Expression of Glutathione Peroxidases and Its Effect on Clinical Prognosis in Glioma Patients / 中国医学科学院学报

Objective To investigate the relationship between the expression of glutathione peroxidase(GPX)genes and the clinical prognosis in glioma patients,and to construct and evaluate the model for predicting the prognosis of glioma. Methods The clinical information and GPX expression of 663 patients,including 153 patients of glioblastoma(GBM)and 510 patients of low-grade glioma(LGG),were obtained from The Cancer Genome Atlas(TCGA)database.The relationship between GPX expression and patient survival was analyzed.The key GPX affecting the prognosis of glioma was screened out by single- and multi-factor Cox's proportional-hazards regression models and validated by least absolute shrinkage and selection operator(Lasso)regression.Finally,we constructed the model for predicting the prognosis of glioma with the screening results and then used concordance index and calibration curve respectively to evaluate the discrimination and calibration of model. Results Compared with those in the control group,the expression levels of GPX1,GPX3,GPX4,GPX7,and GPX8 were up-regulated in glioma patients(all P<0.001).Moreover,the expression levels of other GPX except GPX3 were higher in GBM patients than in LGG patients(all P<0.001).The Kaplan-Meier curves showed that the progression-free survival of GBM with high expression of GPX1(P=0.013)and GPX4(P=0.040),as well as the overall survival,disease-specific survival,and progression-free survival of LGG with high expression of GPX1,GPX7,and GPX8,was shortened(all P<0.001).GPX7 and GPX8 were screened out as the key factors affecting the prognosis of LGG.The results were further used to construct a nomogram model,which suggested GPX7 was the most important variable.The concordance index of the model was 0.843(95%CI=0.809-0.853),and the calibration curve showed that the predicted and actual results had good consistency. Conclusion GPX7 is an independent risk factor affecting the prognosis of LGG,and the nomogram model constructed with it can be used to predict the survival rate of LGG.

Mechanism of diabetic kidney disease and its relationship with cardiovascular disease based on genomics / 西安交通大学学报(医学版)

Objective To provide the basis for early diagnosis and clinical treatment for diabetic kidney disease(DKD)and cardiovascular disease by analyzing the causes of DKD and the relationship between them. Methods Microarray gene chip data from the glomerulus in DKD were downloaded from GEO Database.The gene expression profile,gene function,protein-protein interaction network,gene and signal pathway co-expression network of control and DKD groups were analyzed and the key node genes between the two groups were selected by R,QOE,GCBI,STRING and Genclip.Results The gene expression profile of glomerular tissue in DKD patients was significantly altered.Compared with control group,there were 844 differentially expressed genes in DKD patients.One protein-protein interaction network with the core of TNNT 2 occurred among top 20 differentially expressed genes.Differentially expressed genes were mainly related to inflammatory and stress responses,as well as to MAPK signal pathway.Conclusion The cause of DKD is mainly related to inflammatory and stress responses, which are also related to cardiovascular disease.

Analysis of Differentially Expressed Genes and the Interaction Network between Acute and Chronic Idiopathic Thrombocytopenic Purpura in Children / 中国医学科学院学报

Objective To analyze the differentially expressed genes and key proteins in T cells between acute and chronic idiopathic thrombocytopenic purpura (ITP) in children and provide the basis for the prevention and therapies of this disease. Methods Microarray gene chip data from T cells of children with acute or chronic ITP were downloaded from the GEO Database. The gene expression profiles,gene function,and protein interaction network were analyzed by R,QOE,Networkanalyst,GCBI,and GenClip. Results The gene expression profiles between these two groups were significantly different. Among the 54 675 genes analyzed,there were 457 (0.84%) differentially expressed genes between these two groups. In the protein interaction networks among top 20 differentially expressed genes,the core was JUN(down-regulated) and ITCH(up-regulated),which were both related to the tumor necrosis factor signaling pathway;differentially expressed genes were mainly related to the activation and tolerance of T cell. Conclusions The gene expression profiles differ between acute and chronic ITP patients,suggesting that the gene transcription profile plays a regulatory role in the different stages of ITP. JUN and ITCH may play a role in predict the progression of ITP and may exert their biological functions by regulating the tumor necrosis factor signaling pathway.