:qianbinzhi@fudan.edu.cn
导师类型:博士生导师
  • 个人简介
  • 招生信息
    • 个人简介

    实验室链接:https://qianlab.top/qianlab/


    工作经历

    复旦大学特聘教授、复旦大学人类表型组研究院院长、复旦大学时空组学整合研究中心主任复旦大学附属肿瘤医院双聘教授、英国爱丁堡大学生殖健康中心荣誉研究员。曾获上海市领军人才上海浦东“明珠计划”领军人才CRUK CDF英国癌症研究职业发展奖、爱丁堡大学学院早期成就奖、前列腺癌症基金会(PCF)挑战奖及美国癌症研究协会(AACR)在训学者奖等奖项。

    先后获得复旦大学生物化学学士学位和美国爱因斯坦医学院生物医学博士学位。曾任美国纪念斯隆-凯特琳癌症中心副研究员 ;随后任职于英国爱丁堡大学癌症研究中心和生殖健康中心,历任校监特聘首席研究员、终身教授。曾受聘为广东省珠江学者讲座教授、广州医科大学南山学者特聘客座教授及第二军医大学客座教授。

    长期致力于肿瘤免疫、巨噬细胞及空间组学研究发现并命名了转移相关巨噬细胞,开创了免疫细胞在肿瘤转移中作用的新领域,在揭示巨噬细胞促进癌症转移及耐药机制方面取得了系列开创性成果。主持国际重大科研项目总经费超3,000万人民币,其中包括欧盟科学研究委员会(ERC)地平线2020项目、英国癌症研究(CRUK)CDF重大项目及国家自然科学基金和上海市级重大项目。在NatureCellNature Reviews ImmunologyJournal of Experimental MedicineTrends in Immunology Nature Computational Science等国际顶尖期刊发表多篇高水平学术论文,论文总引用超18,000次,参与编写国际学术专著2本

    目前担任《Journal of Leukocyte Biology》、《CytoJournal》、《Clinical and Experimental Metastasis等期刊编委,并受邀为 Nature、Cell、Science 等数十种国际权威刊物审稿。目前担任生命科学开放联盟秘书长、中国生物工程学会系统生物医学专委会副主任委员、上海生物信息学会理事时空组学专委会副主任委员、全国卫生产业企业管理协会精准医疗分会理事等社会职务。

    研究方向

    空间组学;肿瘤免疫;肿瘤微环境;生物信息学

    获奖情况

    2015年  爱丁堡大学学院早期成就奖

    2014年  英国癌症研究职业发展奖

    2013年  Movember-Prostate Cancer Foundation 挑战奖

    2013年  Dennis Shields纪念基金研究奖: 最佳博士后研究奖

    2012年  Susan G. Komen for the Cure 博士后奖

    2012年  美国癌症研究协会在训学者奖(103期)

    2011年  美国癌症研究协会在训学者奖(102期)

    代表论文

    1. Yang Y, Chen Y, Pei P, Fan Y, Wang S, Zhang H, Zhao D, Qian BZ, Zhang F. Fluorescence-amplified nanocrystals in the second near-infrared window for in vivo real-time dynamic multiplexed imaging. Nat Nanotechnol. 2023 Jun 22. doi: 10.1038/s41565-023-01422-2.

    3. Li XF, Selli C, Zhou H, Cao J, Wu S, Ma RY, Lu Y, Zhang CB, Xun B, Lam AD, Pang XC, Fernando A, Zhang Z, Unciti-Broceta A, Carragher NO, Ramachandran P, Henderson NC, Sun LL, Hu HY, Li GB, Sawyers C, Qian BZ. Macrophages promote anti-androgen resistance of prostate cancer bone disease. J Exp Med. 2023 Apr 3;220(4):e20221007. doi: 10.1084/jem.20221007.

    4. Ma RY; Black A; Qian BZ. Macrophage diversity in cancer revisited in the era of single-cell omics. Trends Immunol. 2022 Jul;43(7):546-563. DOI: 10.1016/j.it.2022.04.008

    5. Zhou Y, Yang D, Yang QC, Lv XB, Huang WT, Zhou Z, Wang YL, Ding X, Tang LN, Zhang JJ, Yin JY, Huang YJ, Yu WX, Wang YG, Chen- Zhou L, Su Y, Guo-Wei Qian, He AN, Sun YJ, Shen Z, Qian BZ, Chen PZ, Yao Y, Hu HY. Single-cell RNA landscape of intratumoral heterogeneity and immunosuppressive microenvironment in advanced osteosarcoma. Nat Com. 2020 Dec 10;11(1):6322.

