Your search keyword '"Fan Guixiong"' showing total 33 results

1. MEN1 promotes ferroptosis by inhibiting mTOR-SCD1 axis in pancreatic neuroendocrine tumors

Author

Ye Zeng, Chen Haidi, Ji Shunrong, Hu Yuheng, Lou Xin, Zhang Wuhu, Jing Desheng, Fan Guixiong, Zhang Yue, Chen Xuemin, Zhuo Qifeng, Chen Jie, Xu Xiaowu, Yu Xianjun, Xu Jin, Qin Yi, and Gao Heli

Subjects

pancreatic neuroendocrine tumor, MEN1, ferroptosis, mTOR signaling, SCD1, Biochemistry, QD415-436, Genetics, QH426-470

Abstract

Pancreatic neuroendocrine tumor (pNET) is the second most common malignant tumors of the pancreas. Multiple endocrine neoplasia 1 ( MEN1) is the most frequently mutated gene in pNETs and MEN1-encoded protein, menin, is a scaffold protein that interacts with transcription factors and chromatin-modifying proteins to regulate various signaling pathways. However, the role of MEN1 in lipid metabolism has not been studied in pNETs. In this study, we perform targeted metabolomics analysis and find that MEN1 promotes the generation and oxidation of polyunsaturated fat acids (PUFAs). Meanwhile lipid peroxidation is a hallmark of ferroptosis, and we confirm that MEN1 promotes ferroptosis by inhibiting the activation of mTOR signaling which is the central hub of metabolism. We show that stearoyl-coA desaturase (SCD1) is the downstream of MEN1-mTOR signaling and oleic acid (OA), a metabolite of SCD1, recues the lipid peroxidation caused by MEN1 overexpression. The negative correlation between MEN1 and SCD1 is further verified in clinical specimens. Furthermore, we find that BON-1 and QGP-1 cells with MEN1 overexpression are more sensitive to everolimus, a widely used drug in pNETs that targets mTOR signaling. In addition, combined use everolimus with ferroptosis inducer, RSL3, possesses a more powerful ability to kill cells, which may provide a new strategy for the comprehensive therapy of pNETs.

Published

2022

2. YBX1 as a therapeutic target to suppress the LRP1-β-catenin-RRM1 axis and overcome gemcitabine resistance in pancreatic cancer

Author

Li, Borui, Xing, Faliang, Wang, Jingyi, Wang, Xiaohong, Zhou, Chenjie, Fan, Guixiong, Zhuo, Qifeng, Ji, Shunrong, Yu, Xianjun, Xu, Xiaowu, Qin, Yi, and Li, Zheng

Published

2024

3. The stromal microenvironment endows pancreatic neuroendocrine tumors with spatially specific invasive and metastatic phenotypes

Author

Ye, Zeng, Li, Qiang, Hu, Yuheng, Hu, Haifeng, Xu, Junfeng, Guo, Muzi, Zhang, Wuhu, Lou, Xin, Wang, Yan, Gao, Heli, Jing, Desheng, Fan, Guixiong, Qin, Yi, Zhang, Yue, Chen, Xuemin, Chen, Jie, Xu, Xiaowu, Yu, Xianjun, Liu, Mingyang, and Ji, Shunrong

Published

2024

4. SETD8 inhibits ferroptosis in pancreatic cancer by inhibiting the expression of RRAD

Author

Lu, Zekun, Hu, Qiangsheng, Qin, Yi, Yang, Hao, Xiao, Bingkai, Chen, Weibo, Ji, Shunrong, Zu, Guangchen, Wang, Zhiliang, Fan, Guixiong, Xu, Xiaowu, and Chen, Xuemin

Published

2023

5. Transcription factor EB reprograms branched‐chain amino acid metabolism and promotes pancreatic cancer progression via transcriptional regulation of BCAT1.

