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The SOX2/PDIA6 axis mediates aerobic glycolysis to promote stemness in non-small cell lung cancer cells.

Authors :
Wan, Xiaoya
Ma, Daiyuan
Song, Guanglin
Tang, Lina
Jiang, Xianxue
Tian, Yingguo
Yi, Zunli
Jiang, Chengying
Jin, Yong
Hu, Anmu
Bai, Yuju
Source :
Journal of Bioenergetics & Biomembranes; Jun2024, Vol. 56 Issue 3, p323-332, 10p
Publication Year :
2024

Abstract

Non-small cell lung cancer (NSCLC) is an aggressive and rapidly expanding lung cancer. Abnormal upregulation or knockdown of PDIA6 expression can predict poor prognosis in various cancers. This study aimed to investigate the biological function of PDIA6 in NSCLC. SOX2 and PDIA6 expression in NSCLC tissues and regulatory relationship between them were analyzed using bioinformatics. GSEA was performed on the enrichment pathway of PDIA6. qRT-PCR was utilized to examine expression of SOX2 and PDIA6 in NSCLC tissues and cells, and dual-luciferase reporter assay and ChIP experiments were performed to validate their regulatory relationship. CCK-8 experiment was conducted to assess cell viability, western blot was to examine levels of stem cell markers and proteins related to aerobic glycolysis pathway in cells. Cell sphere formation assay was used to evaluate efficiency of cell sphere formation. Reagent kits were used to measure glycolysis levels and glycolysis products. High expression of PDIA6 in NSCLC was linked to aerobic glycolysis. Knockdown of PDIA6 reduced cell viability, expression of stem cell surface markers, and cell sphere formation efficiency in NSCLC. Overexpression of PDIA6 could enhance cell viability and promote aerobic glycolysis, but the addition of 2-DG could reverse this result. Bioinformatics predicted the existence of upstream transcription factor SOX2 for PDIA6, and SOX2 was significantly upregulated in NSCLC, and they had a binding relationship. Further experiments revealed that PDIA6 overexpression restored repressive effect of knocking down SOX2 on aerobic glycolysis and cell stemness. This work revealed that the SOX2/PDIA6 axis mediated aerobic glycolysis to promote NSCLC cell stemness, providing new therapeutic strategies for NSCLC. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
0145479X
Volume :
56
Issue :
3
Database :
Complementary Index
Journal :
Journal of Bioenergetics & Biomembranes
Publication Type :
Academic Journal
Accession number :
177423131
Full Text :
https://doi.org/10.1007/s10863-024-10009-y