Your search keyword '"Zou, Yongxin"' showing total 8 results

1. Stabilization of MOF (KAT8) by USP10 promotes esophageal squamous cell carcinoma proliferation and metastasis through epigenetic activation of ANXA2/Wnt signaling

Author

Li, Peichao, Yang, Lingxiao, Park, Sun Young, Liu, Fanrong, Li, Alex H., Zhu, Yilin, Sui, Huacong, Gao, Fengyuan, Li, Lingbing, Ye, Lan, Zou, Yongxin, Tian, Zhongxian, Zhao, Yunpeng, Costa, Max, Sun, Hong, and Zhao, Xiaogang

Abstract

Dysregulation of MOF (also known as MYST1, KAT8), a highly conserved H4K16 acetyltransferase, plays important roles in human cancers. However, its expression and function in esophageal squamous cell carcinoma (ESCC) remain unknown. Here, we report that MOF is highly expressed in ESCC tumors and predicts a worse prognosis. Depletion of MOF in ESCC significantly impedes tumor growth and metastasis both in vitro and in vivo, whereas ectopic expression of MOF but not catalytically inactive mutant (MOF-E350Q) promotes ESCC progression, suggesting that MOF acetyltransferase activity is crucial for its oncogenic activity. Further analysis reveals that USP10, a deubiquitinase highly expressed in ESCC, binds to and deubiquitinates MOF at lysine 410, which protects it from proteosome-dependent protein degradation. MOF stabilization by USP10 promotes H4K16ac enrichment in the ANXA2 promoter to stimulate ANXA2 transcription in a JUN-dependent manner, which subsequently activates Wnt/β-Catenin signaling to facilitate ESCC progression. Our findings highlight a novel USP10/MOF/ANXA2 axis as a promising therapeutic target for ESCC.

Published

2024

2. Cullin 4B-RING E3 ligase negatively regulates the immunosuppressive capacity of mesenchymal stem cells by suppressing iNOS

Author

Yu, Ruiqi, Han, Hong, Chu, Shuxian, Qin, Liping, Du, Mengying, Ma, Yanyan, Wang, Yufeng, Jiang, Wei, Song, Yu, Zou, Yongxin, Wang, Molin, Liu, Qiao, Jiang, Baichun, Gong, Yaoqin, and Sun, Gongping

Abstract

Mesenchymal stem cells (MSCs) are multipotent stem cells that can exert immunomodulatory capacity upon stimulation with pro-inflammatory cytokines. Our previous work has identified Cullin 4B (CUL4B), a scaffold protein in the CUL4B-RING E3 ligase (CRL4B) complex, as a key regulator in the differentiation of MSCs. Here, we demonstrate the critical role of CUL4B in regulating the immunosuppressive function of MSCs. When stimulated with pro-inflammatory cytokines, MSCs lacking CUL4B display enhanced immunosuppressive capacity, which is mediated by the elevated inducible nitric oxide synthase (iNOS). TGF-β signaling can suppress iNOS by inhibiting its transcription as well as promoting its protein degradation. We show that the CRL4B complex cooperates with PRC2 complex and HDACs to repress transcription of Dlx1and Pmepa1, two inhibitors of TGF-β signaling, leading to decreased expression and accelerated degradation of iNOS. Our study unveils the CRL4B complex as a potential therapeutic target in promoting the immunosuppressive capacity of MSCs.

Published

2024

3. CUL4B functions as a tumor suppressor in KRAS-driven lung tumors by inhibiting the recruitment of myeloid-derived suppressor cells

Author

Liu, Xiaochen, Tian, Fei, Cui, Jianfeng, Gong, Li, Xiang, Lu, Fan, Bowen, Liu, Shuangteng, Zhan, Jiafeng, Zhou, Yadi, Jiang, Baichun, Wang, Molin, Sun, Gongping, Gong, Yaoqin, and Zou, Yongxin

Abstract

Lung cancer is the leading cause of cancer-related death worldwide. KRAS mutations are the most common oncogenic alterations found in lung cancer. Unfortunately, treating KRAS-mutant lung adenocarcinoma (ADC) remains a major oncotherapeutic challenge. Here, we used both autochthonous and transplantable KRAS-mutant tumor models to investigate the role of tumor-derived CUL4B in KRAS-driven lung cancers. We showed that knockout or knockdown of CUL4B promotes lung ADC growth and progression in both models. Mechanistically, CUL4B directly binds to the promoter of Cxcl2and epigenetically represses its transcription. CUL4B deletion increases the expression of CXCL2, which binds to CXCR2 on myeloid-derived suppressor cells (MDSCs) and promotes their migration to the tumor microenvironment. Targeting of MDSCs significantly delayed the growth of CUL4B knockdown KRAS-mutant tumors. Collectively, our study provides mechanistic insights into the novel tumor suppressor-like functions of CUL4B in regulating KRAS-driven lung tumor development.