Author

Wang, Ting, Hu, Qiangsheng, Li, Borui, Fan, Guixiong, Jing, Desheng, Xu, Junfeng, Hu, Yuheng, Dang, Qin, Ji, Shunrong, Zhou, Chenjie, Zhuo, Qifeng, Xu, Xiaowu, Qin, Yi, Yu, Xianjun, and Li, Zheng

Subjects

TRANSCRIPTION factors, METABOLIC reprogramming, PANCREATIC cancer, ENZYME metabolism, GENETIC transcription regulation

Abstract

Pancreatic cancer cells have a much higher metabolic demand than that of normal cells. However, the abundant interstitium and lack of blood supply determine the lack of nutrients in the tumour microenvironment. Although pancreatic cancer has been reported to supply extra metabolic demand for proliferation through autophagy and other means, the specific regulatory mechanisms have not yet been elucidated. In this study, we focused on transcription factor EB (TFEB), a key factor in the regulation of autophagy, to explore its effect on the phenotype and role in the unique amino acid utilisation pattern of pancreatic cancer cells (PCCs). The results showed that TFEB, which is generally highly expressed in pancreatic cancer, promoted the proliferation and metastasis of PCCs. TFEB knockdown inhibited the proliferation and metastasis of PCCs by blocking the catabolism of branched‐chain amino acids (BCAAs). Concerning the mechanism, we found that TFEB regulates the catabolism of BCAAs by regulating BCAT1, a key enzyme in BCAA metabolism. BCAA deprivation alone did not effectively inhibit PCC proliferation. However, BCAA deprivation combined with eltrombopag, a drug targeting TFEB, can play a two‐pronged role in exogenous supply deprivation and endogenous utilisation blockade to inhibit the proliferation of pancreatic cancer to the greatest extent, providing a new therapeutic direction, such as targeted metabolic reprogramming of pancreatic cancer. [ABSTRACT FROM AUTHOR]

Published

2024

6. Value of lymphadenectomy in patients with surgically resected pancreatic neuroendocrine tumors

Author

Zhang, Zheng, Wang, Fei, Li, Zheng, Ye, Zeng, Zhuo, Qifeng, Xu, Wenyan, Liu, Wensheng, Liu, Mengqi, Fan, Guixiong, Qin, Yi, Zhang, Yue, Chen, Xuemin, Yu, Xianjun, Xu, Xiaowu, and Ji, Shunrong

Published

2022

7. MEN1 Deficiency‐Driven Activation of the β‐Catenin‐MGMT Axis Promotes Pancreatic Neuroendocrine Tumor Growth and Confers Temozolomide Resistance.

Author

Xu, Junfeng, Lou, Xin, Wang, Fei, Zhang, Wuhu, Xu, Xiaowu, Ye, Zeng, Zhuo, Qifeng, Wang, Yan, Jing, Desheng, Fan, Guixiong, Chen, Xuemin, Zhang, Yue, Zhou, Chenjie, Chen, Jie, Qin, Yi, Yu, Xianjun, and Ji, Shunrong

Subjects

CANCER cell growth, PANCREATIC tumors, O6-Methylguanine-DNA Methyltransferase, NEUROENDOCRINE tumors, TUMOR growth

Abstract

O6‐methylguanine DNA methyltransferase (MGMT) removes alkyl adducts from the guanine O6 position (O6‐MG) and repairs DNA damage. High MGMT expression results in poor response to temozolomide (TMZ). However, the biological importance of MGMT and the mechanism underlying its high expression in pancreatic neuroendocrine tumors (PanNETs) remain elusive. Here, it is found that MGMT expression is highly elevated in PanNET tissues compared with paired normal tissues and negatively associated with progression‐free survival (PFS) time in patients with PanNETs. Knocking out MGMT inhibits cancer cell growth in vitro and in vivo. Ectopic MEN1 expression suppresses MGMT transcription in a manner that depends on β‐Catenin nuclear export and degradation. The Leucine 267 residue of MEN1 is crucial for regulating β‐Catenin‐MGMT axis activation and chemosensitivity to TMZ. Interference with β‐Catenin re‐sensitizes tumor cells to TMZ and significantly reduces the cytotoxic effects of high‐dose TMZ treatment, and MGMT overexpression counteracts the effects of β‐Catenin deficiency. This study reveals the biological importance of MGMT and a new mechanism by which MEN1 deficiency regulates its expression, thus providing a potential combinational strategy for treating patients with TMZ‐resistant PanNETs. [ABSTRACT FROM AUTHOR]

