Kaohsiung Journal of Medical Sciences (Jul 2023)
lncRNA NEAT1 mediates LPS‐induced pyroptosis of BEAS‐2B cells via targeting miR‐26a‐5p/ROCK1 axis
Abstract
Abstract Acute lung injury (ALI) is an adverse disease of the respiratory system, and one of its prevalent causes is sepsis induction. Cell pyroptosis facilitates the progression of ALI and lncRNAs play critical roles in ALI. Thus, this research seeks to investigate the specific mechanism of NEAT1 in sepsis‐ALI.BEAS‐2B cells were exposed to lipopolysaccharide (LPS) to construct a cell model of sepsis‐induced ALI. The gene and protein expression were assessed using qRT‐PCR and western blot. Cell viability was identified by CCK‐8. Cell death was discovered using PI staining. The secretion of IL‐1β and IL‐18 was examined using ELISA. The interconnections among NEAT1, miR‐26a‐5p, and ROCK1 were confirmed using starbase, luciferase assay, and RIP.LPS treatment augmented NEAT1 and ROCK1 levels while mitigating miR‐26a‐5p level in BEAS‐2B cells. Additionally, LPS treatment facilitated cell death and cell pyroptosis, whereas NEAT1 silencing could reverse these effects in BEAS‐2B cells. Mechanistically, NEAT1 positively mediated ROCK1 expression by targeting miR‐26a‐5p. Furthermore, miR‐26a‐5p inhibitor offset NEAT1 depletion‐mediated suppressive effects on cell death and cell pyroptosis. ROCK1 upregulation decreased the inhibitory impacts produced by miR‐26a‐5p overexpression on cell death and cell pyroptosis. Our outcomes demonstrated NEAT1 could reinforce LPS‐induced cell death and cell pyroptosis by repressing the miR‐26a‐5p/ROCK1 axis, thereby worsening ALI caused by sepsis. Our data indicated NEAT1, miR‐26a‐5p, and ROCK1 might be biomarkers and target genes for relieving sepsis‐induced ALI.
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