Published

2023

4. Cullin 4b-RING ubiquitin ligase targets IRGM1 to regulate Wnt signaling and intestinal homeostasis

Author

Fan, Yujia, Huo, Xiaohan, Guo, Beibei, Zhang, Xiaohui, Yang, Yang, Lian, Jiabei, Meng, Xinyuan, Shao, Yiwen, Zou, Yongxin, Guo, Haiyang, Wang, Haitao, Sun, Gongping, Dou, Hao, Wang, Jinshen, Shao, Changshun, Gong, Yaoqin, and Hu, Huili

Abstract

Hierarchical organization of intestine relies on the self-renewal and tightly regulated differentiation of intestinal stem cells (ISCs). Although signals like Wnt are known to sustain the continued intestinal renewal by maintaining ISCs activity and lineage commitment, molecular mechanisms underlying ISCs ‘stemness’ and supportive niche have not been well understood. Here, we found that CUL4B-RING ubiquitin ligase (CRL4B) regulates intestinal homeostasis by targeting immunity-related GTPase family M member 1 (IRGM1) for proteasomal degradation. CUL4B was mainly expressed at ISCs zone. Deletion of Cul4bled to reduced self-renewal of ISCs and a decreased lineage differentiation towards secretory progenitors through downregulated Wnt signals. Besides, Cul4b-null mice exhibited impaired Paneth cells number and structure. Mechanistically, CRL4B complex were associated with WD40 proteins and targeted IRGM1 at K270 for ubiquitination and proteosomal degradation. Impaired intestinal function caused by CUL4B deletion was rescued by down-regulation of its substrate IRGM1. Our results identified CUL4B as a novel regulator of ISCs and revealed a new 26 S proteasome degradation mechanism in intestine self-renewal and lineage commitment.

Published

2022

5. The CUL4B-miR-372/373-PIK3CA-AKT axis regulates metastasis in bladder cancer

Author

Liu, Xiaochen, Cui, Jianfeng, Gong, Li, Tian, Fei, Shen, Yangli, Chen, Lipeng, Wang, Yong, Xia, Yangyang, Liu, Lei, Ye, Xiang, Wang, Molin, Liu, Guangyi, Jiang, Baichun, Shao, Changshun, Zou, Yongxin, and Gong, Yaoqin

Abstract

CUL4B, which acts as a scaffold protein in CUL4B-RING ubiquitin ligase (CRL4B) complexes, participates in a variety of biological processes. Previous studies have shown that CUL4B is often overexpressed and exhibits oncogenic activities in a variety of solid tumors. However, the roles and the underlying mechanisms of CUL4B in bladder cancer (BC) were poorly understood. Here, we showed that CUL4B levels were overexpressed and positively correlated with the malignancy of BC, and CUL4B could confer BC cells increased motility, invasiveness, stemness, and chemoresistance. The PIK3CA/AKT pathway was identified as a critical downstream mediator of CUL4B-driven oncogenicity in BC cells. Furthermore, we demonstrated that CRL4B epigenetically repressed the transcription of miR-372/373, via catalyzing monoubiquitination of H2AK119 at the gene cluster encoding miR-372/373, leading to upregulation of PIK3CA and activation of AKT. Our findings thus establish a critical role for the CUL4B-miR-372/373-PIK3CA/AKT axis in the pathogenesis of BC and have important prognostic and therapeutic implications in BC.

