Objective:To investigate the relationship between oxidative stress-related genes and pros-tate cancer(PCa)from a multi-omics perspective using summary-data-based Mendelian randomization(SMR),colocalization analysis,and cellular experiments.Methods:Summary-level data on DNA methylation,gene expression,and circulating proteins were obtained and filtered.The PRACTICAL con-sortium was used as the discovery cohort,with the deCODE database serving as the validation cohort.SMR analysis and heterogeneity in dependent instruments(HEIDI)tests were conducted to assess the association and heterogeneity between oxidative stress-related genes and PCa.Colocalization analysis was performed to determine whether oxidative stress-related genes and PCa shared common causal variants.Final-ly,CCK-8 assays,wound healing assays,and Transwell invasion assays and Western blotting,were con-ducted to examine the effects of oxidative stress-related genes on the biological behavior of the PCa cell line C4-2.Results:Multi-omics analysis identified SCP2 as significantly associated with increased PCa risk across gene methylation,gene expression,and circulating protein levels.GSTP1 showed significant associations at the methylation and protein levels,while LPO was associated at the protein level.At the methylation level,SCP2 sites cg00581603(OR=1.11,95％CI:1.05-1.17)and cg13078931(OR=1.12,95％CI:1.05-1.18)were identified as pathogenic.Among the four methylation sites in GSTP1,only cg05244766(OR=0.89,95％CI:0.84-0.95)was considered protective.At the gene expression level,SCP2(OR=1.05,95％CI:1.02-1.07)was also found to be a pathogenic factor.At the circu-lating protein level,SCP2(OR=2.10,95％CI:1.34-3.29)showed a consistent pathogenic trend.In addition,GSTP1(OR=1.16,95％CI:1.07-1.25)and LPO(OR=1.12,95％CI:1.05-1.19)were significantly associated with increased PCa risk.Further functional assays demonstrated that knock-down of SCP2 significantly reduced the oncogenic phenotype of prostate cancer cells.Conclusion:Through integrated multi-omics analysis and experimental validation,this study confirmed a significant as-sociation between SCP2 and increased PCa risk.These findings enhance our understanding of PCa patho-genesis and provide new potential targets and therapeutic directions for PCa treatment.

Objective:To investigate the relationship between oxidative stress-related genes and pros-tate cancer(PCa)from a multi-omics perspective using summary-data-based Mendelian randomization(SMR),colocalization analysis,and cellular experiments.Methods:Summary-level data on DNA methylation,gene expression,and circulating proteins were obtained and filtered.The PRACTICAL con-sortium was used as the discovery cohort,with the deCODE database serving as the validation cohort.SMR analysis and heterogeneity in dependent instruments(HEIDI)tests were conducted to assess the association and heterogeneity between oxidative stress-related genes and PCa.Colocalization analysis was performed to determine whether oxidative stress-related genes and PCa shared common causal variants.Final-ly,CCK-8 assays,wound healing assays,and Transwell invasion assays and Western blotting,were con-ducted to examine the effects of oxidative stress-related genes on the biological behavior of the PCa cell line C4-2.Results:Multi-omics analysis identified SCP2 as significantly associated with increased PCa risk across gene methylation,gene expression,and circulating protein levels.GSTP1 showed significant associations at the methylation and protein levels,while LPO was associated at the protein level.At the methylation level,SCP2 sites cg00581603(OR=1.11,95％CI:1.05-1.17)and cg13078931(OR=1.12,95％CI:1.05-1.18)were identified as pathogenic.Among the four methylation sites in GSTP1,only cg05244766(OR=0.89,95％CI:0.84-0.95)was considered protective.At the gene expression level,SCP2(OR=1.05,95％CI:1.02-1.07)was also found to be a pathogenic factor.At the circu-lating protein level,SCP2(OR=2.10,95％CI:1.34-3.29)showed a consistent pathogenic trend.In addition,GSTP1(OR=1.16,95％CI:1.07-1.25)and LPO(OR=1.12,95％CI:1.05-1.19)were significantly associated with increased PCa risk.Further functional assays demonstrated that knock-down of SCP2 significantly reduced the oncogenic phenotype of prostate cancer cells.Conclusion:Through integrated multi-omics analysis and experimental validation,this study confirmed a significant as-sociation between SCP2 and increased PCa risk.These findings enhance our understanding of PCa patho-genesis and provide new potential targets and therapeutic directions for PCa treatment.

