4.6 Article

Acetylation of Checkpoint suppressor 1 enhances its stability and promotes the progression of triple-negative breast cancer

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CELL DEATH DISCOVERY
卷 8, 期 1, 页码 -

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SPRINGERNATURE
DOI: 10.1038/s41420-022-01269-x

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资金

  1. National Natural Science Foundation of China [81902710]
  2. Taishan Scholars Construction Engineering Projects
  3. Major Basic Research Project of Shandong Provincial Natural Science Foundation [ZR2019ZD27]
  4. Shandong Province Higher Educational Youth Innovation Science and Technology Program [2019KJE013]
  5. Special Project of Central Government for Local Science and Technology Development of Shandong Province [YDZX20203700001291]
  6. Yantai Development Project of University and Government Integration [2019XDRHXMPT14]
  7. Shandong Province Higher Educational Youth Innovation Talents Introduction and Cultivation Program [2019-063, 2021KJ052]
  8. Binzhou Medical University [2019KYQD11]

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This study found that the expression of checkpoint suppressor 1 (CHES1) is highly associated with triple-negative breast cancer (TNBC) and plays a role in promoting the proliferation and metastasis of TNBC. Acetylation of CHES1 enhances its stability and contributes to its high abundance in TNBC. These findings highlight the significance of CHES1 acetylation in breast cancer progression.
Checkpoint suppressor 1 (CHES1), a transcriptional regulator, had been dysregulated in many types of malignancies including breast cancer, and its expression level is strongly associated with progression and prognosis of patients. However, the underlying regulatory mechanisms of CHES1 expression in the breast cancer and the effects of post-translational modifications (PTMs) on its functional performance remain to be fully investigated. Herein, we found that CHES1 had a high abundance in triple-negative breast cancer (TNBC) and its expression was tightly associated with malignant phenotype and poor outcomes of patients. Furthermore, we confirmed that CHES1 was an acetylated protein and its dynamic modification was mediated by p300 and HDAC1, and CHES1 acetylation enhanced its stability via decreasing its ubiquitination and degradation, which resulted in the high abundance of CHES1 in TNBC. RNA-seq and functional study revealed that CHES1 facilitated the activation of oncogenic genes and pathways leading to proliferation and metastasis of TNBC. Taken together, this research established a novel regulatory role of acetylation on the stability and activity of CHES1. The results demonstrate the significance of CHES1 acetylation and underlying mechanisms in the progression of TNBC, offering new potential candidate for molecular-targeted therapy in breast cancer.

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