Literature DB >> 33500735

Cisplatin prevents breast cancer metastasis through blocking early EMT and retards cancer growth together with paclitaxel.

Haitao Wang1,2, Sen Guo1,2, Seung-Jin Kim3, Fangyuan Shao1,2, Joshua Wing Kei Ho4, Kuan Un Wong1,2, Zhengqiang Miao1,2, Dapeng Hao1,2, Ming Zhao1,2, Jun Xu1,2, Jianming Zeng1,2, Koon Ho Wong1,5, Lijun Di1,2, Ada Hang-Heng Wong1,2, Xiaoling Xu1,2, Chu-Xia Deng1,2.   

Abstract

Cancer growth is usually accompanied by metastasis which kills most cancer patients. Here we aim to study the effect of cisplatin at different doses on breast cancer growth and metastasis.
Methods: We used cisplatin to treat breast cancer cells, then detected the migration of cells and the changes of epithelial-mesenchymal transition (EMT) markers by migration assay, Western blot, and immunofluorescent staining. Next, we analyzed the changes of RNA expression of genes by RNA-seq and confirmed the binding of activating transcription factor 3 (ATF3) to cytoskeleton related genes by ChIP-seq. Thereafter, we combined cisplatin and paclitaxel in a neoadjuvant setting to treat xenograft mouse models. Furthermore, we analyzed the association of disease prognosis with cytoskeletal genes and ATF3 by clinical data analysis.
Results: When administered at a higher dose (6 mg/kg), cisplatin inhibits both cancer growth and metastasis, yet with strong side effects, whereas a lower dose (2 mg/kg) cisplatin blocks cancer metastasis without obvious killing effects. Cisplatin inhibits cancer metastasis through blocking early steps of EMT. It antagonizes transforming growth factor beta (TGFβ) signaling through suppressing transcription of many genes involved in cytoskeleton reorganization and filopodia formation which occur early in EMT and are responsible for cancer metastasis. Mechanistically, TGFβ and fibronectin-1 (FN1) constitute a positive reciprocal regulation loop that is critical for activating TGFβ/SMAD3 signaling, which is repressed by cisplatin induced expression of ATF3. Furthermore, neoadjuvant administration of cisplatin at 2 mg/kg in conjunction with paclitaxel inhibits cancer growth and blocks metastasis without causing obvious side effects by inhibiting colonization of cancer cells in the target organs.
Conclusion: Thus, cisplatin prevents breast cancer metastasis through blocking early EMT, and the combination of cisplatin and paclitaxel represents a promising therapy for killing breast cancer and blocking tumor metastasis. © The author(s).

Entities:  

Keywords:  TGFβ; cisplatin; metastasis; neoadjuvant therapy; paclitaxel

Year:  2021        PMID: 33500735      PMCID: PMC7797698          DOI: 10.7150/thno.46460

Source DB:  PubMed          Journal:  Theranostics        ISSN: 1838-7640            Impact factor:   11.556


  87 in total

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Authors:  Yuan Zhang; Lei Chen; Guo-Qing Hu; Ning Zhang; Xiao-Dong Zhu; Kun-Yu Yang; Feng Jin; Mei Shi; Yu-Pei Chen; Wei-Han Hu; Zhi-Bin Cheng; Si-Yang Wang; Ye Tian; Xi-Cheng Wang; Yan Sun; Jin-Gao Li; Wen-Fei Li; Yu-Hong Li; Ling-Long Tang; Yan-Ping Mao; Guan-Qun Zhou; Rui Sun; Xu Liu; Rui Guo; Guo-Xian Long; Shao-Qiang Liang; Ling Li; Jing Huang; Jin-Hua Long; Jian Zang; Qiao-Dan Liu; Li Zou; Qiong-Fei Su; Bao-Min Zheng; Yun Xiao; Ying Guo; Fei Han; Hao-Yuan Mo; Jia-Wei Lv; Xiao-Jing Du; Cheng Xu; Na Liu; Ying-Qin Li; Melvin L K Chua; Fang-Yun Xie; Ying Sun; Jun Ma
Journal:  N Engl J Med       Date:  2019-05-31       Impact factor: 91.245

3.  Paclitaxel therapy promotes breast cancer metastasis in a TLR4-dependent manner.

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Review 6.  Role of activating transcription factor 3 and its interacting proteins under physiological and pathological conditions.

Authors:  M Rohini; A Haritha Menon; N Selvamurugan
Journal:  Int J Biol Macromol       Date:  2018-08-23       Impact factor: 6.953

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Review 8.  TGF-β-Mediated Epithelial-Mesenchymal Transition and Cancer Metastasis.

Authors:  Yang Hao; David Baker; Peter Ten Dijke
Journal:  Int J Mol Sci       Date:  2019-06-05       Impact factor: 5.923

9.  The common stress responsive transcription factor ATF3 binds genomic sites enriched with p300 and H3K27ac for transcriptional regulation.

Authors:  Jonathan Zhao; Xingyao Li; Mingxiong Guo; Jindan Yu; Chunhong Yan
Journal:  BMC Genomics       Date:  2016-05-04       Impact factor: 3.969

10.  Induction of Activating Transcription Factor 3 Is Associated with Cisplatin Responsiveness in Non-Small Cell Lung Carcinoma Cells.

Authors:  Jair Bar; Mohamed S Hasim; Tabassom Baghai; Nima Niknejad; Theodore J Perkins; David J Stewart; Harmanjatinder S Sekhon; Patrick J Villeneuve; Jim Dimitroulakos
Journal:  Neoplasia       Date:  2016-09       Impact factor: 5.715
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  13 in total

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2.  Breast Cancer Prognosis Prediction and Immune Pathway Molecular Analysis Based on Mitochondria-Related Genes.

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Journal:  Genet Res (Camb)       Date:  2022-05-31       Impact factor: 1.375

3.  Cytotoxic and Antimigration Activity of Etlingera alba (A.D.) Poulsen Rhizome.

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Review 4.  Curcumin as an Enhancer of Therapeutic Efficiency of Chemotherapy Drugs in Breast Cancer.

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Review 5.  Metallodrugs: an approach against invasion and metastasis in cancer treatment.

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7.  Establishment and Analysis of an Individualized EMT-Related Gene Signature for the Prognosis of Breast Cancer in Female Patients.

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8.  Novel Selenoesters as a Potential Tool in Triple-Negative Breast Cancer Treatment.

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9.  Mechanism of Anticancer Action of Novel Imidazole Platinum(II) Complex Conjugated with G2 PAMAM-OH Dendrimer in Breast Cancer Cells.

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10.  Inhibition of Ceramide Glycosylation Enhances Cisplatin Sensitivity in Cholangiocarcinoma by Limiting the Activation of the ERK Signaling Pathway.

Authors:  Piyasiri Chueakwon; Peeranat Jatooratthawichot; Krajang Talabnin; James R Ketudat Cairns; Chutima Talabnin
Journal:  Life (Basel)       Date:  2022-02-28
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