Data di Pubblicazione:
2025
Abstract:
Background
Recent evidence supports the hypothesis that eosinophilic inflammation is a relevant component in the pathogenesis of COPD.
Objective
The current study aimed to assess the effects of Benralizumab, on ex vivo “COPD smoke-induced” bronchial mucosa equivalents.
Methods
Three-dimensional (3D) composite ex-vivo bronchial mucosa are used to study the mechanisms of repair, regeneration and differentiation within the epithelial-mesenchymal trophic unit (EMTU). After a one month incubation in growth medium and basal membrane extracts, epithelial cells differentiate into ciliated and mucous-producing cells, and mesenchymal cells into fibroblasts. This culture model is induced to express an inflammatory phenotype through exposure to cigarette smoke extracts. Eosinophils (Eos) are placed underneath the connective layers, whereas monocytes are activated and monocyte conditioned medium (MCM) is collected. The inflammatory cells established a cross-talk with resident cells by cytokine productions. The protocol included four experimental conditions: untreated control (K), Eos only (EO), Eos+MCM (EOMO), Eos+MCM+Benralizumab (EMB).
Results
Cytokine concentrations at basal and apical side were analysed. At basal side, IL (interleukin)-5 significantly increased after the addition of eosinophils and monocytes, and decreased after the introduction of Benralizumab to the culture (after 14 days of treatment, K group: 14.6±3.2pg/mL; EO group: 13.9±4.2 pg/mL; EOMO group: 35.7±5.9pg/mL; EMB group: 14.04±4 pg/mL, p<0.005). The reduction persisted for the subsequent 14 days. IL-6 and IL-15 concentration was high in EOMO groups while EMB groups had a reduction in both interleukins concentration.
Conclusion
The findings described lead to speculate on a potential action of benralizumab on alternative inflammatory targets.
Recent evidence supports the hypothesis that eosinophilic inflammation is a relevant component in the pathogenesis of COPD.
Objective
The current study aimed to assess the effects of Benralizumab, on ex vivo “COPD smoke-induced” bronchial mucosa equivalents.
Methods
Three-dimensional (3D) composite ex-vivo bronchial mucosa are used to study the mechanisms of repair, regeneration and differentiation within the epithelial-mesenchymal trophic unit (EMTU). After a one month incubation in growth medium and basal membrane extracts, epithelial cells differentiate into ciliated and mucous-producing cells, and mesenchymal cells into fibroblasts. This culture model is induced to express an inflammatory phenotype through exposure to cigarette smoke extracts. Eosinophils (Eos) are placed underneath the connective layers, whereas monocytes are activated and monocyte conditioned medium (MCM) is collected. The inflammatory cells established a cross-talk with resident cells by cytokine productions. The protocol included four experimental conditions: untreated control (K), Eos only (EO), Eos+MCM (EOMO), Eos+MCM+Benralizumab (EMB).
Results
Cytokine concentrations at basal and apical side were analysed. At basal side, IL (interleukin)-5 significantly increased after the addition of eosinophils and monocytes, and decreased after the introduction of Benralizumab to the culture (after 14 days of treatment, K group: 14.6±3.2pg/mL; EO group: 13.9±4.2 pg/mL; EOMO group: 35.7±5.9pg/mL; EMB group: 14.04±4 pg/mL, p<0.005). The reduction persisted for the subsequent 14 days. IL-6 and IL-15 concentration was high in EOMO groups while EMB groups had a reduction in both interleukins concentration.
Conclusion
The findings described lead to speculate on a potential action of benralizumab on alternative inflammatory targets.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
COPD Pharmacology
Eosinophil Biology
Airway Epithelium
Cytokine Biology
Elenco autori:
Benfante, Alida; Tomasello, Alessandra; Pitruzzella, Alessandro; Fucarino, Alberto; Marchese, Roberto; Bucchieri, Fabio; Scichilone, Nicola
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