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  • ADAR3 activates NF-κB signaling and promotes glioblastoma cell resistance to temozolomide.

ADAR3 activates NF-κB signaling and promotes glioblastoma cell resistance to temozolomide.

Scientific reports (2022-08-04)
Reshma Raghava Kurup, Eimile K Oakes, Pranathi Vadlamani, Obi Nwosu, Pranav Danthi, Heather A Hundley
ABSTRACT

The RNA binding protein ADAR3 is expressed exclusively in the brain and reported to have elevated expression in tumors of patients suffering from glioblastoma compared to adjacent brain tissue. Yet, other studies have indicated that glioblastoma tumors exhibit hemizygous deletions of the genomic region encompassing ADAR3 (10p15.3). As the molecular and cellular consequences of altered ADAR3 expression are largely unknown, here we directly examined the impacts of elevated ADAR3 in a glioblastoma cell line model. Transcriptome-wide sequencing revealed 641 differentially expressed genes between control and ADAR3-expressing U87-MG glioblastoma cells. A vast majority of these genes belong to pathways involved in glioblastoma progression and are regulated by NF-κB signaling. Biochemical and molecular analysis indicated that ADAR3-expressing U87-MG cells exhibit increased NF-κB activation, and treatment with an NF-κB inhibitor abrogated the impacts of ADAR3 on gene expression. Similarly, we found that increased cell survival of ADAR3-expressing cells to temozolomide, the preferred chemotherapeutic for glioblastoma, was due to increased NF-κB activity. Aberrant constitutive NF-κB activation is a common event in glioblastoma and can impact both tumor progression and resistance to treatment. Our results suggest that elevated ADAR3 promotes NF-κB activation and a gene expression program that provides a growth advantage to glioblastoma cells.

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Sigma-Aldrich
IKK Inhibitor III, BMS-345541, IKK Inhibitor III, BMS-345541, CAS 445430-58-0, is a cell-permeable, potent, selective, and allosteric site-binding inhibitor of IKK-2 (IC₅₀ = ~ 300 nM).