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姓  名: 王紅梅
學  科: 發育生物學
電話/傳真: +86-10-64807187 / +86-10-64807189
電子郵件: wanghm@ioz.ac.cn
通訊地址: 北京市朝陽區大屯路甲3號幹細胞與再生醫學創新研究院 100101
更多信息: 生殖生理研究組     

簡曆介紹:

王紅梅,博士,研究員,博士生導師;必威精装版app西汉姆联 副所長。幹細胞與生殖生物學國家重點實驗室前主任。中國動物學會生殖生物學分會主任委員。英國劍橋大學胎盤研究中心(Loke CTR)學術委員會委員。國家傑出青年基金項目獲得者,國家百千萬人才工程 “有突出貢獻中青年專家”, 國家自然科學基金重大項目、創新研究群體項目負責人,中國科學院戰略性科技專項先導課題負責人,國家重點研發計劃“基於幹細胞的生育力維持與重建”項目負責人。擔任Cell Stem Cell 、Dev Cell、Cell Prolif、Cell Rep Med等期刊編委,

1995年於北京師範大學生物係獲得學士學位,2002年於必威精装版app西汉姆联 獲得理學博士學位,2003-2005年在加拿大渥太華健康研究所從事博士後研究。王紅梅課題組研究方向包括:(1)靈長類(人和猴)早期胚胎發育;(2)靈長類胎盤發育;(3)幹細胞與生育力的維持和重建。相關工作在Science、Nature、Cell、Nat Genet等期刊發表論文140餘篇,被 Science 亮點評述、3 次被 Nature 和 Science 期刊 News 報道、2 次在 Science 和 Cell期刊封麵重點介紹,入選Nat Methods年度方法、2023中國生命科學十大進展。在國際幹細胞學會、Gordon,Keystone、冷泉港亞洲等國際會議做特邀報告受邀為Trends Cell Biol、Trends Mol Med、Curr Opin Cell Biol、Biol Reprod撰寫綜述。曾獲第十六屆談家楨生命科學創新獎,第五屆全國婦幼健康科學技術獎自然科學一等獎,國家人口和計劃生育委員會優秀科技成果一等獎等,中國科學院李佩教師獎、優秀導師獎,“朱李月華優秀教師獎”等。培養的研究生多人獲國家獎學金、中國科學院院長特別獎等。

主要學習經曆:

1991—1995 北京師範大學生物係生物學學士

1995—1998 北京師範大學生物係細胞生物學碩士

1999—2002 必威精装版app西汉姆联 生理學博士

主要工作經曆:

1998—2006 必威精装版app西汉姆联 研究實習員、助理研究員、副研究員

2003—2005 加拿大渥太華健康研究所博士後

2006—2025 必威精装版app西汉姆联 幹細胞與生殖生物學國家重點實驗室(原生殖生物學國家重點實驗室) 研究員

2011—2017 必威精装版app西汉姆联 幹細胞與生殖生物學國家重點實驗室 副主任

2017—2025 必威精装版app西汉姆联 幹細胞與生殖生物學國家重點實驗室 主任

2024— 必威精装版app西汉姆联 副所長

2025— 必威精装版app西汉姆联 器官再生與智造全國重點實驗室 研究員 

研究領域:

當前我國麵臨人口出生率斷崖式下降和出生缺陷發生率居高不下等嚴重人口安全和健康問題。有效提高出生人口數量和質量是國家重大需求之一,其中核心科學問題之一是胚胎發育問題,尤其是早期胚胎發育。課題組近 30 年致力於研究靈長類(人和猴)早期胚胎發育規律,聚焦決定胚胎發育三個關鍵要素:卵子、胚胎、胎盤開展研究,揭示了靈長類早期胚胎發育關鍵事件原腸運動發生的規律;發現了人類胎盤支撐胚胎發育和保護母體的雙重作用與機製;創建了幹細胞改善卵巢功能從而恢複生育力的新方案並實現轉化。研究結果為出生缺陷的病因學研究以及妊娠疾病的診療奠定了科學基礎,為不孕不育患者改善生育力提供了新方案。 

1.揭示靈長類早期胚胎發育的基本規律

針對靈長類原腸運動到早期器官發生階段發育規律認識空白,建立該發育階段體內胚胎發育分子標尺;創建模擬子宮環境的3D培養體係(Nat Methods 2023年度技術),國際首次將食蟹猴胚胎先後培養至受精後第20天和25天,精準重現原腸運動和早期器官發生過程,揭示細胞遷移、體軸建立、三胚層分化的表觀遺傳重塑與基因表達協同調控細胞命運的機理。成果發表於Nature、Science、Cell(封麵文章)。Nature亮點評價:25天是食蟹猴胚胎子宮外發育最長記錄。英國皇家學會會士Patrick Tam評述:非人靈長類胚胎為人類發育裏程碑事件的研究提供寶貴的跨物種參考。 

