4.7 Article

Identification of novel drug resistance mechanisms by genomic and transcriptomic profiling of glioblastoma cells with mutation-activated EGFR

Journal

LIFE SCIENCES
Volume 284, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.lfs.2021.119601

Keywords

Cancer; Chromosomal aberrations; Drug resistance; Oncogenes; Transcriptomics

Funding

  1. Johannes Gutenberg University Mainz, Germany

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The study characterized U87.MG Delta EGFR glioblastoma cells with constitutively active EGFR and identified novel drug resistance mechanisms related to the expression of mutation-activated EGFR. The cells showed numerous chromosomal aberrations and gene overexpression, including well-known drug resistance genes and novel ones. These findings may have important implications for future treatment strategies.
Aims: Epidermal growth factor receptor (EGFR) is not only involved in carcinogenesis, but also in chemoresistance. We characterized U87.MG Delta EGFR glioblastoma cells with constitutively active EGFR due to deletion at the ligand binding domain in terms of gene expression profiling and chromosomal aberrations. Wild-type U87. MG cells served as control. Materials and methods: RNA sequencing and network analyses (Ingenuity Pathway Analysis) were performed to identify novel drug resistance mechanisms related to expression of mutation activated EGFR. Chromosomal aberrations were characterized by multicolor fluorescence in situ hybridization (mFISH) and array comparative genomic hybridization (aCGH). Key findings: U87.MG Delta EGFR cells presented much more chromosomal aberrations, amplifications and deletions than wild-type U87.MG cells. Both cell lines were near-triploid. Numerous genes were overexpressed in U87. MG Delta EGFR cells, some of which have been already linked to drug resistance. PXDN, which is associated with epithelial mesenchymal transition, was the most upregulated gene (901.8-fold). TENM1 was 331.6-fold upregulated, and it was previously reported to modulate neural development. EGFR-AS1 (161.2-fold upregulated) has been reported to increase the EGFR mRNA stability and its expression - in accordance with that of EGFR - was upregulated (85.5-fold). In addition to well-known resistance genes, numerous novel genes and genomic aberrations were identified. ANGPT2 upregulation and CPM downregulation were validated by Western blotting. Significance: Transcriptomics and genomics analyses in U87.MG Delta EGFR cells unraveled a range of novel drug resistance mechanisms including apoptosis, DNA repair, ferroptosis, glutathione related gene activities, heat shock, oxidative stress, transcription factor activities, which may have important implications for future treatment strategies.

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