Published

2024

8. Oncogenic function of TRIM2 in pancreatic cancer by activating ROS-related NRF2/ITGB7/FAK axis

Author

Sun, Qiqing, Ye, Zeng, Qin, Yi, Fan, Guixiong, Ji, Shunrong, Zhuo, Qifeng, Xu, Wenyan, Liu, Wensheng, Hu, Qiangsheng, Liu, Mengqi, Zhang, Zheng, Xu, Xiaowu, and Yu, Xianjun

Published

2020

9. ALDOA inhibits cell cycle arrest induced by DNA damage via the ATM-PLK1 pathway in pancreatic cancer cells

Author

Chen, Haidi, Ye, Zeng, Xu, Xiaowu, Qin, Yi, Song, Changfeng, Fan, Guixiong, Hu, Haifeng, Hu, Yuheng, Yu, Xianjun, Liu, Wensheng, Ji, Shunrong, and Xu, Wenyan

Published

2021

10. Nuclear receptor coactivator 6 (NCoA6) promotes cell proliferation, migration, and invasion in pancreatic cancer

Author

Wang, Xin, primary, Jia, Yuming, additional, Xu, Xiaowu, additional, Hu, Yuheng, additional, Fan, Guixiong, additional, Jing, Desheng, additional, Zhang, Zhilei, additional, Wang, Chao, additional, Song, Changfeng, additional, Qin, Yi, additional, and Peng, Li, additional

Published

2023

11. Figure S2 from MEN1 Degradation Induced by Neddylation and the CUL4B–DCAF7 Axis Promotes Pancreatic Neuroendocrine Tumor Progression

Author

Xu, Junfeng, primary, Ye, Zeng, primary, Zhuo, Qifeng, primary, Gao, Heli, primary, Qin, Yi, primary, Lou, Xin, primary, Zhang, Wuhu, primary, Wang, Fei, primary, Wang, Yan, primary, Jing, Desheng, primary, Fan, Guixiong, primary, Zhang, Yue, primary, Chen, Xuemin, primary, Chen, Jie, primary, Xu, Xiaowu, primary, Yu, Xianjun, primary, and Ji, Shunrong, primary

Published

2023

12. Table S4 from MEN1 Degradation Induced by Neddylation and the CUL4B–DCAF7 Axis Promotes Pancreatic Neuroendocrine Tumor Progression

Author

Xu, Junfeng, primary, Ye, Zeng, primary, Zhuo, Qifeng, primary, Gao, Heli, primary, Qin, Yi, primary, Lou, Xin, primary, Zhang, Wuhu, primary, Wang, Fei, primary, Wang, Yan, primary, Jing, Desheng, primary, Fan, Guixiong, primary, Zhang, Yue, primary, Chen, Xuemin, primary, Chen, Jie, primary, Xu, Xiaowu, primary, Yu, Xianjun, primary, and Ji, Shunrong, primary

Published

2023

13. Data from MEN1 Degradation Induced by Neddylation and the CUL4B–DCAF7 Axis Promotes Pancreatic Neuroendocrine Tumor Progression

Author

Xu, Junfeng, primary, Ye, Zeng, primary, Zhuo, Qifeng, primary, Gao, Heli, primary, Qin, Yi, primary, Lou, Xin, primary, Zhang, Wuhu, primary, Wang, Fei, primary, Wang, Yan, primary, Jing, Desheng, primary, Fan, Guixiong, primary, Zhang, Yue, primary, Chen, Xuemin, primary, Chen, Jie, primary, Xu, Xiaowu, primary, Yu, Xianjun, primary, and Ji, Shunrong, primary

