Literature DB >> 26229107

The oncoprotein HBXIP modulates the feedback loop of MDM2/p53 to enhance the growth of breast cancer.

Hang Li1, Qian Liu1, Zhen Wang1, Runping Fang1, Yu Shen1, Xiaoli Cai1, Yuen Gao2, Yinghui Li1, Xiaodong Zhang3, Lihong Ye4.   

Abstract

MDM2 and p53 form a negative feedback loop, in which p53 as a transcription factor positively regulates MDM2 and MDM2 negatively regulates tumor suppressor p53 through promoting its degradation. However, the mechanism of the feedback loop is poorly understood in cancers. We had reported previously that the oncoprotein hepatitis B X-interacting protein (HBXIP) is a key oncoprotein in the development of cancer. Thus, we supposed that HBXIP might be involved in the event. Here, we observed that the expression levels of HBXIP were positively correlated to those of MDM2 in clinical breast cancer tissues. Interestingly, HBXIP was able to up-regulate MDM2 at the levels of mRNA and protein in MCF-7 breast cancer cells. Mechanically, HBXIP increased the promoter activities of MDM2 through directly binding to p53 in the P2 promoter of MDM2. Strikingly, we identified that the acetyltransferase p300 was recruited by HBXIP to p53 in the promoter of MDM2. Moreover, we validated that HBXIP enhanced the p53 degradation mediated by MDM2. Functionally, the knockdown of HBXIP or/and p300 inhibited the proliferation of breast cancer cells in vitro, and the depletion of MDM2 or overexpression of p53 significantly blocked the HBXIP-promoted growth of breast cancer in vitro and in vivo. Thus, we concluded that highly expressed HBXIP accelerates the MDM2-mediated degradation of p53 in breast cancer through modulating the feedback loop of MDM2/p53, resulting in the fast growth of breast cancer cells. Our findings provide new insights into the mechanism of the acceleration of the MDM2/p53 feedback loop in the development of cancer.
© 2015 by The American Society for Biochemistry and Molecular Biology, Inc.

Entities:  

Keywords:  HBXIP; breast cancer; mouse double minute 2 homolog (MDM2); oncogene; p300; p53; tumor

Mesh:

Substances:

Year:  2015        PMID: 26229107      PMCID: PMC4566238          DOI: 10.1074/jbc.M115.658468

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  59 in total

1.  Functionalization of single-walled carbon nanotubes enables efficient intracellular delivery of siRNA targeting MDM2 to inhibit breast cancer cells growth.

Authors:  Hailong Chen; Xingyuan Ma; Zhi Li; Qiaoyun Shi; Wenyun Zheng; Yang Liu; Ping Wang
Journal:  Biomed Pharmacother       Date:  2012-02-17       Impact factor: 6.529

2.  p300 mediates androgen-independent transactivation of the androgen receptor by interleukin 6.

Authors:  Jose D Debes; Lucy J Schmidt; Haojie Huang; Donald J Tindall
Journal:  Cancer Res       Date:  2002-10-15       Impact factor: 12.701

3.  Transcription factor NFAT1 activates the mdm2 oncogene independent of p53.

Authors:  Xu Zhang; Zhuo Zhang; Jianwen Cheng; Mao Li; Wei Wang; Wenrong Xu; Hui Wang; Ruiwen Zhang
Journal:  J Biol Chem       Date:  2012-07-11       Impact factor: 5.157

4.  Relative quantitation of p53 and MDM2 gene expression in leiomyosarcoma; real-time semi-quantitative reverse transcription-polymerase chain reaction.

Authors:  K Miyajima; S Tamiya; Y Oda; T Adachi; T Konomoto; H Toyoshiba; K Masuda; M Tsuneyoshi
Journal:  Cancer Lett       Date:  2001-03-26       Impact factor: 8.679

5.  The oncoprotein HBXIP upregulates Lin28B via activating TF II D to promote proliferation of breast cancer cells.

Authors:  Qian Liu; Xiao Bai; Hang Li; Yingyi Zhang; Yu Zhao; Xiaodong Zhang; Lihong Ye
Journal:  Int J Cancer       Date:  2013-04-05       Impact factor: 7.396

6.  The oncoprotein HBXIP upregulates PDGFB via activating transcription factor Sp1 to promote the proliferation of breast cancer cells.

Authors:  Yingyi Zhang; Yu Zhao; Leilei Li; Yu Shen; Xiaoli Cai; Xiaodong Zhang; Lihong Ye
Journal:  Biochem Biophys Res Commun       Date:  2013-03-26       Impact factor: 3.575

7.  The oncoprotein HBXIP up-regulates Skp2 via activating transcription factor E2F1 to promote proliferation of breast cancer cells.

Authors:  Fuqiang Xu; Xiaona You; Fabao Liu; Xiaohong Shen; Yuanqing Yao; Lihong Ye; Xiaodong Zhang
Journal:  Cancer Lett       Date:  2013-01-22       Impact factor: 8.679

8.  p53 is a key molecular target of ursodeoxycholic acid in regulating apoptosis.

