Driving regeneration, instead of healing, in adult mammals: the decisive role of resident macrophages through efferocytosis

Abstract Tissue repair after lesion usually leads to scar healing and thus loss of function in adult mammals. In contrast, other adult vertebrates such as amphibians have the ability to regenerate and restore tissue homeostasis after lesion. Understanding the control of the repair outcome is thus a...

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Bibliographic Details
Main Authors: Lise Rabiller, Virginie Robert, Adèle Arlat, Elodie Labit, Marielle Ousset, Marie Salon, Agnès Coste, Léa Da Costa-Fernandes, Paul Monsarrat, Bruno Ségui, Mireille André, Christophe Guissard, Marie-Laure Renoud, Marine Silva, Gilles Mithieux, Isabelle Raymond-Letron, Luc Pénicaud, Anne Lorsignol, Louis Casteilla, Cécile Dromard Berthézène, Béatrice Cousin
Format: Article
Language:English
Published: Nature Publishing Group 2021-08-01
Series:npj Regenerative Medicine
Online Access:https://doi.org/10.1038/s41536-021-00151-1
Description
Summary:Abstract Tissue repair after lesion usually leads to scar healing and thus loss of function in adult mammals. In contrast, other adult vertebrates such as amphibians have the ability to regenerate and restore tissue homeostasis after lesion. Understanding the control of the repair outcome is thus a concerning challenge for regenerative medicine. We recently developed a model of induced tissue regeneration in adult mice allowing the comparison of the early steps of regenerative and scar healing processes. By using studies of gain and loss of function, specific cell depletion approaches, and hematopoietic chimeras we demonstrate here that tissue regeneration in adult mammals depends on an early and transient peak of granulocyte producing reactive oxygen species and an efficient efferocytosis specifically by tissue-resident macrophages. These findings highlight key and early cellular pathways able to drive tissue repair towards regeneration in adult mammals.
ISSN:2057-3995