中国农业科学2025,Vol.58Issue(8):1641-1652,12.DOI:10.3864/j.issn.0578-1752.2025.08.014
SCD5通过TRIM15调控脂滴数量的机制研究
Mechanistic Study of SCD5 Regulation of Lipid Droplet Quantity via TRIM15
摘要
Abstract
[Background]Fat deposition plays a critical role in determining pork quality traits such as flavor,tenderness,and color.Stearoyl-CoA desaturase(SCD)is a key enzyme involved in the regulation of lipid metabolism.Among its family members,stearoyl-CoA desaturase 5(SCD5)functions as a rate-limiting enzyme for the synthesis of monounsaturated fatty acids(MUFAs),thereby influencing fatty acid composition and triacylglycerol(TAG)content.However,the specific role of SCD5 in the biogenesis of lipid droplets(LD)remains unclear.Tripartite motif-containing 15(TRIM15),a member of the tripartite motif protein family,has been shown to affect LD biogenesis by modulating TAG metabolism.Notably,the expression of TRIM15 is significantly downregulated upon SCD5 deletion,suggesting a potential regulatory relationship between the two.Nevertheless,the exact mechanism of their interaction during LD formation remains to be elucidated.[Objective]This study aims to investigate the regulatory role of SCD5 in LD biogenesis and to determine whether SCD5 mediates LD formation and accumulation through TRIM15.The goal is to further elucidate the molecular mechanisms by which SCD5 regulates lipid metabolism,thereby providing a theoretical basis for the genetic improvement of pork quality traits.[Method]In this study,we utilized CRISPR/Cas9 technology to construct an SCD5 knockout cell line from porcine kidney cells(PK-15).We also established an SCD5-overexpressing PK-15 cell line by transfecting an SCD5 overexpression vector and overexpressed SCD5 in mouse adult myoblasts(C2C12).Lipid droplet content was analyzed via flow cytometry with Bodipy staining,and the number of lipid droplets was assessed using Bodipy staining,confocal microscopy,and oil red O staining to study SCD5's role in lipid droplet biogenesis.RNA-seq analysis of PK-15 SCD5-deficient cells showed significant downregulation of TRIM15.The expression of TRIM15 was confirmed by RT-qPCR and Western blot.To further investigate the roles of SCD5 and TRIM15 in lipid droplet biogenesis,a TRIM15 overexpression vector was constructed and introduced into PK-15 SCD5-deficient cells,exploring the role of SCD5 and TRIM15 in LD biogenesis.[Result]Flow cytometry analysis with Bodipy staining demonstrated that SCD5 deletion significantly reduced lipid droplet content,whereas SCD5 overexpression significantly increased it in PK-15 cells.Similar results were observed with SCD5 overexpression in C2C12 cells.Confocal imaging with Bodipy staining and oil red O staining revealed that SCD5 deletion significantly reduced the number of lipid droplets(LDs)in PK-15 cells.Overexpression of SCD5 in C2C12 cells produced similar results.RNA-seq analysis of PK-15 SCD5-deficient cells,combined with GO and KEGG enrichment analyses,indicated that SCD5 is involved in multicellular development and lipid metabolism pathways,suggesting its regulatory role in lipid metabolism.Gene analysis related to lipid metabolism identified TRIM15 as the most significantly downregulated gene,suggesting that SCD5 may regulate lipid metabolism via TRIM15.Overexpression of TRIM15 in SCD5-deficient PK-15 cells was assessed using Bodipy-stained flow cytometry,confocal imaging,and oil red O staining.The results showed that TRIM15 overexpression restored lipid droplet content and significantly increased the number of LDs in SCD5-deficient cells.[Conclusion]In summary,this study demonstrated that SCD5 mediates LD biogenesis and regulates LD quantity by modulating TRIM15 expression,thereby controlling fat deposition.These findings provide theoretical support for improving pork quality.关键词
SCD5/TRIM15/脂滴/脂质代谢Key words
SCD5/TRIM15/Lipid droplets/Lipid metabolism引用本文复制引用
白文哲,李继豪,方钱海,张帆,胡睿祺,陈洪波,毕延震,王锐..SCD5通过TRIM15调控脂滴数量的机制研究[J].中国农业科学,2025,58(8):1641-1652,12.基金项目
农业生物育种重大项目(2023ZD0404703)、国家自然科学基金(32472882)、湖北省自然科学基金创新群体项目(2024AFA027)、湖北省重点研发计划(2023BBB032)、湖北省农业关键核心技术攻关项目(HBNYHXGG2023-7)、湖北省生猪种业高质量发展项目(HBZY2023B006-04) (2023ZD0404703)