Published

2023

14. Prognostic Value and Clinical Predictors of Lymph Node Metastases in Pancreatic Neuroendocrine Tumors

Author

Zhang, Zheng, Liu, Mengqi, Ji, Shunrong, Luo, Guopei, Xu, Wenyan, Liu, Wensheng, Hu, Qiangsheng, Sun, Qiqing, Ye, Zeng, Qin, Yi, Fan, Guixiong, Yu, Xianjun, and Xu, Xiaowu

Published

2020

15. FigureS1 from MTAP Deficiency–Induced Metabolic Reprogramming Creates a Vulnerability to Cotargeting De Novo Purine Synthesis and Glycolysis in Pancreatic Cancer

Author

Hu, Qiangsheng, primary, Qin, Yi, primary, Ji, Shunrong, primary, Shi, Xiuhui, primary, Dai, Weixing, primary, Fan, Guixiong, primary, Li, Shuo, primary, Xu, Wenyan, primary, Liu, Wensheng, primary, Liu, Mengqi, primary, Zhang, Zheng, primary, Ye, Zeng, primary, Zhou, Zhijun, primary, Yang, Jingxuan, primary, Zhuo, Qifeng, primary, Yu, Xianjun, primary, Li, Min, primary, and Xu, Xiaowu, primary

Published

2023

16. Supplementary Data from MTAP Deficiency–Induced Metabolic Reprogramming Creates a Vulnerability to Cotargeting De Novo Purine Synthesis and Glycolysis in Pancreatic Cancer

Author

Hu, Qiangsheng, primary, Qin, Yi, primary, Ji, Shunrong, primary, Shi, Xiuhui, primary, Dai, Weixing, primary, Fan, Guixiong, primary, Li, Shuo, primary, Xu, Wenyan, primary, Liu, Wensheng, primary, Liu, Mengqi, primary, Zhang, Zheng, primary, Ye, Zeng, primary, Zhou, Zhijun, primary, Yang, Jingxuan, primary, Zhuo, Qifeng, primary, Yu, Xianjun, primary, Li, Min, primary, and Xu, Xiaowu, primary

Published

2023

17. Data from MTAP Deficiency–Induced Metabolic Reprogramming Creates a Vulnerability to Cotargeting De Novo Purine Synthesis and Glycolysis in Pancreatic Cancer

Author

Hu, Qiangsheng, primary, Qin, Yi, primary, Ji, Shunrong, primary, Shi, Xiuhui, primary, Dai, Weixing, primary, Fan, Guixiong, primary, Li, Shuo, primary, Xu, Wenyan, primary, Liu, Wensheng, primary, Liu, Mengqi, primary, Zhang, Zheng, primary, Ye, Zeng, primary, Zhou, Zhijun, primary, Yang, Jingxuan, primary, Zhuo, Qifeng, primary, Yu, Xianjun, primary, Li, Min, primary, and Xu, Xiaowu, primary

Published

2023

18. MEN1 Degradation Induced by Neddylation and the CUL4B–DCAF7 Axis Promotes Pancreatic Neuroendocrine Tumor Progression

Author

Xu, Junfeng, primary, Ye, Zeng, additional, Zhuo, Qifeng, additional, Gao, Heli, additional, Qin, Yi, additional, Lou, Xin, additional, Zhang, Wuhu, additional, Wang, Fei, additional, Wang, Yan, additional, Jing, Desheng, additional, Fan, Guixiong, additional, Zhang, Yue, additional, Chen, Xuemin, additional, Chen, Jie, additional, Xu, Xiaowu, additional, Yu, Xianjun, additional, and Ji, Shunrong, additional

Published

2023

19. Additional file 1 of Value of lymphadenectomy in patients with surgically resected pancreatic neuroendocrine tumors

Author

Zhang, Zheng, Wang, Fei, Li, Zheng, Ye, Zeng, Zhuo, Qifeng, Xu, Wenyan, Liu, Wensheng, Liu, Mengqi, Fan, Guixiong, Qin, Yi, Zhang, Yue, Chen, Xuemin, Yu, Xianjun, Xu, Xiaowu, and Ji, Shunrong

Abstract

Additional file 1. Cox Multivariate Regression Analyses of Factors Affecting OS from SHPCI.