    6. Ma RY, Zhang H, Li XF, Zhang CB, Selli C, Tagliavini G, Prost S, Sims AH, Hu HY, Ying T, Wang Z, Ye Z, Pollard JW, Qian BZ. Monocyte-derived macrophages promote breast cancer bone metastasis outgrowth. J Exp Med. 2020, 217 (11): e20191820

    7. Pang, X, Gong, K, Zhang, X, Wu, S, Cui, Y, and Qian BZ (2019). Osteopontin as a multifaceted driver of bone metastasis and drug resistance. Pharmacol. Res. 144, 235-244.

    8. Graham N, Qian BZ. Mesenchymal Stromal Cells: Emerging Roles in Bone Metastasis. Int. J. Mol. Sci. 2018, 19(4), 1121; doi:10.3390/ijms19041121

    9. Gómez-Cuadrado L, Tracey N, Ma R, Qian BZ, Brunton VG Mouse models of metastasis: progress and prospects. Disease Models and Mechanisms. 2017 Sep 1;10(9):1061-1074. doi: 10.1242/dmm.030403.

    10. Qian BZ. Inflammation fires up cancer metastasis. Seminars in Cancer Biology. 2017 Aug 31. pii: S1044-579X(17)30210-9. doi: 10.1016/j.semcancer.2017.08.006

    11. Cao J, Liu J, Xu R, Zhu X, Zhao X, Qian BZ. Prognostic role of tumour-associated macrophages and macrophage scavenger receptor 1 in prostate cancer: A systematic review and meta-analysis. Oncotarget. 2017 Jun 27; : 1–9. doi: 10.18632/oncotarget.18743.

    12. Qin W, Zheng Y, Qian BZ#, Zhao M# Prostate cancer stem cells and nanotechnology: a focus on Wnt signaling. Front. Pharmacol. 2017 Mar 28; 8: 153 (# co-corresponding author)

    13. Hughes R*, Qian BZ* Muthana M, Keklikoglou I, Olson OC, Tazzyman S, Danson S, Addison C, Clemons M, Gonzalez-Angulo AM, Joyce JA, De Palma M, Pollard JW and Lewis CE. Perivascular M2 macrophages Stimulate Tumor Relapse After Chemotherapy. Cancer Research. 2015 Sep 1;75(17):3479-91 (co-first author)

    14. Qian BZ#, Zhang H, Li J, He AT, Yeo EJ, Soong DYH, Carragher N, Munro A, Chang A, Bresnick AR, Lang RA and Pollard JW# FLT1 signaling in metastasis-associated macrophages activates an inflammatory signature that promotes breast cancer metastasis. J Exp Med 2015 Aug 24; 212(9):1433-48. (# co-corresponding author)

    15. Harney AS, Arwert EN, Entenberg D, Wang Y, Qian BZ, Pollard JW, Jones JG and Condeelis JS. Real-time imaging reveals local, transient vascular permeability and tumor cell intravasation by Tie2Hi macrophage-derived VEGFA. Cancer Discov 2015 Sep;5(9):932-43.

    16. Kitamura T, Qian BZ, Soogn D, Cassetta L, Noy R, Sugano G, Kato Y, Li J and Pollard JW CCL2-induced chemokine cascade promotes breast cancer metastasis by enhancing retention of metastasis-associated macrophages. J Exp Med 2015 Jun 29;212(7):1043-59.

    17. Kitamura T, Qian BZ and Pollard JW Immune cell promotion of metastasis. Nature Review Immunology 2015 Feb. 2: 73-86.

    18. Qian BZ, Li J, Zhang H, Kitamura T, Campion LR, Kaiser EA, Zhang J, Snyder LA and Pollard JW. CCL2 recruits inflammatory monocytes to facilitate breast tumor metastasis. Nature. 475, 222-25 July 14, 2011.

    19. Qian BZ, Pollard JW. Macrophage Diversity Enhances Tumor Progression and Metastasis. Cell. 141, 39-51 April 2, 2010

    20. Qian BZ, Deng Y, Im JH, Muschel RJ, Zou Y, et al. 2009. A Distinct Macrophage Population Mediates Metastatic Breast Cancer Cell Extravasation, Establishment and Growth. PLoS ONE. 4(8): e6562.


    招生信息