RNF6 inhibits lung adenocarcinoma cell proliferation by promoting cyclin D2 degradation.

IF 4.1 2区医学 Q2 CELL BIOLOGY

Molecular Cancer Research Pub Date : 2025-02-07 DOI:10.1158/1541-7786.MCR-24-0703

Yuening Sun, Liyang Jiang, Zubin Zhang, Rongrong Zhu, Jingpei Liang, Ziyang Liu, Yuangming He, Zhenqian Huang, Chunhua Ling, Xiumin Zhou, Xinliang Mao

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引用次数: 0

Abstract

The E3 ubiquitin ligase RNF6 has been widely recognized for its role in promoting tumorigenesis in multiple cancers. However, we found it is downregulated in lung adenocarcinoma (LUAD) and the molecular rationale for this discrepancy remains unclear. In the present study, we find that RNF6 but not its ΔRING inactive form inhibits LUAD cell proliferation and migration and sensitizes LUAD to chemotherapy. To understand the molecular mechanism, we utilize affinity purification/tandem mass spectrometry to analyze RNF6-interacting proteins and find that cyclin D2 (CCND2), a key regulator of the G1/S transition in the cell cycle. RNF6 physically binds to CCND2 and mediates its K48-linked polyubiquitination and subsequent degradation. However, ΔRING RNF6 fails to mediate CCND2 for ubiquitination and degradation. Moreover, Thr280 is critically important for CCND2 stability. When Thr280 is mutated, CCND2 becomes more stable and less ubiquitinated by RNF6. Furthermore, RNF6 arrests LUAD cell cycle at the G1 phase by inhibiting the CCND2/pRb signaling pathway, which is consistent with decreased cell proliferation. Lastly, RNF6 curtails the growth of LUAD xenografts in vivo, associated with decreased CCND2 expression. Therefore, RNF6 is a novel E3 ligase of CCND2 and suppresses LUAD cell proliferation. Implications: This study reveals a novel regulation on cell cycle transition in LUAD and suggests the RNF6/CCND2 axis may represent an alternative therapeutic target for the treatment of LUAD.

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来源期刊

Molecular Cancer Research 医学-细胞生物学

CiteScore

9.90

自引率

0.00%

发文量

280

审稿时长

4-8 weeks

期刊介绍： Molecular Cancer Research publishes articles describing novel basic cancer research discoveries of broad interest to the field. Studies must be of demonstrated significance, and the journal prioritizes analyses performed at the molecular and cellular level that reveal novel mechanistic insight into pathways and processes linked to cancer risk, development, and/or progression. Areas of emphasis include all cancer-associated pathways (including cell-cycle regulation; cell death; chromatin regulation; DNA damage and repair; gene and RNA regulation; genomics; oncogenes and tumor suppressors; signal transduction; and tumor microenvironment), in addition to studies describing new molecular mechanisms and interactions that support cancer phenotypes. For full consideration, primary research submissions must provide significant novel insight into existing pathway functions or address new hypotheses associated with cancer-relevant biologic questions.