Conclusions
Tuberostemonine is considered as a modulator to alleviate fibrosis and may become a new renovation for pulmonary fibrosis.
Methods
In vitro, we assessed the effect of tuberostemonine (350, 550 and 750 µM) on the proliferation of cells stimulated by TGF-β1 (10 μg/L), as well as on parameters such as α-SMA vitality, human fibronectin, collagen, and hydroxyproline levels in cells. In vivo, we analyzed inflammation, hydroxyproline, collagen activity and metabolomics in the lungs of mice. Additionally, a comprehensive investigation into the TGF-β/smad signaling pathway was undertaken, targeting lung tissue as well as HFL cells.
Results
Within the confines of an in vitro setup, the tuberostemonine manifested a discerned IC50 of 1.9 mM. Furthermore, a significant reduction of over fifty percent was ascertained in the secretion levels of hydroxyproline, fibronectin, collagen type I, collagen type III and α-SMA. In vivo, tuberostemonine obviously improved the respiratory function percentage over 50% of animal model and decreased the hydroxyproline, lung inflammation and collagen deposition. A prominent decline in TGF-β/smad pathway functioning was identified within both the internal and external cellular contexts. Conclusions: Tuberostemonine is considered as a modulator to alleviate fibrosis and may become a new renovation for pulmonary fibrosis.