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Open Access Full Length Article Issue
Long noncoding RNA TUG1 promotes chondrosarcoma progression and M2 polarization
Genes & Diseases 2025, 12(4): 101474
Published: 30 November 2024
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The long non-coding RNA taurine up-regulated gene 1 (TUG1) has been reported to be involved in various cancers, but its role in chondrosarcoma (CHS) remains a mystery. This research aimed to examine the function of TUG1 in CHS. We found that TUG1 expression was elevated in CHS. Functional assays demonstrated that TUG1 had a crucial role in the CHS cell progression. Mechanistically, TUG1 recruited ALYREF to maintain the stabilization of enhancer of zest homolog 2 (EZH2) mRNA and expression of H3K27me3, repressing the transcription of the tumor-suppressor gene CPEB1. Additionally, exosomal TUG1 enhanced the polarization of M2 tumor-associated macrophages, which increased the proliferation and metastasis of CHS. Taken together, this study revealed the oncogenic role of TUG1 in CHS and its interactions with the downstream regulatory axis, offering novel insights into the tumorigenic mechanism of CHS.

Open Access Review Article Issue
Ferroptosis as a novel form of regulated cell death: Implications in the pathogenesis, oncometabolism and treatment of human cancer
Genes & Diseases 2022, 9(2): 347-357
Published: 04 December 2020
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The treatment of cancer mainly involves surgical excision supplemented by radiotherapy and chemotherapy. Chemotherapy drugs act by interfering with tumor growth and inducing the death of cancer cells. Anti-tumor drugs were developed to induce apoptosis, but some patient's show apoptosis escape and chemotherapy resistance. Therefore, other forms of cell death that can overcome the resistance of tumor cells are important in the context of cancer treatment. Ferroptosis is a newly discovered iron-dependent, non-apoptotic type of cell death that is highly negatively correlated with cancer development. Ferroptosis is mainly caused by the abnormal increase in iron-dependent lipid reactive oxygen species and the imbalance of redox homeostasis. This review summarizes the progression and regulatory mechanism of ferroptosis in cancer and discusses its possible clinical applications in cancer diagnosis and treatment.

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