2.闡明胎盤支持胚胎發育的結構功能基礎

胎盤作為胚胎發育的“土壤”,既要帶領“半異體”的胚胎在母體子宮“紮根”而不被母體排斥(免疫豁免),又要協同母體多器官支持胚胎發育。其“一仆二主”作用的發揮依賴於胎盤獨特的結構和功能特征。然而由於研究體係匱乏,胎盤發育過程和機製遠未被闡明。課題組利用體細胞譜係追蹤、類器官、單細胞轉錄組、單細胞核多組學及空間轉錄組技術,係統解析胎盤多種細胞的起源、發育軌跡及功能;揭示細胞周期進程調控融合原介導胎盤細胞融合的機製。國際首次發現胎盤協同母體多器官支持胚胎發育的8條代謝通路,其中皮質酮是妊娠高血壓的潛在治療靶點。Science評述:正在填補靈長類妊娠期代謝物調控胎盤和母體多器官適應的研究空白。成果發表於Cell、Nat Genet、Dev Cell,入選中國生命科學十大進展。 

3.解決胚胎發育源頭問題,創建幹細胞恢複生育力新方案

健康卵子對受精卵形成和胚胎正常發育至關重要。中國女性的生育力水平,即不同年齡女性卵巢的卵子儲備情況一直缺乏科學評估。課題組創新體視學計量方法,首次解析中國女性卵巢儲備隨年齡的變化規律及分子機製。利用食蟹猴模型,研發幹細胞原位注射改善卵子發生微環境的安全有效新策略。成果發表於Sci Bull、Cell Discov等,授權專利3項並成功轉化。

社會任職:

  1. 2024—至今 中國生物工程學會靈長類生物醫學分會 副主任委員
  2. 2024—至今 載人航天工程空間應用係統空間生命科學與生物技術領域科學工作委員會 委員
  3. 2024—至今 國際幹細胞研究學會 (ISSCR) 會員
  4. 2024—至今 國際幹細胞研究學會 (ISSCR) 胚胎模型工作組成員
  5. 2024—至今 Fundamental Research 編委
  6. 2024—至今 Developmental Cell 編委
  7. 2024—至今 Cell Stem Cell 編委
  8. 2021—至今 中國生物物理學會女科學家分會(BSC女科學家分會)副秘書長
  9. 2020—至今 Cell Reports Medicine 編委
  10. 2019—至今 中國動物學會生殖生物學分會 主任委員
  11. 2018—至今 Cell Proliferation 編委
  12. 2013—至今 Biology of Reproduction 編委
  13. 2016—2017 美國生殖研究學會 (SSR) 2017年年會組委會委員
  14. 2001—至今 美國生殖研究學會 (SSR) 會員

獲獎及榮譽:

  1. 2025年度國際幹細胞學會年會Anne McLaren Memorial Lecture 主旨報告人;
  2. 2025年度中國科學院大學李佩優秀教師獎;
  3. 2025年獲得國際幹細胞學會公共服務獎;
  4. 2025年度北京市三八紅旗獎章;
  5. 2024年入選北京市科學技術獎(自然科學獎)二等獎;
  6. 2024年獲“中國科學院三八紅旗手”稱號;
  7. 2023年入選“中國生命科學十大進展”;
  8. 2023年獲中國細胞生物學學會幹細胞生物學分會,幹細胞研究創新科學家獎;
  9. 2023年第五屆婦幼健康科學技術獎自然科學獎一等獎;
  10. 2023年中國實驗動物學會科學技術獎一等獎
  11. 2023年度中央和國家機關“四好”黨員;
  12. 2021年中國科學院大學教學科研工作“領雁銀獎、振翅獎”;
  13. 2020年度中國科學院優秀導師獎;
  14. 2020年“中國科學院朱李月華優秀教師獎”;
  15. 2017年中國婦幼保健協會,全國婦幼健康科學技術獎二等獎;
  16. 2009年獲中華人民共和國教育部自然科學獎二等獎;
  17. 2004年獲加拿大衛生研究院(CIHR)生殖健康科學戰略培訓計劃獎學金;
  18. 2002年獲中國科學院劉永齡獎;
  19. 2002年獲中國台南“組織重塑:生長、凋亡與分化”研討會優秀海報獎二等獎與三等獎

承擔科研項目情況:

代表論著:

(Notes: # indicates equal contribution;* indicates corresponding author;## indicates senior author.)