Published

2022

20. Value Of Lymphadenectomy In Patients With Surgically Resected Grade 1 Pancreatic Neuroendocrine Tumors

Author

Zhang, Zheng, primary, Wang, Fei, additional, Li, Zheng, additional, Ye, Zeng, additional, Zhuo, Qifeng, additional, Xu, Wenyan, additional, Liu, Wensheng, additional, Liu, Mengqi, additional, Fan, Guixiong, additional, Qin, Yi, additional, Zhang, Yue, additional, Chen, Xuemin, additional, Yu, Xianjun, additional, Xu, Xiaowu, additional, and Ji, Shunrong, additional

Published

2022

21. Pevonedistat Suppresses Pancreatic Cancer Growth via Inactivation of the Neddylation Pathway

Author

Xu, Junfeng, primary, Li, Zheng, additional, Zhuo, Qifeng, additional, Ye, Zeng, additional, Fan, Guixiong, additional, Gao, Heli, additional, Ji, Shunrong, additional, Yu, Xianjun, additional, Xu, Xiaowu, additional, Liu, Wensheng, additional, and Xu, Wenyan, additional

Published

2022

22. SETD8 induces stemness and epithelial–mesenchymal transition of pancreatic cancer cells by regulating ROR1 expression

Author

Liu, Mengqi, primary, Shi, Yihua, additional, Hu, Qiangsheng, additional, Qin, Yi, additional, Ji, Shunrong, additional, Liu, Wensheng, additional, Zhuo, Qifeng, additional, Fan, Guixiong, additional, Ye, Zeng, additional, Song, Changfeng, additional, Yu, Xianjun, additional, Xu, Xiaowu, additional, and Xu, Wenyan, additional

Published

2021

23. MTAP Deficiency–Induced Metabolic Reprogramming Creates a Vulnerability to Cotargeting De Novo Purine Synthesis and Glycolysis in Pancreatic Cancer

Author

Hu, Qiangsheng, primary, Qin, Yi, additional, Ji, Shunrong, additional, Shi, Xiuhui, additional, Dai, Weixing, additional, Fan, Guixiong, additional, Li, Shuo, additional, Xu, Wenyan, additional, Liu, Wensheng, additional, Liu, Mengqi, additional, Zhang, Zheng, additional, Ye, Zeng, additional, Zhou, Zhijun, additional, Yang, Jingxuan, additional, Zhuo, Qifeng, additional, Yu, Xianjun, additional, Li, Min, additional, and Xu, Xiaowu, additional

Published

2021

24. Improved tumor control with antiangiogenic therapy after treatment with gemcitabine and nab‐paclitaxel in pancreatic cancer

Author

Zhang, Zheng, primary, Ji, Shunrong, additional, Hu, Qiangsheng, additional, Zhuo, Qifeng, additional, Liu, Wei, additional, Xu, Wenyan, additional, Liu, Wensheng, additional, Liu, Mengqi, additional, Ye, Zeng, additional, Fan, Guixiong, additional, Xu, Xiaowu, additional, Yu, Xianjun, additional, and Qin, Yi, additional

Published

2021

25. FGFBP1-mediated crosstalk between fibroblasts and pancreatic cancer cells via FGF22/FGFR2 promotes invasion and metastasis of pancreatic cancer

Author

Zhang, Zheng, primary, Qin, Yi, additional, Ji, Shunrong, additional, Xu, Wenyan, additional, Liu, Mengqi, additional, Hu, Qiangsheng, additional, Ye, Zeng, additional, Fan, Guixiong, additional, Yu, Xianjun, additional, Liu, Wensheng, additional, and Xu, Xiaowu, additional

