Affiliation:
1. Department of Neurosurgery The Second Affiliated Hospital of Soochow University Suzhou China
2. Department of Emergency Medicine The Second Affiliated Hospital of Soochow University Suzhou China
3. Department of Neurosurgery The Affiliated Nanjing Brain Hospital, Nanjing Medical University Nanjing China
Abstract
AbstractTumor‐associated astrocytes (TAAs) in the glioblastoma microenvironment play an important role in tumor development and malignant progression initiated by glioma stem cells (GSCs). In the current study, normal human astrocytes (NHAs) were cultured and continuously treated with GSC‐derived exosomes (GSC‐EXOs) induction to explore the mechanism by which GSCs affect astrocyte remodeling. This study revealed that GSC‐EXOs can induce the transformation of NHAs into TAAs, with relatively swollen cell bodies and multiple extended processes. In addition, high proliferation, elevated resistance to temozolomide (TMZ), and increased expression of TAA‐related markers (TGF‐β, CD44, and tenascin‐C) were observed in the TAAs. Furthermore, GSC‐derived exosomal miR‐3065‐5p could be delivered to NHAs, and miR‐3065‐5p levels increased significantly in TAAs, as verified by miRNA expression profile sequencing and Reverse transcription polymerase chain reaction. Overexpression of miR‐3065‐5p also enhanced NHA proliferation, elevated resistance to TMZ, and increased the expression levels of TAA‐related markers. In addition, both GSC‐EXO‐induced and miR‐3065‐5p‐overexpressing NHAs promoted tumorigenesis of GSCs in vivo. Discs Large Homolog 2 (DLG2, downregulated in glioblastoma) is a direct downstream target of miR‐3065‐5p in TAAs, and DLG2 overexpression could partially reverse the transformation of NHAs into TAAs. Collectively, these data demonstrate that GSC‐EXOs induce the transformation of NHAs into TAAs via the miR‐3065‐5p/DLG2 signaling axis and that TAAs can further promote the tumorigenesis of GSCs. Thus, precisely blocking the interactions between astrocytes and GSCs via exosomes may be a novel strategy to inhibit glioblastoma development, but more in‐depth mechanistic studies are still needed.
Funder
National Natural Science Foundation of China
Cited by
3 articles.
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