PURPOSE The purpose of this study was to examine the infancy changes of metabolic gene expression level in mouse gastrocnemius muscle after after 1 hour acute treadmill exercise. METHODS C57BL/6 mouse were randomly divided into control (n=5) and 1 hour acute treadmill exercise intervention group (n=5). After the intervention, we extracted total mRNA from the mouse gastrocnemius following the whole set of genes were analyzed by microarray using Affymetrix GeneChip Clariom_S_Mouse Array. The significantly meaningful differentially expressed genes (DEGs) were extracted and compared with the bioinformatic tools. Further analysis of DEGs were conducted using Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway and gene ontology database. Significant cut-off by Fold change and LPE test were used as statistical test. RESULTS Fifty six upregulated and 65 downregulated DEGs were identified after the 1 hour of treadmill exercise. Nr4a3, Nr4a2, Btg2, Otud1, Sik1, Thbs1, Irs2 were included in the top 10 upregulated genes and Ube2l6, Scd3 were one of the most downregulated genes in the DEGs. In gene ontology analysis, metabolic process (>70 counts), organic substance metabolic process (>70) and cellular metabolic process (>60) were in the top 10 terms in the category of biological process. In the molecular function category, binding and protein binding term had more than 80s and 60s count genes each and they were statistically significant (pâ¤.001) with located on first and second place. In KEGG pathway enrichment analysis, many DEGs were related to MAPK signaling pathway, AMPK signaling pathway, Metabolic pathway, Protein processing in endoplasmic reticulum and Glycolysis/gluconeogenesis pathway. Also, several DEGs (HK1, HK2, Adh1 etc.) related to metabolism were statistically significant. CONCLUSIONS One hour acute treadmill exercise could sufficiently change some energy metabolism and adaptation related genes in mouse gastrocnemius muscle. In this microarray analysis, Nr4a3, Nr4a2, Btg2, Otud1, Sik1, Thbs1, Irs2, Ube2l6, and Scd3 were newly categorized as DEGs in respect of energy metabolism. ìì¸ì´: 물ì§ëì¬ ì ì ì, KEGG pathway, ì ì ì ì¨í¨ë¡ì§, ë¹ë³µê·¼, ë§ì´í¬ë¡ì´ë ì´, ì¼íì± ì ì°ì ì´ë Keywords: Metabolic gene, KEGG pathway, Gene ontology, Gastrocnemius, Microarray, Acute aerobic exercise
Although it is known that exercise induces angiogenesis, a clear mechanism has remained elusive due to various experimental limitations. This review presents the current status of angiogenesis-related experiments and future directions of experimentation in relation to exercise, aging, and cancer.We conducted a PubMed search of the available literature to identify reported exercise related changes of angiogenic factors obtained in vitro using C2C12 cells and endothelial cells, and in vivo using animal experiments and in clinical studies.Exercise induced angiogenesis under normal conditions. Aging decreased angiogenic factors and increased during exercise. On the other hand, in cancer, the results indicate that angiogenic factors tend to increase in general, and that the effects of exercise need to be studied more. The exact mechanism remains unclear.The effect of exercise on angiogenesis appears positive. Both resistance and aerobic exercise have positive effects, but many evidences suggest that the effects are more pronounced with aerobic exercise. Further research on the precise mechanism(s) is necessary. It is expected that these studies will include models of aging and cancer.
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