Published

2020

6. CUL4B orchestrates mesenchymal stem cell commitment by epigenetically repressing KLF4 and C/EBPδ

Author

Yu, Ruiqi, Han, Hong, Chu, Shuxian, Ding, Yijun, Jin, Shiqi, Wang, Yufeng, Jiang, Wei, Liu, Yuting, Zou, Yongxin, Wang, Molin, Liu, Qiao, Sun, Gongping, Jiang, Baichun, and Gong, Yaoqin

Abstract

Dysregulated lineage commitment of mesenchymal stem cells (MSCs) contributes to impaired bone formation and an imbalance between adipogenesis and osteogenesis during skeletal aging and osteoporosis. The intrinsic cellular mechanism that regulates MSC commitment remains unclear. Here, we identified Cullin 4B (CUL4B) as a critical regulator of MSC commitment. CUL4B is expressed in bone marrow MSCs (BMSCs) and downregulated with aging in mice and humans. Conditional knockout of Cul4bin MSCs resulted in impaired postnatal skeletal development with low bone mass and reduced bone formation. Moreover, depletion of CUL4B in MSCs aggravated bone loss and marrow adipose accumulation during natural aging or after ovariectomy. In addition, CUL4B deficiency in MSCs reduced bone strength. Mechanistically, CUL4B promoted osteogenesis and inhibited adipogenesis of MSCs by repressing KLF4 and C/EBPδ expression, respectively. The CUL4B complex directly bound to Klf4and Cebpdand epigenetically repressed their transcription. Collectively, this study reveals CUL4B-mediated epigenetic regulation of the osteogenic or adipogenic commitment of MSCs, which has therapeutic implications in osteoporosis.

Published

2023

7. Dysregulation of the miR-194- CUL4B negative feedback loop drives tumorigenesis in non-small-cell lung carcinoma.

Author

Mi, Jun, Zou, Yongxin, Lin, Xiaohua, Lu, Juanjuan, liu, Xiaochen, Zhao, Hui, Ye, Xiang, Hu, Huili, Jiang, Baichun, Han, Bo, Shao, Changshun, and Gong, Yaoqin

Abstract

Cullin 4B ( CUL4B), a scaffold protein that assembles CRL4B ubiquitin ligase complexes, is overexpressed in many types of cancers and represses many tumor suppressors through epigenetic mechanisms. However, the mechanisms by which CUL4B is upregulated remain to be elucidated. Here, we show that CUL4B is upregulated in non-small-cell lung carcinoma ( NSCLC) tissues and is critically required for cell proliferation and migration in vitro and for xenograft tumor formation in vivo. We found that micro RNA-194 (miR-194) and CUL4B protein were inversely correlated in cancer specimens and demonstrated that miR-194 could downregulate CUL4B by directly targeting its 3′- UTR. We also showed that CUL4B could be negatively regulated by p53 in a miR-194-dependent manner. miR-194 was further shown to attenuate the malignant phenotype of lung cancer cells by downregulating CUL4B. Interestingly, CRL4B also epigenetically represses miR-194 by catalyzing monoubiquitination at H2 AK119 and by coordinating with PRC2 to promote trimethylation at H3K27 at the gene clusters encoding miR-194. RBX1, another component in CRL4B complex, is also targeted by miR-194 in NSCLC cells. Our results thus establish a double-negative feedback loop between miR-194 and CRL4B, dysregulation of which contributes to tumorigenesis. The function of miR-194 as a negative regulator of CUL4B has therapeutic implications in lung cancer. [ABSTRACT FROM AUTHOR]

Published

2017

8. Artesunate sensitizes ovarian cancer cells to cisplatin by downregulating RAD51

Author

Wang, Bingliang, Hou, Dong, Liu, Qiao, Wu, Tingting, Guo, Haiyang, Zhang, Xiyu, Zou, Yongxin, Liu, Zhaojian, Liu, Jinsong, Wei, Jianjun, Gong, Yaoqin, and Shao, Changshun

Abstract

Artesunate, a semi-synthetic derivative of arteminisin originally developed for the treatment of malaria, has recently been shown to possess antitumor properties. One of the cytotoxic effects of artesunate on cancer cells is mediated by induction of oxidative stress and DNA double-strand breaks (DSBs). We report here that in addition to inducing oxidative stress and DSBs, artesunate can also downregulate RAD51 and impair DSB repair in ovarian cancer cells. We observed that the formation of RAD51 foci and homologous recombination repair (HRR) were significantly reduced in artesunate-treated cells. As a consequence, artesunate and cisplatin synergistically induced DSBs and inhibited the clonogenic formation of ovarian cancer cells. Ectopic expression of RAD51 was able to rescue the increased chemosensitivity conferred by artesunate, confirming that the chemosensitizing effect of artesuante is at least partially mediated by the downregulation of RAD51. Our results indicated that artesunatecan compromise the repair of DSBs in ovarian cancer cells, and thus could be employed as a sensitizing agent in chemotherapy.

Published

2015