Exploration on Scientific Connotation of Pathogenesis Theory of Gastric Cancer"Spleen Deficiency and Stasis Toxin"Based on the Reprogramming of Glucose Metabolism in Tumor-associated Macrophages / 中国中医药信息杂志

The pathogenesis theory of"spleen deficiency and stasis toxin"in gastric cancer holds that spleen is the source of generation and transformation of qi and blood,that spleen deficiency is the internal basis of disease and throughout the disease.Stasis toxin is based on spleen deficiency,which is the fundamental pathogenesis of gastric cancer.In the pathological process of gastric cancer,a variety of metabolic substances in tumor cells and tumor microenvironment,mainly glucose metabolic reprogramming,undergo metabolic changes to reconstruct the phenotype and function of tumor-related macrophages,which is consistent with the pathogenesis theory of"spleen deficiency and stasis toxin".Therefore,this article focused on the reprogramming of glucose metabolism in tumor microenvironment to drive the phenotypic remodeling of tumor-related macrophages,explored the scientific connotation of the pathogenesis theory of"spleen deficiency and stasis toxin"of gastric cancer,and provided references for the theoretical and clinical research on the treatment of gastric cancer by TCM.

Screening of Hub genes contributing to acute T lymphoblastic leukemia induced by ultra-high dose rate radiotherapy based on GEO database / 中华放射医学与防护杂志

Objective:To analyze the data of ultra-high dose rate (FLASH) radiotherapy in GEO (Gene Expression Omnibus) database by bioinformatics method, in order to find the hub genes involved in flash radiotherapy induced acute T-lymphoblastic leukemia.Methods:The gene expression profiles of malignant tumors receiving FLASH radiotherapy were downloaded from GEO database. The R software was used to screen the differential expressed genes (DEGs) and analyze their biological functions and signal pathways. The protein-protein interaction (PPI) network of DEGs was analyzed by online tool of STRING, and Hub genes were screened by Cytoscape plug-in. The expressions of screened Hub genes in acute T lymphoblastic leukemia were identified with TCGA (The Cancer Genome Atlas) and GTEx (Genotype-Tissue Expression) database.Results:Based on the analysis of GSE100718 microarray dataset of GEO database, a total of 12 800 genes were found to be associated with radiosensitivity of acute T lymphoblastic leukemia, of which 61 significantly altered DEGs were selected for further analysis. It was found that these genes were involved in the biological processes of metabolism, stress response, and immune response through the pathways of oxidative phosphorylation, unfolded protein response, fatty acid metabolism, and so on. PPI analysis indicated that HSPA5 and SCD belonged to the Hub genes involved in the regulation of FLASH radiosensitivity, and they were significantly highly expressed in acute T lymphoblastic leukemia combined with TRD/LMO2-fusion gene.Conclusions:Through bioinformatics analysis, the Hub genes involved in regulating the sensitivity of FLASH radiotherapy and conventional radiotherapy can be effectively screened, and thus the gene expression profiles can be used to guide the stratification of cancer patients to achieve a precise radiotherapy.