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Zebrafish cutaneous injury models reveal that Langerhans cells engulf axonal debris in adult epidermis

Eric Peterman, Elgene J. A. Quitevis, Erik C. Black, Emma C. Horton, Rune L. Aelmore, Ethan White, Alvaro Sagasti, Jeffrey P. Rasmussen

2023Disease Models & Mechanisms18 citationsDOIOpen Access PDF

Abstract

Somatosensory neurons extend enormous peripheral axons to the skin, where they detect diverse environmental stimuli. Somatosensory peripheral axons are easily damaged due to their small caliber and superficial location. Axonal damage results in Wallerian degeneration, creating vast quantities of cellular debris that phagocytes must remove to maintain organ homeostasis. The cellular mechanisms that ensure efficient clearance of axon debris from stratified adult skin are unknown. Here, we established zebrafish scales as a tractable model to study axon degeneration in the adult epidermis. Using this system, we demonstrated that skin-resident immune cells known as Langerhans cells engulf the majority of axon debris. In contrast to immature skin, adult keratinocytes did not significantly contribute to debris removal, even in animals lacking Langerhans cells. Our study establishes a powerful new model for studying Wallerian degeneration and identifies a new function for Langerhans cells in maintenance of adult skin homeostasis following injury. These findings have important implications for pathologies that trigger somatosensory axon degeneration.

Topics & Concepts

Epidermis (zoology)ZebrafishBiologyAnatomyCell biologyPathologyMedicineBiochemistryGeneZebrafish Biomedical Research ApplicationsWnt/β-catenin signaling in development and cancerS100 Proteins and Annexins