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Modularity-based mathematical modeling of ligand inter-nanocluster connectivity for unraveling reversible stem cell regulation

Author

Listed:
  • Chowon Kim

    (Korea University)

  • Nayeon Kang

    (Korea University)

  • Sunhong Min

    (Korea University)

  • Ramar Thangam

    (Korea University)

  • Sungkyu Lee

    (Korea University)

  • Hyunsik Hong

    (Korea University)

  • Kanghyeon Kim

    (Korea University)

  • Seong Yeol Kim

    (Korea University)

  • Dahee Kim

    (Korea University)

  • Hyunji Rha

    (Korea University)

  • Kyong-Ryol Tag

    (Korea University
    Korea Institute of Science and Technology (KIST))

  • Hyun-Jeong Lee

    (Korea University
    Korea Institute of Science and Technology (KIST))

  • Nem Singh

    (Korea University
    Korea University)

  • Daun Jeong

    (Korea University Anam Hospital)

  • Jangsun Hwang

    (Korea University Anam Hospital)

  • Yuri Kim

    (Korea University)

  • Sangwoo Park

    (Korea University)

  • Hyesung Lee

    (Yonsei University)

  • Taeeon Kim

    (Korea Institute of Materials Science (KIMS)
    Korea University)

  • Sang Wook Son

    (Korea University College of Medicine)

  • Steve Park

    (Korea Advanced Institute of Science and Technology (KAIST))

  • Solmaz Karamikamkar

    (Terasaki Institute for Biomedical Innovation)

  • Yangzhi Zhu

    (Terasaki Institute for Biomedical Innovation)

  • Alireza Hassani Najafabadi

    (Terasaki Institute for Biomedical Innovation)

  • Zhiqin Chu

    (The University of Hong Kong)

  • Wujin Sun

    (Virginia Tech)

  • Pengchao Zhao

    (South China University of Technology)

  • Kunyu Zhang

    (South China University of Technology)

  • Liming Bian

    (South China University of Technology)

  • Hyun-Cheol Song

    (Korea Institute of Science and Technology (KIST)
    Sungkyunkwan University (SKKU))

  • Sung-Gyu Park

    (Korea Institute of Materials Science (KIMS)
    Korea University)

  • Jong Seung Kim

    (Korea University)

  • Sang-Yup Lee

    (Korea Institute of Materials Science (KIMS))

  • Jae-Pyoung Ahn

    (Korea Institute of Science and Technology (KIST))

  • Hong-Kyu Kim

    (Korea Institute of Science and Technology (KIST))

  • Yu Shrike Zhang

    (Brigham and Women’s Hospital Harvard Medical School)

  • Heemin Kang

    (Korea University
    Korea University
    Korea University)

Abstract

The native extracellular matrix is continuously remodeled to form complex interconnected network structures that reversibly regulate stem cell behaviors. Both regulation and understanding of its intricate dynamicity can help to modulate numerous cell behaviors. However, neither of these has yet been achieved due to the lack of designing and modeling such complex structures with dynamic controllability. Here we report modularity-based mathematical modeling of extracellular matrix-emulating ligand inter-cluster connectivity using the graph theory. Increasing anisotropy of magnetic nano-blockers proportionately disconnects arginine-glycine-aspartic acid ligand-to-ligand interconnections and decreases the number of ligand inter-cluster edges. This phenomenon deactivates stem cells, which can be partly activated by linearizing the nano-blockers. Remote cyclic elevation of high-anisotropy nano-blockers flexibly generates nano-gaps under the nano-blockers and augments the number of ligand inter-cluster edges. Subsequently, integrin-presenting stem cell infiltration is stimulated, which reversibly intensifies focal adhesion and mechanotransduction-driven differentiation both in vitro and in vivo. Designing and systemically modeling extracellular matrix-mimetic geometries opens avenues for unraveling dynamic cell-material interactions for tissue regeneration.

Suggested Citation

  • Chowon Kim & Nayeon Kang & Sunhong Min & Ramar Thangam & Sungkyu Lee & Hyunsik Hong & Kanghyeon Kim & Seong Yeol Kim & Dahee Kim & Hyunji Rha & Kyong-Ryol Tag & Hyun-Jeong Lee & Nem Singh & Daun Jeong, 2024. "Modularity-based mathematical modeling of ligand inter-nanocluster connectivity for unraveling reversible stem cell regulation," Nature Communications, Nature, vol. 15(1), pages 1-22, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-54557-8
    DOI: 10.1038/s41467-024-54557-8
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    References listed on IDEAS

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