Background
Though considerable efforts have been made to improve the treatment of epithelial ovarian cancer (EOC), the prognosis of patients has remained poor. Identifying differentially expressed genes (DEGs) involved in EOC progression and exploiting them as novel biomarkers or therapeutic targets is of great value.
Methods
Overlapping DEGs were screened out from three independent gene expression omnibus (GEO) datasets and were subjected to Gene ontology (GO) and Kyoto encyclopedia of genes and genomes (KEGG) pathway enrichment analyses. The protein-protein interactions (PPI) network of DEGs was constructed based on the STRING database. The expression of hub genes was validated in GEPIA and GEO. The relationship of hub genes expression with tumor stage and overall survival and progression-free survival of EOC patients was investigated using the cancer genome atlas data.
Results
A total of 306 DEGs were identified, including 265 up-regulated and 41 down-regulated. Through PPI network analysis, the top 20 genes were screened out, among which 4 hub genes, which were not researched in depth so far, were selected after literature retrieval, including CDC45, CDCA5, KIF4A, ESPL1. The four genes were up-regulated in EOC tissues compared with normal tissues, but their expression decreased gradually with the continuous progression of EOC. Survival curves illustrated that patients with a lower level of CDCA5 and ESPL1 had better overall survival and progression-free survival statistically.
Conclusion
Two hub genes, CDCA5 and ESPL1, identified as probably playing tumor-promotive roles, have great potential to be utilized as novel therapeutic targets for EOC treatment.
AbstractBackground: Though considerable efforts have been made to improve the treatment of epithelial ovarian cancer (EOC), the prognosis of patients has remained poor. Identifying differentially expressed genes (DEGs) involved in EOC progression and exploiting them as novel biomarkers or therapeutic targets for EOC is highly valuable. Methods: Overlapping DEGs were screened out from three independent gene expression omnibus (GEO) datasets and subjected to Gene ontology (GO) and Kyoto encyclopedia of genes and genomes (KEGG) pathway enrichment analyses. The protein-protein interactions (PPI) network of DEGs was constructed in the STRING database. The top 20 hub genes were selected using cytoHubba. The expression of hub genes was detected in GEPIA, Oncomine, and human protein atlas (HPA) databases. The relationship of hub genes with the pathological stage and the overall survival and progression-free survival in EOC patients was investigated using the cancer genome atlas data. Results: A total of 306 DEGs were identified, including 265 up-regulated and 41 down-regulated. Through the PPI network analysis, the top 20 genes were screened out, among which 4 hub genes were selected after literature retrieval, including CDC45, CDCA5, KIF4A, ESPL1. The four genes were up-regulated in EOC tissues and the expression of these four genes decreased gradually with the continuous progression of EOC. Survival curves illustrated that patients with a lower level of CDCA5 and ESPL1 had better overall survival and progression-free survival. Conclusions: Two hub genes, CDCA5 and ESPL1, identified as playing tumor-promotive roles, could be utilized as potential novel therapeutic targets for EOC treatment.
A new liquid crystal diluter was designed and synthesized to balance trade‐offs between low viscosity, high Δn, and large Δε in the LC mixture. Research results indicated that this diluter had excellent properties of low melting point, high Δn, and large Δε. Meanwhile, in a high‐Δn LC mixture, it could effectively reduce the viscoelastic coefficient (γ1/K11), and increase the As while maintaining an equivalent LC phase temperature range and Δn. It means that the LC diluter plays an essential role to improve the response time of LCs.
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