Published

2021

26. SETD8 potentiates constitutive ERK1/2 activation via epigenetically silencing DUSP10 expression in pancreatic cancer

Author

Liu, Mengqi, primary, Qin, Yi, additional, Hu, Qiangsheng, additional, Liu, Wensheng, additional, Ji, Shunrong, additional, Xu, Wenyan, additional, Fan, Guixiong, additional, Ye, Zeng, additional, Zhang, Zheng, additional, Xu, Xiaowu, additional, Yu, Xianjun, additional, and Zhuo, Qifeng, additional

Published

2021

27. Function and regulation of F‑box/WD repeat‑containing protein 7 (Review)

Author

Zhang, Zheng, primary, Hu, Qiangsheng, additional, Xu, Wenyan, additional, Liu, Wensheng , additional, Liu, Mengqi, additional, Sun, Qiqing , additional, Ye, Zeng, additional, Fan, Guixiong, additional, Qin, Yi , additional, Xu, Xiaowu, additional, Yu, Xianjun, additional, and Ji, Shunrong, additional

Published

2020

28. Pin1 promotes pancreatic cancer progression and metastasis by activation of NF‐κB‐IL‐18 feedback loop

Author

Sun, Qiqing, primary, Fan, Guixiong, additional, Zhuo, Qifeng, additional, Dai, Weixing, additional, Ye, Zeng, additional, Ji, Shunrong, additional, Xu, Wenyan, additional, Liu, Wensheng, additional, Hu, Qiangsheng, additional, Zhang, Zheng, additional, Liu, Mengqi, additional, Yu, Xianjun, additional, Xu, Xiaowu, additional, and Qin, Yi, additional

Published

2020

29. Ferroptosis: Final destination for cancer?

Author

Ye, Zeng, primary, Liu, Wensheng, additional, Zhuo, Qifeng, additional, Hu, Qiangsheng, additional, Liu, Mengqi, additional, Sun, Qiqing, additional, Zhang, Zheng, additional, Fan, Guixiong, additional, Xu, Wenyan, additional, Ji, Shunrong, additional, Yu, Xianjun, additional, Qin, Yi, additional, and Xu, Xiaowu, additional

Published

2020

30. SETD8 induces stemness and epithelial–mesenchymal transition of pancreatic cancer cells by regulating ROR1 expression.

Author

Liu, Mengqi, Shi, Yihua, Hu, Qiangsheng, Qin, Yi, Ji, Shunrong, Liu, Wensheng, Zhuo, Qifeng, Fan, Guixiong, Ye, Zeng, Song, Changfeng, Yu, Xianjun, Xu, Xiaowu, and Xu, Wenyan

Published

2021

31. FBW7-NRA41-SCD1 axis synchronously regulates apoptosis and ferroptosis in pancreatic cancer cells.

Author

Ye Z, Zhuo Q, Hu Q, Xu X, Mengqi Liu, Zhang Z, Xu W, Liu W, Fan G, Qin Y, Yu X, and Ji S

Subjects

Apoptosis, Cell Line, Tumor, F-Box-WD Repeat-Containing Protein 7, Humans, Stearoyl-CoA Desaturase, Ferroptosis, Pancreatic Neoplasms drug therapy, Pancreatic Neoplasms genetics

Abstract

FBW7 functions as a tumor suppressor by targeting oncoproteins for degradation. Our previous study found FBW7 was low expressed in pancreatic cancer due to sustained activation of Ras-Raf-MEK-ERK pathway, which destabilized FBW7 by phosphorylating at Thr205. MicroPET/CT imaging results revealed that FBW7 substantially decreased 18F-fluorodeoxyglucose uptake in xenograft tumors. Mechanistically, FBW7 inhibited glucose metabolism via c-Myc/TXNIP axis. But in these studies, we observed FBW7 down-regulated genes were widely involved in redox reaction and lipid metabolism. Here we reanalyzed previous gene expression profiling and conducted targeted cell metabolites analysis. Results revealed that FBW7 regulated lipid peroxidation and promoted ferroptosis, a non-apoptotic form of cell death. Mechanistically, we found FBW7 inhibited the expression of stearoyl-CoA desaturase (SCD1) via inhibiting nuclear receptor subfamily 4 group A member 1 (NR4A1). SCD1 was reported to inhibit both ferroptosis and apoptosis, which was consistent with the function of FBW7 and NR4A1, another FBW7 down-regulated gene in the gene expression profiling. Moreover, FBW7 potentiated cytotoxic effect of gemcitabine via activating ferroptosis and apoptosis. Combination ferroptosis inducers and apoptosis activators could also significantly potentiated cytotoxic effect of gemcitabine in pancreatic cancer. Therefore, our findings might provide new strategies for the comprehensive treatment of pancreatic cancer., (Copyright © 2020 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2021