Authors:  Joana D Amaral; Rui E Castro; Susana Solá; Clifford J Steer; Cecília M P Rodrigues
Journal:  J Biol Chem       Date:  2007-09-19       Impact factor: 5.157

9.  Ragulator is a GEF for the rag GTPases that signal amino acid levels to mTORC1.

Authors:  Liron Bar-Peled; Lawrence D Schweitzer; Roberto Zoncu; David M Sabatini
Journal:  Cell       Date:  2012-09-14       Impact factor: 41.582

10.  The nuclear import of oncoprotein hepatitis B X-interacting protein depends on interacting with c-Fos and phosphorylation of both proteins in breast cancer cells.

Authors:  Yingyi Zhang; Yu Zhao; Hang Li; Yinghui Li; Xiaoli Cai; Yu Shen; Hui Shi; Leilei Li; Qian Liu; Xiaodong Zhang; Lihong Ye
Journal:  J Biol Chem       Date:  2013-05-10       Impact factor: 5.157
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  13 in total

1.  Deacetylation of tumor-suppressor MST1 in Hippo pathway induces its degradation through HBXIP-elevated HDAC6 in promotion of breast cancer growth.

Authors:  L Li; R Fang; B Liu; H Shi; Y Wang; W Zhang; X Zhang; L Ye
Journal:  Oncogene       Date:  2015-12-14       Impact factor: 9.867

2.  Hepatitis B X-interacting protein promotes the formation of the insulin gene-transcribing protein complex Pdx-1/Neurod1 in animal pancreatic β-cells.

Authors:  Hang Li; Zhen Wang; Yinghui Li; Runping Fang; Huawei Wang; Hui Shi; Xiaodong Zhang; Weiying Zhang; Lihong Ye
Journal:  J Biol Chem       Date:  2017-12-19       Impact factor: 5.157

3.  LAMTOR5 raises abnormal initiation of O-glycosylation in breast cancer metastasis via modulating GALNT1 activity.

Authors:  Runping Fang; Feifei Xu; Hui Shi; Yue Wu; Can Cao; Hang Li; Kai Ye; Yingyi Zhang; Qian Liu; Shuqin Zhang; Weiying Zhang; Lihong Ye
Journal:  Oncogene       Date:  2019-12-13       Impact factor: 9.867

4.  The oncoprotein HBXIP promotes human breast cancer growth through down-regulating p53 via miR-18b/MDM2 and pAKT/MDM2 pathways.

Authors:  Hang Li; Zhen Wang; Mian Jiang; Run-Ping Fang; Hui Shi; Yu Shen; Xiao-Li Cai; Qian Liu; Kai Ye; Sai-Jun Fan; Wei-Ying Zhang; Li-Hong Ye
Journal:  Acta Pharmacol Sin       Date:  2018-09-04       Impact factor: 6.150

5.  The modulation of PD-L1 induced by the oncogenic HBXIP for breast cancer growth.

Authors:  Fei-Fei Xu; Hui-Min Sun; Run-Ping Fang; Lu Zhang; Hui Shi; Xue Wang; Xue-Li Fu; Xian-Meng Li; Xu-He Shi; Yue Wu; Kai Ye; Wei-Ying Zhang; Li-Hong Ye
Journal:  Acta Pharmacol Sin       Date:  2021-04-06       Impact factor: 6.150

6.  Inflammatory factor TNF-α promotes the growth of breast cancer via the positive feedback loop of TNFR1/NF-κB (and/or p38)/p-STAT3/HBXIP/TNFR1.

Authors:  Xiaoli Cai; Can Cao; Jiong Li; Fuquan Chen; Shuqin Zhang; Bowen Liu; Weiying Zhang; Xiaodong Zhang; Lihong Ye
Journal:  Oncotarget       Date:  2017-04-06

Review 7.  The role of MDM2 and MDM4 in breast cancer development and prevention.

Authors:  Sue Haupt; Reshma Vijayakumaran; Panimaya Jeffreena Miranda; Andrew Burgess; Elgene Lim; Ygal Haupt
Journal:  J Mol Cell Biol       Date:  2017-02-01       Impact factor: 6.216

8.  HBXIP overexpression is correlated with the clinical features and survival outcome of ovarian cancer.

Authors:  Yixuan Wang; Jie Sun; Nan Li; Shuanlong Che; Tiefeng Jin; Shuangping Liu; Zhenhua Lin
Journal:  J Ovarian Res       Date:  2017-04-07       Impact factor: 4.234

9.  HBXIP Regulates Gastric Cancer Glucose Metabolism and Malignancy Through PI3K/AKT and p53 Signaling.

Authors:  Lei Qiu; Feng Lu; Lili Zhang; Gang Wang; Rui Geng; Yongchang Miao
Journal:  Onco Targets Ther       Date:  2020-04-21       Impact factor: 4.147

10.  Oncoprotein HBXIP enhances HOXB13 acetylation and co-activates HOXB13 to confer tamoxifen resistance in breast cancer.

Authors:  Bowen Liu; Tianjiao Wang; Huawei Wang; Lu Zhang; Feifei Xu; Runping Fang; Leilei Li; Xiaoli Cai; Yue Wu; Weiying Zhang; Lihong Ye
Journal:  J Hematol Oncol       Date:  2018-02-23       Impact factor: 17.388
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