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An NF-kB/TNF-alpha signalling feedback loop acts to coordinate tissue regeneration and macrophage behaviour in zebrafish

Kalliopi Arkoudi, Yue Yuan, Antonia Pia Cumine, Carlene Dyer, Elisabeth M. Busch‐Nentwich, Isabel Bravo, Yi Feng, Rob Knight

2025npj Regenerative Medicine15 citationsDOIOpen Access PDF

Abstract

Inflammatory cells are crucial regulators of infection and regeneration that actively migrate to affected tissues. NF-kB and TNF-alpha (TNFα) are master regulators of immune signalling, but their importance for immune cell migration is much less well understood. We have therefore investigated how NF-kB and TNFα regulate both macrophage function and behaviour in vivo using a zebrafish model of tissue repair. We show that NF-kB activity differentially regulates TNFα activity through Tnf receptors 1a and 1b to control macrophage responses to injury. Loss of NF-kB in macrophages results in elevated TNFα expression and results in more directional migration. Impaired NF-kB activity in macrophages perturbs tissue regeneration, causes increased proliferation, altered pro- and anti-inflammatory gene expression and delays fin regeneration. We identify a crucial role for NF-kB modulation of TNFα signaling to regulate macrophage responses to tissue injury, which are necessary for effective fin regeneration.

Topics & Concepts

ZebrafishRegeneration (biology)Cell biologyMacrophageAlpha (finance)BiologyTumor necrosis factor alphaNeuroscienceImmunologyMedicineBiochemistryIn vitroPatient satisfactionConstruct validityNursingGeneImmune cells in cancerZebrafish Biomedical Research ApplicationsMicroRNA in disease regulation
An NF-kB/TNF-alpha signalling feedback loop acts to coordinate tissue regeneration and macrophage behaviour in zebrafish | Litcius