Quantitative analysis for the differences in vasculogenic activity and sensitivity to angiogenic stimulants between human glioma cells and normal endothelial cells

LINC01094 Affects Glioma Cell Proliferation Through miR-204-3p

This study intends to assess LINC01094′s role in glioma cells. LINC01094 level in glioma tissue was detected by RT qPCR. After transfection of LINC01094 overexpression plasmid, LINC01094 siRNA, and si-LINC01094 and miR-204-3p inhibitor, cell proliferation was evaluated by MTT and cell invasion and migration was assessed by transwell and scratch test. LINC01094 expression in glioma tissues was significantly increased. Overexpression of LINC01094 can significantly promote cell proliferation, which was significantly inhibited after knockdown of LINC01094. In addition, silence of LINC01094 can upregulate miR-204-3p and inhibit cell proliferation and promote apoptosis induced by overexpression of LINC01094. In conclusion, LINC01094 promotes glioma cell proliferation through miR-204-3p.

ITGA5 Predicts Dual-Drug Resistance to Temozolomide and Bevacizumab in Glioma

AIMS

Anti-angiotherapy (Bevacizumab) is currently regarded as a promising option for glioma patients who are resistant to temozolomide (TMZ) treatment. But ongoing clinical research failed to meet therapeutic expectations. This study aimed to explore the pivotal genetic feature responsible for TMZ and Bevacizumab resistance in glioma patients.

METHODS

We downloaded the transcriptomic and methylation data of glioma patients from The Cancer Genome Atlas (TCGA), Chinese Glioma Genome Atlas (CGGA), and Gene Expression Omnibus (GEO) databases and grouped these patients into resistant and non-resistant groups based on their clinical profiles. Differentially expressed genes and pathways were identified and exhibited with software in R platform. A TMZ-resistant cell line was constructed for validating the expression change of the candidate gene, ITGA5. An ITGA5-overexpressing cell line was also constructed to investigate its biological function using the CCK8 assay, Western blot, periodic acid-Schiff (PAS) staining, and transcriptional sequencing.

RESULTS

Change of the cell morphology and polarity was closely associated with TMZ mono-resistance and TMZ/Bevacizumab dual resistance in glioma patients. The expression level of ITGA5 was effective in determining drug resistance and the outcome of glioma patients, which is regulated by methylation on two distinct sites. ITGA5 was augmented in TMZ-resistant glioma cells, while overexpressing ITGA5 altered the cell-promoted TMZ resistance through enhancing vascular mimicry (VM) formation correspondingly.

CONCLUSIONS

Both the epigenetic and transcriptional levels of ITGA5 are effective in predicting TMZ and Bevacizumab resistance, indicating that ITGA5 may serve as a predictor of the treatment outcomes of glioma patients.