首页|期刊导航|陆军军医大学学报|GSTM5抑制骨髓增生异常综合征细胞铁死亡及其与NRF2/GPX4通路的协同研究

GSTM5抑制骨髓增生异常综合征细胞铁死亡及其与NRF2/GPX4通路的协同研究OA

GSTM5 inhibiting ferroptosis in myelodysplastic syndrome cells and its synergistic association with the NRF2/GPX4 pathway

中文摘要英文摘要

目的 骨髓增生异常综合征(myelodysplastic syndrome,MDS)以无效造血和铁死亡失调为特征,谷胱甘肽S-转移酶M5(glutathione S-transferase mu 5,GSTM5)在MDS中表达下调.本研究旨在验证 GSTM5是否通过激活 NF-E2 相关因子2(nuclear factor erythroid 2-related factor 2,NRF2)/谷胱甘肽过氧化酶4(glutathione peroxidase 4,GPX4)信号通路抑制MDS细胞铁死亡,并通过构建GSTM5过表达MDS细胞株结合蛋白质组学手段进行验证.方法 以人GSTM5全长cDNA序列构建慢病毒表达质粒pCDH-GSTM5,感染人MDS细胞系SKM-1并经筛选获得稳定过表达细胞株(GSTM5-LV)组,以空载体对照(NC-LV)组.采用Western blotting及RT-qPCR检测GSTM5及铁死亡相关基因在2组细胞中的蛋白与mRNA表达水平.通过液相色谱-质谱联用(LC-MS/MS)对2组差异表达蛋白进行鉴定与富集分析(含GO、KEGG及蛋白互作网络分析),并采用主成分分析(principal component analysis,PCA)评价组间差异.以10 μmol/L铁死亡激动剂Erastin处理2组细胞构建氧化应激模型,分别通过流式细胞术与荧光显微镜测定细胞活性氧(reactive oxygen species,ROS)水平、脂质过氧化程度(BODIPY 581/591 C11探针)及Fe2+含量,并以流式细胞术检测细胞周期分布;同步检测溶质载体家族7成员11(solute carrier family 7 member 11,SLC7A11)、GPX4、NRF2的蛋白及mRNA表达.进一步以NRF2激动剂富马酸二甲酯(dimethyl fumarate,DMF)处理细胞,检测 SLC7A11、转铁蛋白受体(transferrin receptor protein 1,TFRC)、铁蛋白重链(ferritin heavy chain,FTH1)、GPX4的蛋白及mRNA表达,以评价GSTM5与NRF2通路的协同作用.采用分子对接技术预测GSTM5与NRF2蛋白间的相互作用.各实验均独立重复3次(n=3).结果 蛋白质组学共鉴定7 377种蛋白质(FDR<0.01);以P<0.05、FC>1.5或<0.67为标准,GSTM5-LV组与NC-LV组间筛选出350个差异表达蛋白(上调212、下调138),其中GSTM5、GPX4、SLC7A11显著上调,TFRC显著下调.PCA显示2组明显分离,GO富集提示差异蛋白主要与翻译、核糖体亚基生物合成相关,并主要定位于细胞质与核糖体;KEGG通路富集分析显示差异蛋白主要富集于核糖体、铁死亡及谷胱甘肽代谢通路.表型实验证实,与对照组相比,过表达GSTM5显著降低了 MDS细胞内的ROS水平、脂质过氧化程度及Fe2+蓄积(均P<0.05,荧光显微镜与流式细胞术结果一致)并诱导细胞周期阻滞于GO/G1、S期,从而抑制铁死亡.在10 μmol/L Erastin应激模型中,GSTM5过表达组ROS、Fe2+及脂质过氧化的上升幅度均显著低于NC-LV组(P<0.05),拮抗了Erastin诱导的铁死亡.同时,GSTM5上调伴随NRF2及其下游靶基因(GPX4、SLC7A11、FTH1)蛋白与mRNA表达升高,TFRC表达下调(P<0.05).分子对接预测GSTM5与NRF2存在较强理论亲和力(最低结合能-10.1 kcal/mol)并形成多位点氢键.NRF2激动剂DMF与GSTM5过表达存在协同效应,二者联合处理组的脂质过氧化及Fe2+降低显著(P<0.05).结论 GSTM5过表达可显著抑制MDS细胞铁死亡,其机制可能与促进NRF2/GPX4的激活有关.GSTM5与NRF2激动剂DMF表现出协同效应,提示两者可能存在功能关联.本研究初步阐明了GSTM5在MDS细胞铁死亡中的保护作用,为改善MDS无效造血提供了新的理论依据与实验基础.