  1. Clark AT,Cook-Andersen H,Franklin S,Isasi R,Mathews DJH,Pasque V,Rugg-Gunn PJ,Tam PPL,Wang H,Zylicz JJ,Rossant J. Stem cell-based embryo models: The 2021 ISSCR stem cell guidelines revisited. Stem Cell Rep. 2025,20(6),102514.

(This Guidelines update underscores the ISSCR's steadfast commitment to proactively addressing the ethical and regulatory considerations that accompany scientific advances)

  1.  Qian Li#,Yang Yuan#,Wentao Zhao#,Yuanjun Li#,Juanzi Shi#,Yu Xiu#,Mi Han#,Junmei Zhang#,Yan Han,Shuhan Cheng,Xin Qi,Xizhuang Sun,Tan Jia,Jiaqi Xing,Siwei Deng,Xiaodi Yan,Seiya Oura,Hongfei Li,Ying Sun,Huiyao Yuan,Xiaohong Ma,Miaomiao Xin,Jianchao Zhao,Xili Zhu,Cong Wang,Qin Wang,Ge Lin,Xiaokui Yang*,Yulei Wei*,Jun Wu*,Wang H*,Leqian Yu*,A 3D In Vitro Model for Studying Human Implantation and Implantation Failures. Cell,2025 (Acceptance in principle)
  2. Guo Z#,Zhao W#,Wang H##,Zhai J*. (2025). Recent insights into the in vitro culture systems for mammalian embryos. Curr Opin Genet Dev. 2025;91:102309. (Invited Review)
  3. Clark AT*,Goolam M*,Hanna JH*,Long K*,Nicol D*,Petropoulos S*,Saitou M*,Tam PPL*,Wang H*. Human developmental biology - a global perspective. Development. 2024 Sep 1;151(17):dev203092. (Invited Perspective)
  4. Xu Y#,Zhai J#,Wu H#,Wang H*. In vitro culture of cynomolgus monkey embryos from blastocyst to early organogenesis. Nat. Protoc. 2024 Dec;19(12):3677-3696.
  5. Wu H#,Zhai J#,Wang H*. Unraveling the function of FGF signaling in human hypoblast specialization. Cell Stem Cell. 2024,31(7):945-946. (Invited Comment)
  6. Yan L#,Tu W#,Zhao X#,Wan H#,Wu J#,Zhao Y#,Wu J#,Sun Y#,Zhu L#,Qin Y#,Hu L#,Yang H#,Ke Q#,Zhang W#,Luo W#,Xiao Z#,Chen X#,Wu Q,He B,Teng M,Dai S,Zhai J,Wu H,Yang X*,Guo F*,Wang H*. Stem cell transplantation extends the reproductive life span of naturally aging cynomolgus monkeys. Cell Discov. 2024,10(1):111.
  7. Yu D#,Luo L#,Wang H*,Shyh-Chang N*. Pregnancy-induced metabolic reprogramming and regenerative responses to pro-aging stresses. Trends Endocrinol Metab. 2024,S1043-2760(24)00192-9. (Invited Review)
  8. Yu X#,Wu H#,Su J#,Liu X,Liang K,Li Q,Yu R,Shao X,Wang H*,Wang YL*,Shyh-Chang N*. Acetyl-CoA metabolism maintains histone acetylation for syncytialization of human placental trophoblast stem cells. Cell Stem Cell. 2024,31(9):1280-1297.e7.
  9. Wang Y#,Deng W#,Lee D#,Yan L#,Lu Y,Dong S,Huntoon K,Antony A,Li X,Ye R,Zhao Y,Zhao F,Schrank BR,Ha J,Kang M,Yang M,Gong P,Lorenzi PL,Tan L,Gallup TD,Tang SK,Yang Z,Li J,Sanford NN,Wang H*,Kim BYS*,Jiang W*. Age-associated disparity in phagocytic clearance affects the efficacy of cancer nanotherapeutics. Nat Nanotechnol. 2024,19,255-263.
  10. Yu D#,Wan H#,Tong C#,Guang L#,Chen G#,Su J#,Zhang L,Wang Y,Xiao Z,Zhai J,Ma W,Liang K,Liu T,Wang Y,Peng Z,Luo L,Yu R,Li W*,Qi H*,Wang H*,Shyh-Chang N*. A multi-tissue metabolome atlas reveals core signatures and critical nodes of metabolic reprogramming in female primates during pregnancy. Cell. 2024,187,764-781 e714.
