Shohei Otani scite author profile

Osteosarcoma (OS) is characterized by TP53 mutations in humans. In mice, loss of p53 triggers OS development, and osteoprogenitor-speci c p53-deleted mice are widely used to study the process of osteosarcomagenesis. However, the molecular mechanisms underlying the initiation or progression of OS following or parallel to p53 inactivation remain largely unknown. Here, we examined the role of transcription factors involved in adipogenesis (adipo-TFs) in p53-de cient OS and identi ed a novel tumor suppressive molecular mechanism mediated by C/ebpα. C/ebpα speci cally interacts with Runx3, a p53 de ciency-dependent oncogene, and, in the same manner as p53, decreases the activity of the oncogenic axis of OS, Runx3-Myc, by inhibiting Runx3 DNA binding. The identi cation of a novel molecular role for C/ebpα in p53-de cient osteosarcomagenesis underscores the importance of the Runx-Myc oncogenic axis as a therapeutic target for OS.

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p53 Deficiency-Dependent Oncogenicity of Runx3

Ito

Otani

Date

2023

Cells

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The RUNX transcription factors are frequently dysregulated in human cancers, suggesting their potential as attractive targets for drug treatment. However, all three transcription factors have been described as both tumor suppressors and oncogenes, indicating the need to determine their molecular mechanisms of action. Although RUNX3 has long been considered a tumor suppressor in human cancers, several recent studies have shown that RUNX3 is upregulated during the development or progression of various malignant tumors, suggesting it may act as a “conditional” oncogene. Resolving this paradox and understanding how a single gene can exhibit both oncogenic and tumor-suppressive properties is essential for successful drug targeting of RUNX. This review describes the evidence for the activities of RUNX3 in human cancer and proposes an explanation for the duality of RUNX3 involving the status of p53. In this model, p53 deficiency causes RUNX3 to become oncogenic, leading to aberrant upregulation of MYC.

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The oncogenic Runx3–Myc axis definesp53-deficient osteosarcomagenesis

Otani

Date

Ueno

et al. 2021

Preprint

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Osteosarcoma (OS) in human patients is characterized by genetic alteration of TP53. Osteoprogenitor-specific p53-deleted mice (OS mice) have been widely used to study the process of osteosarcomagenesis. However, the molecular mechanisms responsible for the development of OS upon p53 inactivation remain largely unknown. In this study, we detected prominent RUNX3/Runx3 expression in human and mouse p53-deficient OS. Myc was aberrantly upregulated by Runx3 via mR1, a consensus Runx site in the Myc promoter, in a manner dependent on p53 deficiency. Reduction of the Myc level by disruption of mR1 or Runx3 knockdown decreased the tumorigenicity of p53-deficient OS cells and effectively suppressed OS development in OS mice. Furthermore, Runx inhibitors exerted therapeutic effects on OS mice. Together, these results show that p53 deficiency promotes osteosarcomagenesis in human and mouse by allowing Runx3 to induce oncogenic Myc expression.

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Evaluation of the level of progression of extracapsular spread for cervical lymph node metastasis in oral squamous cell carcinoma

Yamada

Yanamoto

Otani

et al. 2016

International Journal of Oral and Maxillofacial Surgery

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Shohei Otani

Runx3 is required for oncogenic Myc upregulation in p53-deficient osteosarcoma

C/ebpα represses the oncogenic Runx3–Myc axis in p53-deficient osteosarcoma development

p53 Deficiency-Dependent Oncogenicity of Runx3

The oncogenic Runx3–Myc axis definesp53-deficient osteosarcomagenesis

Evaluation of the level of progression of extracapsular spread for cervical lymph node metastasis in oral squamous cell carcinoma

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