[The mechanism of SSO regulating SiO(2)-induced lipid metabolism disorders in macrophages was explored based on lipid metabolomics].

Y S Zhang, H L He, R Qi, J Yang, H L Wang, H L Liu
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Abstract

Objective: To investigate the mechanism of Sulfo-N-succinimidyloleate (SSO) regulating lipid metabolism disorder induced by silicon dioxide (SiO(2)) . Methods: In March 2023, Rat alveolar macrophages NR8383 were cultured in vitro and randomly divided into control group (C), SSO exposure group (SSO), SiO(2) exposure group (SiO(2)) and SiO(2)+SSO exposure group (SiO(2)+SSO). NR8383 cells were exposure separately or jointly by SSO and SiO(2) for 36 h to construct cell models. Immunofluorescence and BODIPY 493/ 503 staining were used to detect cluster of differentiation (CD36) and intracellular lipid levels, the protein expression levels of CD36, liver X receptors (LXR), P-mammalian target of rapamycin (P-mTOR) and cholinephosphotransferase 1 (CHPT1) were detected by Western blot, respectively, and lipid metabolomics was used to screen for different lipid metabolites and enrichment pathways. Single-factor ANOVA was used for multi-group comparison, and LSD test was used for pair-to-group comparison. Results: SiO(2) caused the expression of CD36 and P-mTOR to increase (P=0.012, 0.020), the expression of LXR to decrease (P=0.005), and the intracellular lipid level to increase. After SSO treatment, CD36 expression decreased (P=0.023) and LXR expression increased (P=0.000) in SiO(2)+SSO exposure group compared with SiO(2) exposure group. Metabolomics identified 87 different metabolites in the C group and SiO(2) exposure group, 19 different metabolites in the SiO(2) exposure group and SiO(2)+SSO group, and 5 overlaps of different metabolites in the two comparison groups, they are PS (22∶1/14∶0), DG (O-16∶0/18∶0/0∶0), PGP (i-13∶0/i-20∶0), PC (18∶3/16∶0), and Sphinganine. In addition, the differential metabolites of the two comparison groups were mainly concentrated in the glycerophospholipid metabolism and sphingolipid metabolism pathways. The differential gene CHPT1 in glycerophospholipid metabolic pathway was verified, and the expression of CHPT1 decreased after SiO(2) exposure. Conclusion: SSO may improve SiO(2)-induced lipid metabolism disorders by regulating PS (22∶1/14∶0), DG (O-16∶0/18∶0/0∶0), PGP (i-13∶0/i-20∶0), PC (18∶3/16∶0), SPA, glycerophospholipid metabolism and sphingolipid metabolism pathways.

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[基于脂质代谢组学探讨了 SSO 调节 SiO(2)诱导的巨噬细胞脂质代谢紊乱的机制]。
目的研究Sulfo-N-琥珀酰亚胺酸盐(SSO)调节二氧化硅(SiO(2))诱导的脂质代谢紊乱的机制。方法:2023年3月,体外培养大鼠肺泡巨噬细胞NR8383,随机分为对照组(C)、SSO暴露组(SSO)、SiO(2)暴露组(SiO(2))和SiO(2)+SSO暴露组(SiO(2)+SSO)。将 NR8383 细胞分别或同时暴露于 SSO 和 SiO(2) 36 小时以构建细胞模型。免疫荧光和BODIPY 493/ 503染色检测细胞分化簇(CD36)和细胞内脂质水平,Western印迹分别检测CD36、肝X受体(LXR)、P-哺乳动物雷帕霉素靶(P-mTOR)和胆碱磷酸转移酶1(CHPT1)的蛋白表达水平,脂质代谢组学筛选不同的脂质代谢物和富集途径。多组比较采用单因素方差分析,组间比较采用 LSD 检验。结果表明SiO(2)导致CD36和P-mTOR表达增加(P=0.012,0.020),LXR表达减少(P=0.005),细胞内脂质水平升高。与SiO(2)暴露组相比,SiO(2)+SSO暴露组的CD36表达量减少(P=0.023),LXR表达量增加(P=0.000)。代谢组学在C组和SiO(2)暴露组中发现了87种不同的代谢物,在SiO(2)暴露组和SiO(2)+SSO组中发现了19种不同的代谢物、而在两个对比组中有 5 个不同代谢物重叠,它们分别是 PS(22∶1/14∶0)、DG(O-16∶0/18∶0/0∶0)、PGP(i-13∶0/i-20∶0)、PC(18∶3/16∶0)和 Sphinganine。此外,两个对比组的差异代谢物主要集中在甘油磷脂代谢和鞘脂代谢途径。甘油磷脂代谢途径中的差异基因CHPT1得到了验证,且CHPT1的表达量在接触SiO(2)后有所下降。结论SSO可通过调节PS(22∶1/14∶0)、DG(O-16∶0/18∶0/0∶0)、PGP(i-13∶0/i-20∶0)、PC(18∶3/16∶0)、SPA、甘油磷脂代谢和鞘脂代谢途径,改善SiO(2)诱导的脂质代谢紊乱。
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来源期刊
中华劳动卫生职业病杂志
中华劳动卫生职业病杂志 Medicine-Medicine (all)
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