  11. Wang M#,Liu Y#,Sun R#,Liu F#,Li J,Yan L,Zhang J,Xie X,Li D,Wang Y,Li S,Zhu X,Li R*,Lu F*,Xiao Z*,Wang H*. Single-nucleus multi-omic profiling of human placental syncytiotrophoblasts identifies cellular trajectories during pregnancy. Nat Genet. 2024,56,294-305.
  12. Wu X#,Zhai J#,Li Q#,Wang H*. The in vitro culture of mammalian embryos. Nat Method.2023,20,1855-1858. (Invited Comment,Selected for Method of the Year 2023: methods for modeling development)
  13. Wu H#,Huang XY#,Sun MX#,Wang Y#,Zhou HY#,Tian Y#,He BJ,Wu AP,Wang H*,Qin CF*. Zika virus targets human trophoblast stem cells and prevents syncytialization in placental trophoblast organoids. Nat Commun. 2023,14,5541.
  14. Wu X#,Zhao W#,Wu H#,Zhang Q#,Wang Y,Yu K,Zhai J,Mo F,Wang M,Li S,Zhu X,Liang X,Hu B,Liu GH,Wu J##,Wang H##,Guo F*,Yu L*. An aggregation of human embryonic and trophoblast stem cells reveals the role of trophectoderm on epiblast differentiation. Cell Prolif. 2023,e13492.
  15. Wu H#,Luo CX#,Rong Y,Yu RX,Zhao Y,Yan L*,Wang H*,Elucidating the dynamics of polypeptide hormones in the physiological and preeclampsic placental trophoblast cells across gestation at single-cell level. Life Med. 2023,2(3):8.
  16. Zhai J#,Xu Y#,Wan H#,Yan R#,Guo J#,Skory R#,Yan L,Wu X,Sun F,Chen G,Zhao W,Yu K,Li W*,Guo F*,Plachta N*,Wang H*. Neurulation of the cynomolgus monkey embryo achieved from 3D blastocyst culture. Cell. 2023,186(10),2078-2091.e18. (Cover Story)
  17. Jiang X #,Zhai J #,Xiao Z#,Wu X#,Zhang D#,Wan H,Xu Y,Qi L,Wang M,Yu D,Liu Y,Wu H,Sun R,Xia S,Yu K,Guo J,Wang H*. Identifying a dynamic transcriptomic landscape of the cynomolgus macaque placenta spanning during pregnancy at single-cell resolution. Dev Cell. 2023,58,806-821.
  18. Jiang X#*,Wang Y#,Xiao Z,Yan L,Guo S,Wang Y,Wu H,Zhao X,Lu X*,Wang H*. A differentiation roadmap of murine placentation at single-cell resolution. Cell Discov. 2023,9(1),30.
  19. Zhai J#,Guo J#,Wan H#,Qi L#,Liu L#,Xiao Z,Yan L,Schmitz DA,Xu Y,Yu D,Wu X,Zhao W,Yu K,Jiang X*,Guo F*,Wu J*,Wang H*. Primate gastrulation and early organogenesis at single-cell resolution. Nature. 2022,612(7941),732-738.
  20. Zhou JJ#,Jiang XX#,Wu HW#,Zhang LJ,Chen M,Chen M,Shen ZM,Guo XD*,Wang H*,Gao F*,Dissecting the fate of 1 Foxl2-expressing cells in fetal ovary using lineage tracing and Single-Cell Transcriptomics. Cell Discov. 2022,8(1),139.
  21. Yan R#,Cheng X#,Gu C#,Xu YH#,Long X#,Zhai JL,Sun FY,Qian JJ,Du YR,Wang H*,Guo F*,Dynamics of DNA hydroxymethylation and methylation during mouse embryonic and germline development. Nat Genet. 2023,55(1),130-143.
  22. Ma J#,Liu Y#,Guo Z#,Sun R#,Yang X,Zheng W,Ma Y,Rong Y,Wang H*,Yang H*,Xiao Z*. The diversity of trophoblast cells and niches of placenta accreta spectrum disorders revealed by single-cell RNA sequencing. Front Cell Dev Biol. 2022,10,1044198.
  23. Gu Z#,Guo J#,Zhai J#,Feng G,Wang X,Gao Z,Li K,Ji S,Wang L,Xu Y,Chen X,Wang Y,Guo S,Yang M,Li L,Hua H,Jiang L,Wen Y,Wang L,Hao J,Li W,Wang S,* Wang H*,Gu Q*. A Uterus-Inspired Niche Drives Blastocyst Development to the Early Organogenesis. Adv Sci (Weinh). 2022,9(28),e2202282.
