Abstract
Irisin is a hormone‑like myokine that regulates cell signaling pathways and exerts anti‑inflammatory effects. However, the specific molecular mechanisms involved in this process are currently unknown. The present study explored the role and mechanisms underlying the functions of irisin in alleviating acute lung injury (ALI). The present study used MH‑S, an established murine alveolar macrophage‑derived cell line, and a mouse model of lipopolysaccharide (LPS)‑induced‑ALI to examine the efficacy of irisin against ALI invitro and invivo, respectively. Fibronectin typeIII repeat‑containing protein/irisin was expressed in the inflamed lung tissue, but not in normal lung tissue. Exogenous irisin reduced alveolar inflammatory cell infiltration and pro‑inflammatory factor secretion in mice following LPS stimulation. It also inhibited the polarization of M1‑type macrophages and promoted the repolarization of M2‑type macrophages, thus reducing the LPS‑induced production and secretion of interleukin (IL)‑1β, IL‑18 and tumor necrosis factor‑α. In addition, irisin reduced the release of the molecular chaperone heat shock protein90 (HSP90), inhibited the formation of nucleotide‑binding and oligomerization domain‑like receptor protein3 (NLRP3) inflammasome complexes, and decreased the expression of caspase‑1 and the cleavage of gasdermin D (GSDMD), leading to reduced pyroptosis and the accompanying inflammation. On the whole, the findings of the present study demonstrate that irisin attenuates ALI by inhibiting the HSP90/NLRP3/caspase‑1/GSDMD signaling pathway, reversing macrophage polarization and reducing the pyroptosis of macrophages. These findings provide a theoretical basis for understanding the role of irisin in the treatment of ALI and acute respiratory distress syndrome.
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