32. Abrogation of ARF6 promotes RSL3-induced ferroptosis and mitigates gemcitabine resistance in pancreatic cancer cells.

Author

Ye Z, Hu Q, Zhuo Q, Zhu Y, Fan G, Liu M, Sun Q, Zhang Z, Liu W, Xu W, Ji S, Yu X, Xu X, and Qin Y

Abstract

ADP Ribosylation Factor 6 (ARF6) is a part of the RAS superfamily and regulates vesicular trafficking, remodeling of membrane lipids, and signaling pathways. Our previous study has found that ARF6, functioned as a downstream of Kras/ERK signaling pathway, could promote proliferation and Warburg effect in pancreatic cancer cells. Moreover, ARF6 is promising to be a biomarker for predicting prognosis of pancreatic cancer. Ferroptosis is a new defined iron-dependent form of nonapoptotic cell death, which is closely related to Kras mutation. Therefore, it is urgent to further explore the relationship between ARF6 and ferroptosis. Our study demonstrated that ARF6 did not directly regulate lipid peroxidation, but endowed pancreatic cancer cells to a status that is sensitive to oxidative stress, especially RSL3-induced lipid peroxidation. Further study revealed that ARF6 could also regulate gemcitabine resistance via multiple pathways. In conclusion, ARF6 has a profound effect on pancreatic cancer development., Competing Interests: None., (AJCR Copyright © 2020.)

Published

2020

33. FGFBP1, a downstream target of the FBW7/c-Myc axis, promotes cell proliferation and migration in pancreatic cancer.

Author

Zhang Z, Liu M, Hu Q, Xu W, Liu W, Sun Q, Ye Z, Fan G, Xu X, Yu X, Ji S, and Qin Y

Abstract

The secreted fibroblast growth factor (FGF) binding protein (FGF-BP), which is an extracellular chaperone molecule for FGFs, has been demonstrated to enhance the biological and biochemical activities of FGFs and to be closely related to the growth of several cancers. However, the role of FGFBP1 in pancreatic adenocarcinoma (PDAC) has not been studied extensively. We previously reported that decreased FBW7 could induce pancreatic cancer proliferation and progression. In the present study, we investigated whether FBW7 inhibited cell proliferation and metastasis by decreasing the expression of FGFBP1 in pancreatic cancer. We initially confirmed that pancreatic cancer patients with higher FGFBP1 expression had a worse prognosis. Next, we demonstrated that FGFBP1 silencing inhibited the proliferation and metastasis of PANC-1 and Mia PaCa-2 cells. Mechanistically, FGFBP1 was negatively correlated with FBW7 but positively correlated with c-Myc in PDAC tissue samples, and FBW7 regulated FGFBP1 in a c-Myc-dependent manner. We also found that FBW7 silencing could partly reverse the effect of FGFBP1 silencing on proliferation and metastasis. In summary, FGFBP1 is a prognostic marker for overall survival and is required for pancreatic cancer cell proliferation and metastasis, which is mediated by FBW7 in a c-Myc-dependent manner. Thus, targeting the FBW7/c-Myc/FGFBP1 axis might suppress recurrence and metastasis and provide novel treatment strategies for PDAC., Competing Interests: None., (AJCR Copyright © 2019.)

Published

2019