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EGF-conditioned M1 macrophages Convey reduced inflammation into corneal endothelial cells through exosomes

Soojin Lee, Seung Hyeun Lee, Ahra Koh, Kyoung Woo Kim

2024Heliyon16 citationsDOIOpen Access PDF

Abstract

Epidermal Growth Factor (EGF), a protein pivotal in cell proliferation and survival, has recently shown promise in alleviating inflammation. This study investigates EGF's impact on M1 macrophages, exploring its potential for anti-inflammatory and anti-vasculogenic interactions with corneal endothelial cells (CECs). Polarized M1 macrophages treated with EGF exhibited a suppression of gene expressions related to inflammatory and vasculogenic signals. The anti-inflammatory effects of EGF were observed in co-culture systems with human CECs (HCECs), showcasing its ability to alter macrophage phenotypes. Exosomes derived from EGF-treated M1 macrophages demonstrated enriched proteomic profiles related to immune system regulation and inflammation inhibition. When applied as eye drops in murine corneas, EGF-conditioned M1 macrophage-derived exosomes effectively reduced inflammation and increased M2-related ARG1 expression. This study highlights EGF's potential in mitigating inflammation in M1 macrophages and its delivery through exosomes to cultured HCECs and murine corneas, suggesting a novel therapeutic avenue for ocular surface anti-inflammatory treatments.

Topics & Concepts

InflammationMicrovesiclesMacrophageEpidermal growth factorImmune systemImmunologyCell biologyAngiogenesisCorneal inflammationBiologyCancer researchCell culturemicroRNAIn vitroBiochemistryGeneGeneticsExtracellular vesicles in diseaseImmunotherapy and Immune ResponsesOcular Surface and Contact Lens
EGF-conditioned M1 macrophages Convey reduced inflammation into corneal endothelial cells through exosomes | Litcius