Pvf1-Pvr-mediated crosstalk between trachea and gut guides intestinal stem cell migration to promote gut regeneration

D. J. Mackay; A. John; C. F. Christensen; E. Connolly; R. Loudhaief; A. B. Tanari; M. Rauzi; J. Colombani; D. S. Andersen

doi:10.1038/s41467-025-63704-8

Pvf1-Pvr-mediated crosstalk between trachea and gut guides intestinal stem cell migration to promote gut regeneration

D. J. Mackay, A. John, C. F. Christensen, E. Connolly, R. Loudhaief, A. B. Tanari, M. Rauzi, J. Colombani^*, D. S. Andersen^*

^*Corresponding author af dette arbejde

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

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Abstract

In adult tissues, stem cells (SCs) reside in specialized niches, where they remain relatively stationary state until activated by injury. While migration is essential for regeneration, mechanisms guiding SCs towards injury sites remain poorly understood due to challenges in tracking them in vivo. Here, we present an experimental framework to monitor intestinal SC (ISC) movement in real time during early gut regeneration. We identify the Drosophila PDGF-VEGF-related receptor, Pvr, as a critical regulator of this process, with ISC-specific Pvr depletion strongly impairing migration and regeneration. The ligand, Pvf1, produced by gut-associated trachea after damage, serves as a guidance cue directing ISCs towards injury sites. Our work highlights a critical role of gut-trachea crosstalk in guiding ISC migration during regeneration. As neovascularization of injury sites is a key feature of tissue repair in both flies and mammals, these findings could have broader implications for regenerative processes across diverse adult tissues.

Originalsprog	Engelsk
Artikelnummer	8597
Tidsskrift	Nature Communications
Vol/bind	16
Antal sider	14
ISSN	2041-1723
DOI	https://doi.org/10.1038/s41467-025-63704-8
Status	Udgivet - 2025

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10.1038/s41467-025-63704-8Licens: CC BY-NC-ND

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abstract = "In adult tissues, stem cells (SCs) reside in specialized niches, where they remain relatively stationary state until activated by injury. While migration is essential for regeneration, mechanisms guiding SCs towards injury sites remain poorly understood due to challenges in tracking them in vivo. Here, we present an experimental framework to monitor intestinal SC (ISC) movement in real time during early gut regeneration. We identify the Drosophila PDGF-VEGF-related receptor, Pvr, as a critical regulator of this process, with ISC-specific Pvr depletion strongly impairing migration and regeneration. The ligand, Pvf1, produced by gut-associated trachea after damage, serves as a guidance cue directing ISCs towards injury sites. Our work highlights a critical role of gut-trachea crosstalk in guiding ISC migration during regeneration. As neovascularization of injury sites is a key feature of tissue repair in both flies and mammals, these findings could have broader implications for regenerative processes across diverse adult tissues.",

author = "Mackay, {D. J.} and A. John and Christensen, {C. F.} and E. Connolly and R. Loudhaief and Tanari, {A. B.} and M. Rauzi and J. Colombani and Andersen, {D. S.}",

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T1 - Pvf1-Pvr-mediated crosstalk between trachea and gut guides intestinal stem cell migration to promote gut regeneration

AU - Mackay, D. J.

AU - John, A.

AU - Christensen, C. F.

AU - Connolly, E.

AU - Loudhaief, R.

AU - Tanari, A. B.

AU - Rauzi, M.

AU - Colombani, J.

AU - Andersen, D. S.

PY - 2025

Y1 - 2025

N2 - In adult tissues, stem cells (SCs) reside in specialized niches, where they remain relatively stationary state until activated by injury. While migration is essential for regeneration, mechanisms guiding SCs towards injury sites remain poorly understood due to challenges in tracking them in vivo. Here, we present an experimental framework to monitor intestinal SC (ISC) movement in real time during early gut regeneration. We identify the Drosophila PDGF-VEGF-related receptor, Pvr, as a critical regulator of this process, with ISC-specific Pvr depletion strongly impairing migration and regeneration. The ligand, Pvf1, produced by gut-associated trachea after damage, serves as a guidance cue directing ISCs towards injury sites. Our work highlights a critical role of gut-trachea crosstalk in guiding ISC migration during regeneration. As neovascularization of injury sites is a key feature of tissue repair in both flies and mammals, these findings could have broader implications for regenerative processes across diverse adult tissues.

AB - In adult tissues, stem cells (SCs) reside in specialized niches, where they remain relatively stationary state until activated by injury. While migration is essential for regeneration, mechanisms guiding SCs towards injury sites remain poorly understood due to challenges in tracking them in vivo. Here, we present an experimental framework to monitor intestinal SC (ISC) movement in real time during early gut regeneration. We identify the Drosophila PDGF-VEGF-related receptor, Pvr, as a critical regulator of this process, with ISC-specific Pvr depletion strongly impairing migration and regeneration. The ligand, Pvf1, produced by gut-associated trachea after damage, serves as a guidance cue directing ISCs towards injury sites. Our work highlights a critical role of gut-trachea crosstalk in guiding ISC migration during regeneration. As neovascularization of injury sites is a key feature of tissue repair in both flies and mammals, these findings could have broader implications for regenerative processes across diverse adult tissues.

U2 - 10.1038/s41467-025-63704-8

DO - 10.1038/s41467-025-63704-8

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SN - 2041-1723

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JO - Nature Communications

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