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Harnessing macrophage-drug conjugates for allogeneic cell-based therapy of solid tumors via the TRAIN mechanism

Author

Listed:
  • Bartlomiej Taciak

    (Cellis AG
    Warsaw University of Life Sciences)

  • Maciej Bialasek

    (Cellis AG
    Warsaw University of Life Sciences)

  • Malgorzata Kubiak

    (Cellis AG
    Warsaw University of Life Sciences)

  • Ilona Marszalek

    (Cellis AG)

  • Malgorzata Gorczak

    (Cellis AG
    Warsaw University of Life Sciences)

  • Olha Osadchuk

    (Cellis AG)

  • Daria Kurpiel

    (Cellis AG)

  • Damian Strzemecki

    (Cellis AG)

  • Karolina Barwik

    (Cellis AG)

  • Marcin Skorzynski

    (Polish Academy of Sciences)

  • Julia Nowakowska

    (Cellis AG
    Warsaw University of Life Sciences)

  • Waldemar Lipiński

    (Cellis AG)

  • Łukasz Kiraga

    (Cellis AG
    Warsaw University of Life Sciences)

  • Jan Brancewicz

    (Cellis AG)

  • Robert Klopfleisch

    (Free University of Berlin)

  • Łukasz Krzemiński

    (Biosens Labs Sp. z o.o)

  • Emilia Gorka

    (Cellis AG
    Warsaw University of Life Sciences)

  • Anna Smolarska

    (Warsaw University of Life Sciences)

  • Irena Padzinska-Pruszynska

    (Warsaw University of Life Sciences)

  • Małgorzata Siemińska

    (Cellis AG)

  • Jakub Guzek

    (Warsaw University of Life Sciences)

  • Jan Kutner

    (Polish Academy of Sciences)

  • Marlena Kisiala

    (University of Warsaw)

  • Krzysztof Wozniak

    (University of Warsaw)

  • Giacomo Parisi

    (Sapienza University of Rome
    Institute of Italian Technology)

  • Roberta Piacentini

    (Sapienza University of Rome
    Institute of Italian Technology)

  • Luca Cassetta

    (University of Edinburgh)

  • Lesley M. Forrester

    (University of Edinburgh)

  • Lubomir Bodnar

    (Cellis AG
    Siedlce University of Natural Sciences and Humanities)

  • Tobias Weiss

    (University Hospital and University of Zurich)

  • Alberto Boffi

    (Cellis AG
    Sapienza University of Rome
    Institute of Italian Technology)

  • Paulina Kucharzewska

    (Cellis AG
    Warsaw University of Life Sciences)

  • Tomasz P. Rygiel

    (Cellis AG
    Polish Academy of Sciences)

  • Magdalena Krol

    (Cellis AG
    Warsaw University of Life Sciences)

Abstract

Treatment of solid tumors remains challenging and therapeutic strategies require continuous development. Tumor-infiltrating macrophages play a pivotal role in tumor dynamics. Here, we present a Macrophage-Drug Conjugate (MDC) platform technology that enables loading macrophages with ferritin-drug complexes. We first show that macrophages actively take up human heavy chain ferritin (HFt) in vitro via macrophage scavenger receptor 1 (MSR1). We further manifest that drug-loaded macrophages transfer ferritin to adjacent cancer cells through a process termed ‘TRAnsfer of Iron-binding protein’ (TRAIN). The TRAIN process requires direct cell-to-cell contact and an immune synapse-like structure. At last, MDCs with various anti-cancer drugs are formulated with their safety and anti-tumor efficacy validated in multiple syngeneic mice and orthotopic human tumor models via different routes of administration. Importantly, MDCs can be prepared in advance and used as thawed products, supporting their clinical applicability. This MDC approach thus represents a promising advancement in the therapeutic landscape for solid tumors.

Suggested Citation

  • Bartlomiej Taciak & Maciej Bialasek & Malgorzata Kubiak & Ilona Marszalek & Malgorzata Gorczak & Olha Osadchuk & Daria Kurpiel & Damian Strzemecki & Karolina Barwik & Marcin Skorzynski & Julia Nowakow, 2025. "Harnessing macrophage-drug conjugates for allogeneic cell-based therapy of solid tumors via the TRAIN mechanism," Nature Communications, Nature, vol. 16(1), pages 1-30, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-56637-9
    DOI: 10.1038/s41467-025-56637-9
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    References listed on IDEAS

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    1. Munitta Muthana & Aneurin J. Kennerley & Russell Hughes & Ester Fagnano & Jay Richardson & Melanie Paul & Craig Murdoch & Fiona Wright & Christopher Payne & Mark F. Lythgoe & Neil Farrow & Jon Dobson , 2015. "Directing cell therapy to anatomic target sites in vivo with magnetic resonance targeting," Nature Communications, Nature, vol. 6(1), pages 1-11, November.
    2. Asm Shihavuddin & Sreetama Basu & Elton Rexhepaj & Felipe Delestro & Nikita Menezes & Séverine M Sigoillot & Elaine Del Nery & Fekrije Selimi & Nathalie Spassky & Auguste Genovesio, 2017. "Smooth 2D manifold extraction from 3D image stack," Nature Communications, Nature, vol. 8(1), pages 1-8, August.
    3. Yanjuan Huang & Zilin Guan & Xiuling Dai & Yifeng Shen & Qin Wei & Lingling Ren & Jingwen Jiang & Zhanghong Xiao & Yali Jiang & Di Liu & Zeqian Huang & Xiaoyu Xu & Yong Luo & Chunshun Zhao, 2021. "Engineered macrophages as near-infrared light activated drug vectors for chemo-photodynamic therapy of primary and bone metastatic breast cancer," Nature Communications, Nature, vol. 12(1), pages 1-22, December.
    4. Linda Celeste Montemiglio & Claudia Testi & Pierpaolo Ceci & Elisabetta Falvo & Martina Pitea & Carmelinda Savino & Alessandro Arcovito & Giovanna Peruzzi & Paola Baiocco & Filippo Mancia & Alberto Bo, 2019. "Cryo-EM structure of the human ferritin–transferrin receptor 1 complex," Nature Communications, Nature, vol. 10(1), pages 1-8, December.
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