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find Keyword "brain microvascular endothelial cell" 1 results
  • Effect of NLRP3 gene silencing on expression of proinflammatory agents-induced inflammatory factors in rat brain microvascular endothelial cells

    Objective To study the effect of silencing the NOD-like receptor family, pyrin domain containing protein 3 (NLRP3) gene on the production of inflammatory factors induced by lipopolysaccharide (LPS) and adenosine triphosphate (ATP) in rat brain microvascular endothelial cells (BMECs), and whether NLRP3 inflammasome signaling pathway plays a role in the BMEC model of cerebral small vessel disease induced by proinflammatory agents. Methods BMECs from male Wistar rats were extracted in vitro and the morphology and purity of endothelial cells were identified. BMECs in normal culture were divided into blank control group and LPS+ATP group. The expression levels of NLRP3 inflammasome and downstream inflammatory factor Caspase-1 were detected by Western blot and real-time polymerase chain reaction, and compared by student’s t test between the two groups. Small interfering RNA (siRNA) was used to silence the specific gene NLRP3 in BMECs. After transfection of siRNA NLRP3 and siRNA plasmid negative control into BMECs, the transfected cells were divided into four groups, namely, siNC group (non silenced target gene), siNLRP3 group (silenced target gene), siNC+LPS+ATP group (non silenced target gene and added proinflammatory agents) and siNLRP3+LPS+ATP group (silenced target gene and added proinflammatory agents). The expression levels of NLRP3 and Caspase-1 were detected by Western blot and real-time polymerase chain reaction, and analyzed by analysis of variance for 2-factor factorial design. Results The microvascular segments of rat BMECs were “beaded” after 24 h of isolation and culture; after 48 h, “island” cell clusters were formed; after 72 h, “paving stone” like monolayer cells adhered to the wall and grew. After that, the cells gradually became dense and reached the convergence degree of 80%. The positive rate of BMECs detected by immunofluorescence staining was 96%. In the normally cultured cells, the protein and mRNA expression levels of NLRP3 and Caspase-1 in the LPS+ATP group were higher than those in the blank control group (P<0.05). In the RNA interference cultured cells, the protein and mRNA expression levels of NLRP3 and Caspase-1 in the siNLRP3 group were lower than those in the siNC group, and those expression levels in the siNLRP3+LPS+ATP group were lower than those in the siNC+LPS+ATP group (P<0.05); the protein and mRNA expression levels of NLRP3 and Caspase-1 in the siNC+LPS+ATP group were higher than those in the siNC group, and those expression levels in the siNLRP3+LPS+ATP group were higher than those in the siNLRP3 group (P<0.05). Plasmid transfection and proinflammatory agents intervention had statistically significant interaction effect on the mRNA expression of NLRP3 and Caspase-1 (P<0.05). Conclusions LPS and ATP can promote the release of NLRP3 and Caspase-1 in BMECs. Silencing NLRP3 gene expression can reduce the induction of proinflammatory agents. NLRP3 inflammasome signaling pathway may play a role in the cerebral small vessel disease cell model of rat BMECs induced by proinflammatory agents.

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