Objective Myelodysplastic syndrome(MDS)is characterized by ineffective hematopoiesis and dysregulated ferroptosis,with glutathione S-transferase mu 5(GSTM5)being downregulated.This study aims to verify whether GSTM5 inhibits ferroptosis in MDS cells by activating the nuclear factor erythroid 2-related factor 2(NRF2)/glutathione peroxidase 4(GPX4)signaling pathway,by constructing GSTM5-overexpressing MDS cell lines combined with proteomics analysis.Methods A lentiviral expression plasmid,pCDH-GSTM5,was constructed using the full-length cDNA sequence of human GSTM5 cDNA,which was used to infect the human MDS cell line SKM-1.After screening,a stable overexpression cell line was obtained(GSTM5-LV group),and the cells transfected with the empty vector served as the negative control(NC-LV group).The protein and mRNA expression levels of GSTM5 and ferroptosis-related genes in the 2 groups were determined by Western blotting and RT-qPCR.The differentially expressed proteins(DEPs)between the 2 groups were identified with liquid chromatography-mass spectrometry(LC-MS/MS),followed by enrichment analyses,including GO,KEGG,and protein-protein interaction(PPI)network analyses.Principal component analysis(PCA)was applied to evaluate intergroup differences.An oxidative stress model was established by treating the 2 groups of cells with 10 μmol/L ferroptosis inducer Erastin.Then intracellular reactive oxygen species(ROS)levels,lipid peroxidation(BODIPY 581/591 C11 probe),and Fe2+content were measured by flow cytometry and fluorescence microscopy,and cell cycle distribution was assessed by flow cytometry.Simultaneously,the protein and mRNA expression of solute carrier family 7 member 11(SLC7A11),GPX4,and NRF2 were detected.Furthermore,after treatment of NRF2 agonist dimethyl fumarate(DMF),the protein and mRNA expression levels of SLC7A11,transferrin receptor protein 1(TFRC),ferritin heavy chain(FTH1),and GPX4 were detected to evaluate the synergistic effect between GSTM5 and the NRF2 pathway.In addition,molecular docking was used to predict the interaction between the GSTM5 and NRF2 proteins.All experiments were performed independently in triplicate(n=3).Results A total of 7 377 proteins were identified by proteomics(FDR<0.01).Using P<0.05 and FC>1.5 or<0.67 as criteria,350 DEPs were screened between the GSTM5-LV and NC-LV groups(212 upregulated and 138 downregulated),among which GSTM5,GPX4,and SLC7A11 were significantly upregulated,whereas TFRC was significantly downregulated.PCA showed a clear separation between the 2 groups.GO enrichment analysis indicated that the DEPs were mainly associated with translation and ribosome biogenesis,and were predominantly localized in the cytoplasm and ribosomes.KEGG pathway enrichment analysis showed that they were mainly enriched in the ribosome,ferroptosis,and glutathione metabolism pathways.Phenotypic experiments confirmed that,compared with the control group,GSTM5 overexpression significantly reduced intracellular ROS levels,lipid peroxidation,and Fe2+accumulation in MDS cells(all P<0.05,with consistent results from fluorescence microscopy and flow cytometry),and induced cell cycle arrest at the G0/G1 and S phase,thereby inhibiting ferroptosis.In the 10 μmol/L Erastin-induced stress model,the increases in ROS,Fe2+,and lipid peroxidation in the GSTM5 overexpression group were significantly lower than those in NC-LV group(P<0.05),antagonizing Erastin-induced ferroptosis.Concurrently,GSTM5 upregulation was accompanied by increased protein and mRNA levels of NRF2 and its downstream target genes(GPX4,SLC7A11,and FTH1),and decreased TFRC expression(P<0.05).Molecular docking predicted a strong theoretical affinity between GSTM5 and NRF2(lowest binding energy of-10.1 kcal/mol)with the formation of multiple hydrogen bonds.The NRF2 agonist DMF showed a synergistic effect with GSTM5 overexpression,with the combined treatment group exhibiting pronounced reductions in lipid peroxidation and Fe2+(P<0.05).Conclusion GSTM5 overexpression significantly inhibits ferroptosis in MDS cells,and its mechanism may be related to promoting the activation of the NRF2/GPX4 pathway.GSTM5 exhibits a synergistic effect with the NRF2 agonist DMF,suggesting a possible functional association between the 2 molecules.This study preliminarily elucidates the protective role of GSTM5 against ferroptosis in MDS cells,providing a new theoretical basis and experimental foundation for ameliorating ineffective hematopoiesis in MDS.

常青;王立烨;韦玉洁;李绵洋

解放军总医院第一医学中心检验科,北京解放军总医院第一医学中心检验科,北京解放军总医院第一医学中心检验科,北京解放军总医院第一医学中心检验科,北京

医药卫生

谷胱甘肽转移酶骨髓增生异常综合征铁死亡氧化应激

glutathione transferasemyelodysplastic syndromeferroptosisoxidative stress

《陆军军医大学学报》 2026 (11)

1518-1531,14

国家自然科学基金面上项目(61971443) Supported by the General Program of National Natural Science Foundation of China(61971443).

10.16016/j.2097-0927.202512110

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