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The NF-κB pathway is critically implicated in the oncogenic phenotype of human osteosarcoma cells
Bingyi Tan, Zenong Yuan, Qingyu Zhang, Xu Xiqiang, Jun Dong
Language English Country Czech Republic
- Keywords
- Bay 11-7085 Sigma-Aldrich,
- MeSH
- Molecular Targeted Therapy MeSH
- Dimethyl Sulfoxide therapeutic use MeSH
- Disease Models, Animal MeSH
- Mice, Inbred NOD MeSH
- Tumor Cells, Cultured drug effects MeSH
- NF-kappa B drug effects MeSH
- Nitriles pharmacology therapeutic use MeSH
- Osteosarcoma * drug therapy genetics pathology MeSH
- Polymerase Chain Reaction methods MeSH
- Proto-Oncogene Proteins c-akt antagonists & inhibitors genetics metabolism MeSH
- RNA, Neoplasm isolation & purification drug effects MeSH
- Sulfones pharmacology therapeutic use MeSH
- In Vitro Techniques MeSH
- Animals MeSH
- Check Tag
- Animals MeSH
NF-κB is activated in a variety of human cancers. However, its role in osteosarcoma (OS) remains unknown. Here, we have elucidated the implication of NF-κB in the oncogenic phenotype of OS tumor cells. We reported that activation of NF-κB was a common event in the human OS. Inhibition of NF-κB using inhibitor Bay 11-7085 repressed proliferation, survival, migration, and invasion but increased apoptosis in 143B and MG63 OS cells, indicating that NF-κB is critically implicated in the oncogenesis of OS. Notably, Bay 11-7085 not only inactivated NF-κB but also reduced the phosphorylation of AKT via its induction of PTEN, suggesting the existence of a novel NF-κB/PTEN/PI3K/AKT axis. In vivo, Bay 11-7085 suppressed tumor growth in the bone by targeting NF-κB and AKT. Interestingly, combined treatment with Bay 11-7085 and the PI3K inhibitor, LY294002, triggered an augmented antitumor effect. Our results demonstrate that NF-κB potentiates the growth and aggressiveness of OS. Pharmacological inhibition of NF-κB represents a promising therapy for the treatment of OS.
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Literatura
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- $a Literatura
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- $a NF-κB is activated in a variety of human cancers. However, its role in osteosarcoma (OS) remains unknown. Here, we have elucidated the implication of NF-κB in the oncogenic phenotype of OS tumor cells. We reported that activation of NF-κB was a common event in the human OS. Inhibition of NF-κB using inhibitor Bay 11-7085 repressed proliferation, survival, migration, and invasion but increased apoptosis in 143B and MG63 OS cells, indicating that NF-κB is critically implicated in the oncogenesis of OS. Notably, Bay 11-7085 not only inactivated NF-κB but also reduced the phosphorylation of AKT via its induction of PTEN, suggesting the existence of a novel NF-κB/PTEN/PI3K/AKT axis. In vivo, Bay 11-7085 suppressed tumor growth in the bone by targeting NF-κB and AKT. Interestingly, combined treatment with Bay 11-7085 and the PI3K inhibitor, LY294002, triggered an augmented antitumor effect. Our results demonstrate that NF-κB potentiates the growth and aggressiveness of OS. Pharmacological inhibition of NF-κB represents a promising therapy for the treatment of OS.
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