Tissue-resident macrophages specifically express Lactotransferrin and Vegfc during ear pinna regeneration in spiny mice
Document Type
Article
Publication Date
1-15-2024
Publication Title
Developmental Cell
Abstract
The details of how macrophages control different healing trajectories (regeneration vs. scar formation) remain poorly defined. Spiny mice (Acomys spp.) can regenerate external ear pinnae tissue, whereas lab mice (Mus musculus) form scar tissue in response to an identical injury. Here, we used this dual species system to dissect macrophage phenotypes between healing modes. We identified secreted factors from activated Acomys macrophages that induce a pro-regenerative phenotype in fibroblasts from both species. Transcriptional profiling of Acomys macrophages and subsequent in vitro tests identified VEGFC, PDGFA, and Lactotransferrin (LTF) as potential pro-regenerative modulators. Examining macrophages in vivo, we found that Acomys-resident macrophages secreted VEGFC and LTF, whereas Mus macrophages do not. Lastly, we demonstrate the requirement for VEGFC during regeneration and find that interrupting lymphangiogenesis delays blastema and new tissue formation. Together, our results demonstrate that cell-autonomous mechanisms govern how macrophages react to the same stimuli to differentially produce factors that facilitate regeneration.
First Page
496
Last Page
516
PubMed ID
38228141
Volume
59
Issue
4
Recommended Citation
Simkin, Jennifer; Aloysius, Ajoy; Adam, Mike; Safaee, Fatemeh; Donahue, Renée R.; Biswas, Shishir; Lakhani, Zohaib; Gensel, John C.; Thybert, David; Potter, Steven; and Seifert, Ashley W., "Tissue-resident macrophages specifically express Lactotransferrin and Vegfc during ear pinna regeneration in spiny mice" (2024). School of Medicine Faculty Publications. 2316.
https://digitalscholar.lsuhsc.edu/som_facpubs/2316
10.1016/j.devcel.2023.12.017