Objective To explore the protective effects of short-acting β31 receptor blocker esmolol on lung injury in septic rats and explore its mechanism.Methods Fifty-four male SpragueDawley rats were randomly(random number) divided into three groups (n=18 in each),namely sham operation group(Sham),sepsis group(Spesis),esmolol group(ES).Each group were further divided into three subgroups of 6 h,12 h and 24 h(n=6 in each subgroup).The sepsis models were established with cecal ligation and puncture (CLP) in rats of Sepsis group and ES group,while rats of SH group were treated with laparotomy without CLP.Dwelled cannulation in the left internal jugular vein was performed after the model establishment.Saline in the rate of 1 mL/h was continuously pumped intravenously into the rats of SH group and Sepsis group by micro pump for 6 h,and esmolol solution in the rate of 1 mL/h [15 mg/(kg·h)]was continuously pumped into the rats of ES group for 6h.Rats in each subgroup were sacrificed at 6h,12h and 24 h after modeling,separately.The levels of catecholamine (CA) in plasma and levels of NF-κB in lung tissue were measured by ELISA.The protein levels of TLR4 and NF-κB in lung tissue were detected by Western Blot.The protein content of alveolar lavage fluid,wet/dry weight ratio(W/D) of lung tissue,lung coefficient and lung water content were measured.The pathological changes of lung tissues were observed under an optical microscope.Results (①) The levels of CA in plasma in Sepsis and ES groups at 6 h after modeling was significantly increased compared with Sham group (P＜0.05),and the level of CA in plasma increased significantly in ES group compared with Sham and Sepsis groups (P＜0.05).At 12 h after modeling,level of CA in plasma was still significantly increased in ES group compared with SH group (P＜0.05);At 24 h after modeling,level of CA in plasma was increased significantly in ES group compared with Sepsis group (P＜0.05).(②) At 6 h,12 h and 24 h after modeling,levels ofNF-κ B in lung tissue were significantly increased in Sepsis group and ES group compared with SH group (P＜0.05),and levels of NFκ B in lung tissue in ES group were also significantly lower than those in Sepsis group at given intervals (P＜0.05).③ At 6 h,12 h and 24 h after modeling,protein content of alveolar lavage fluid,wet/dry weight ratio (W/D) in lung tissue,lung coefficient and lung water content in Sepsis group and ES group were significantly increased compared with SH group (P＜0.05),and protein content of alveolar lavage fluid,wet/ dry weight ratio (W/D) in lung tissue,lung coefficient and lung water content in ES group also significantly lower than those in Sepsis group at given intervals (P＜0.05).④ Western Blot revealed at 6 h,12 h and 24 h after modeling,the protein levels of TLR4 and NF-κ B in lung tissue in Sepsis group and ES group were significantly increased compared with SH group (P＜0.05),and the protein levels of TLR4 and NF-κ B in lung tissue of ES group were also significantly lower than those in Sepsis group at all given intervals (P＜0.05).⑤ The lightest degree of pathological change was observed in SH group,the most serious degree of pathological change was found in Sepsis group,and the pathological change was significantly alleviated in ES group compared with Sepsis group whereas the pathological change was significantly increased compared with SH group at all given intervals.Conclusions Esmolol can promote the secretion of catecholamine,inhibit the release of inflammatory cytokines,reduce lung permeability,reduce pulmonary edema,and thus play an important role in protecting the lungs.The mechanism may be that esmolol improves the responsiveness of β-adrenergic receptor to catecholamine,and regulates the level of inflammatory cytokines by inhibiting TLR4-NF-κB-TNF-α signaling pathways,thus exerting protective effect on the lungs.