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Differential cytokine and DNA damage response of human lung tissue models to broad-beam and microbeam radiotherapy.
Cells 15:500 (2026)
Radiotherapy (RT) is a standard treatment for lung cancer; however, radiation-induced toxicities such as pneumonitis and fibrosis limit dose escalation and tumor control. Therefore, improved RT approaches are needed. This study investigated the radiation response of human ex vivo normal lung tissue using the three-dimensional EpiAlveolar™ model. Tissue models were irradiated with broad-beam (BB) and two spatially fractionated microbeam radiation therapy (MRT) dose metrics: equivalent uniform dose (MRT-EUD) and valley dose (MRT-valley). Our findings show that ex vivo lung tissue is able to tolerate peak doses of 36 Gy following MRT-EUD. On day 21, models effectively repaired significant DNA double-strand break (DSB) damage seen in the MRT-EUD-irradiated peak regions. In contrast, persistent unresolved DSBs were detected in MRT-valley-irradiated models 21 days post irradiation. Prolonged culture time resulted in cell loss and a reduction in epithelial cell layers. A significant upregulation of the pro-inflammatory cytokine IL6 was observed in both BB and MRT-EUD groups at 21 days. Fibrotic collagen deposition was detected in one BB-irradiated model but was absent in remaining BB- and MRT-treated tissues. Further investigation is required to clarify the potential and suitability of EpiAlveolar™ models for studying radiation-induced lung injury.
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Publication type
Article: Journal article
Document type
Scientific Article
Keywords
Ex Vivo ; Lung ; Fibrosis ; Microbeam ; In Vivo ; Cytokine ; Radiation Therapy ; Dna Damage; Radiation-therapy; Cancer; Mechanisms; Pneumonitis; Injury; Il-6
ISSN (print) / ISBN
2073-4409
e-ISSN
2073-4409
Journal
Cells
Quellenangaben
Volume: 15,
Issue: 6,
Article Number: 500
Publisher
MDPI
Publishing Place
Basel
Institute(s)
Institute of Radiation Medicine (IRM)
Grants
DFG
Deutsche Forschungsgemeinschaft (DFG, German Research foundation)
Deutsche Forschungsgemeinschaft (DFG, German Research foundation)