  24. Tu W#,Ni D#,Yang H#,Zhao F#,Yang C#,Zhao X#,Guo Z#,Yu K,Wang J,Hu Z,Chen Z,Zhao Y,Wang Z,Gao F,Yan L*,Yang X*,Zhu L*,Wang H*. Deciphering the dynamics of the ovarian reserve in cynomolgus monkey through a quantitative morphometric study. Sci Bull. 2022,67(18),1854-1859.
  25. Yan L,Wang H*. Ketone bodies determine the female reproductive lifespan via regulating the ovarian reserve. Life Metab. 2022,Vol,1,Issue 2,101–102. (Research Highlight)
  26. Li Q#,Wu H#,Wang Y#, Wang H*,Current understanding in deciphering trophoblast cell differentiation during human placentation. Biol Reprod. 2022,107(1),317-326. (Invited Review)
  27. Wang Y#,Jiang X#,Jia L#,Wu X#,Wu H#,Wang Y,Li Q,Yu R,Wang H*,Xiao Z*,Liang X*. A Single-Cell Characterization of Human Post-implantation Embryos Cultured In Vitro Delineates Morphogenesis in Primary Syncytialization. Front Cell Dev Biol. 2022,10,835445.
  28. Wang Y#,Wu H#,Jiang X#,Jia L#,Wang M,Rong Y,Chen S,Wang Y,Xiao Z*,Liang X*,Wang H*. LMNA Determines Nuclear Morphology During Syncytialization of Human Trophoblast Stem Cells. Front Cell Dev Biol. 2022,10,836390.
  29. Zhai J#,Xiao Z#,Wang Y#,Wang H*. Human embryonic development: from peri-implantation to gastrulation. Trends Cell Biol. 2022,32(1),18-29. (Invited Review)
  30. Liang G#,Zhou C#,Jiang X#,Zhang Y,Huang B,Gao S,Kang Z,Ma D,Wang F,Gottgens B*,Wang H*,Han JJ*,Liu F*. De novo generation of macrophage from placenta-derived hemogenic endothelium. Dev Cell. 2021,56(14),2121-2133.
  31. Wu H#,Liao S#*,Wang Y#,Guo M#,Lin X,Wu J,Wang R,Lv D,Wu D,He M,Hu B,Long R,Peng J,Yang H,Yin H,Wang X,Huang Z,Lan K,Zhou Y,Zhang W,Xiao Z,Zhao Y*,Deng D*,Wang H*. Molecular evidence suggesting the persistence of residual SARS-CoV-2 and immune responses in the placentas of pregnant patients recovered from COVID-19. Cell Prolif. 2021,54(9),e13091.
  32. Li X#,Wang Y#,Ma R#,Liu X,Song B,Duan Y,Guo J,Feng G,Cui T,Wang L,Hao J*,Wang H*,Gu Q*. Reconstruction of functional uterine tissues through recellularizing the decellularized rat uterine scaffolds by MSCs in vivo and in vitro. Biomed Mater. 2021,16(3),035023.
  33. Qu Y#,Chen Q#,Guo S#,Ma C,Lu Y,Shi J,Liu S,Zhou T,Noda T,Qian J,Zhang L,Zhu X,Lei X,Cao Y,Li W,Li W,Plachta N,Matzuk MM,Ikawa M,Duan *E,Zhang Y*,Wang H*. Cooperation-based sperm clusters mediate sperm oviduct entry and fertilization. Protein Cell. 2021,12(10),810-817. (Letter)
  34. Cui D#,Liu Y#,Jiang X#,Ding C,Poon LC*,Wang H*,Yang H*. Single-cell RNA expression profiling of SARS-CoV-2-related ACE2 and TMPRSS2 in human trophectoderm and placenta. Ultrasound Obstet Gynecol. 2021,57(2),248-256.
  35. Zhao Y#,Ma J#,Yi P#,Wu J#,Zhao F,Tu W,Liu W,Li T,Deng Y,Hao J*,Wang H*,Yan L*. Human umbilical cord mesenchymal stem cells restore the ovarian metabolome and rescue premature ovarian insufficiency in mice. Stem Cell Res Ther. 2020,11(1),466.
  36. 王紅梅*. 哺乳動物早期胚胎發育研究進展和倫理. 生物醫學轉化 2020,1(1),35-42.
  37. Yan L#,Wu Y#,Li L#,Wu J#,Zhao F,Gao Z,Liu W,Li T,Fan Y*,Hao J*,Liu J*,Wang H*. Clinical analysis of human umbilical cord mesenchymal stem cell allotransplantation in patients with premature ovarian insufficiency. Cell Prolif. 2020,53(12),e12938.
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