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Neural xenografts contribute to long-term recovery in stroke via molecular graft-host crosstalk

R. Weber, Beatriz Achón Buil, Nora H. Rentsch, Patrick Perron, Stefanie Halliday, Allison Bosworth, Mingzi Zhang, Kassandra Kisler, Chantal Bodenmann, Kathrin J. Zürcher, Daniela Uhr, Debora Meier, Siri L. Peter, Melanie Generali, Shuo Lin, Markus A. Rüegg, Roger M. Nitsch, Christian Tackenberg, Ruslan Rust

2025Nature Communications12 citationsDOIOpen Access PDF

Abstract

Stroke remains a leading cause of disability due to the brain’s limited ability to regenerate damaged neural circuits. Here, we show that local transplantation of iPSC-derived neural progenitor cells (NPCs) improves brain repair and long-term functional recovery in stroke-injured mice. NPCs survive for over five weeks, differentiate primarily into mature neurons, and contribute to regeneration-associated tissue responses including angiogenesis, blood–brain barrier repair, reduced inflammation, and neurogenesis. NPC-treated mice show improved gait and fine-motor recovery, as quantified by deep learning-based analysis. Single-nucleus RNA sequencing reveals that grafts predominantly adopt GABAergic and glutamatergic phenotypes, with GABAergic cells engaging in graft-host crosstalk via neurexin, neuregulin, neural cell adhesion molecule, and SLIT signaling pathways. Our findings provide mechanistic insight into how neural xenografts interact with host stroke tissue to drive structural and functional repair. These results support the therapeutic potential of NPC transplantation for promoting long-term recovery after stroke. In this study, Weber et al., investigate the long-term survival and integration of human stem cell-derived neural progenitors into the stroke-injured mouse brains. They report grafted cells integrate into host circuits and mediate repair through graft-host crosstalk via neurexin, neuregulin, neural cell adhesion molecules, and SLIT signalling pathways.

Topics & Concepts

CrosstalkNeural stem cellGlutamatergicTransplantationNeuroscienceGABAergicProgenitor cellMedicineStroke (engine)Neural ProsthesisBiologyStroke recoveryNeural cellCell biologyProgenitorCellNeuroinflammation and Neurodegeneration MechanismsNeurogenesis and neuroplasticity mechanismsNerve injury and regeneration
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