Literature DB >> 24577942

Pharmacologic suppression of JAK1/2 by JAK1/2 inhibitor AZD1480 potently inhibits IL-6-induced experimental prostate cancer metastases formation.

Lei Gu1, Pooja Talati, Paraskevi Vogiatzi, Ana L Romero-Weaver, Junaid Abdulghani, Zhiyong Liao, Benjamin Leiby, David T Hoang, Tuomas Mirtti, Kalle Alanen, Michael Zinda, Dennis Huszar, Marja T Nevalainen.   

Abstract

Metastatic prostate cancer is lethal and lacks effective strategies for prevention or treatment, requiring novel therapeutic approaches. Interleukin-6 (IL-6) is a cytokine that has been linked with prostate cancer pathogenesis by multiple studies. However, the direct functional roles of IL-6 in prostate cancer growth and progression have been unclear. In the present study, we show that IL-6 is produced in distant metastases of clinical prostate cancers. IL-6-activated signaling pathways in prostate cancer cells induced a robust 7-fold increase in metastases formation in nude mice. We further show that IL-6 promoted migratory prostate cancer cell phenotype, including increased prostate cancer cell migration, microtubule reorganization, and heterotypic adhesion of prostate cancer cells to endothelial cells. IL-6-driven metastasis was predominantly mediated by Stat3 and to lesser extent by ERK1/2. Most importantly, pharmacologic inhibition of Jak1/2 by AZD1480 suppressed IL-6-induced signaling, migratory prostate cancer cell phenotypes, and metastatic dissemination of prostate cancer in vivo in nude mice. In conclusion, we demonstrate that the cytokine IL-6 directly promotes prostate cancer metastasis in vitro and in vivo via Jak-Stat3 signaling pathway, and that IL-6-driven metastasis can be effectively suppressed by pharmacologic targeting of Jak1/2 using Jak1/2 inhibitor AZD1480. Our results therefore provide a strong rationale for further development of Jak1/2 inhibitors as therapy for metastatic prostate cancer.

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Year:  2014        PMID: 24577942      PMCID: PMC4013199          DOI: 10.1158/1535-7163.MCT-13-0605

Source DB:  PubMed          Journal:  Mol Cancer Ther        ISSN: 1535-7163            Impact factor:   6.261


  51 in total

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Authors:  P D Deeble; D J Murphy; S J Parsons; M E Cox
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2.  Immunohistochemical localization of interleukin-6 and its receptor in benign, premalignant and malignant prostate tissue.

Authors:  A Hobisch; H Rogatsch; A Hittmair; D Fuchs; G Bartsch; H Klocker; G Bartsch; Z Culig
Journal:  J Pathol       Date:  2000-07       Impact factor: 7.996

3.  STAT3 mediates IL-6-induced growth inhibition in the human prostate cancer cell line LNCaP.

Authors:  M T Spiotto; T D Chung
Journal:  Prostate       Date:  2000-02-01       Impact factor: 4.104

4.  Prostate cancer cells (LNCaP) generated after long-term interleukin 6 (IL-6) treatment express IL-6 and acquire an IL-6 partially resistant phenotype.

Authors:  A Hobisch; R Ramoner; D Fuchs; S Godoy-Tundidor; G Bartsch; H Klocker; Z Culig
Journal:  Clin Cancer Res       Date:  2001-09       Impact factor: 12.531

5.  Plasma levels of interleukin-6 and its soluble receptor are associated with prostate cancer progression and metastasis.

Authors:  S F Shariat; B Andrews; M W Kattan; J Kim; T M Wheeler; K M Slawin
Journal:  Urology       Date:  2001-12       Impact factor: 2.649

6.  Interleukin-6 is an autocrine growth factor in human prostate cancer.

Authors:  D Giri; M Ozen; M Ittmann
Journal:  Am J Pathol       Date:  2001-12       Impact factor: 4.307

7.  Cytokine variations in patients with hormone treated prostate cancer.

Authors:  G J Wise; V K Marella; G Talluri; D Shirazian
Journal:  J Urol       Date:  2000-09       Impact factor: 7.450

8.  Interleukin 6 activates androgen receptor-mediated gene expression through a signal transducer and activator of transcription 3-dependent pathway in LNCaP prostate cancer cells.

Authors:  T Chen; L H Wang; W L Farrar
Journal:  Cancer Res       Date:  2000-04-15       Impact factor: 12.701

9.  Serum interleukin 6 as a prognostic factor in patients with prostate cancer.

Authors:  J Nakashima; M Tachibana; Y Horiguchi; M Oya; T Ohigashi; H Asakura; M Murai
Journal:  Clin Cancer Res       Date:  2000-07       Impact factor: 12.531

10.  Endothelial cells enhance prostate cancer metastasis via IL-6→androgen receptor→TGF-β→MMP-9 signals.

Authors:  Xiaohai Wang; Soo Ok Lee; Shujie Xia; Qi Jiang; Jie Luo; Lei Li; Shuyuan Yeh; Chawnshang Chang
Journal:  Mol Cancer Ther       Date:  2013-03-27       Impact factor: 6.261
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  19 in total

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Authors:  Nathan R West; Sarah McCuaig; Fanny Franchini; Fiona Powrie
Journal:  Nat Rev Immunol       Date:  2015-09-11       Impact factor: 53.106

2.  Expression of signal transducer and activator of transcription 3 and its phosphorylated form is significantly upregulated in patients with papillary thyroid cancer.

Authors:  L I Yan; L I Li; Qinghuai Li; Wang DI; Wei Shen; Linlei Zhang; Hao Guo
Journal:  Exp Ther Med       Date:  2015-04-07       Impact factor: 2.447

3.  AT-rich interaction domain 5A regulates the transcription of interleukin-6 gene in prostate cancer cells.

Authors:  Wataru Ikeuchi; Yuriko Wakita; Guoxiang Zhang; Chun Li; Keiichi Itakura; Takahiro Yamakawa
Journal:  Prostate       Date:  2021-10-11       Impact factor: 4.104

4.  Targeted Blockade of JAK/STAT3 Signaling Inhibits Ovarian Carcinoma Growth.

Authors:  Galina Gritsina; Fang Xiao; Shane W O'Brien; Rashid Gabbasov; Marisa A Maglaty; Ren-Huan Xu; Roshan J Thapa; Yan Zhou; Emmanuelle Nicolas; Samuel Litwin; Siddharth Balachandran; Luis J Sigal; Dennis Huszar; Denise C Connolly
Journal:  Mol Cancer Ther       Date:  2015-02-02       Impact factor: 6.261

5.  Tumor Evolution in a Patient with Recurrent Endometrial Cancer and Synchronous Neuroendocrine Cancer and Response to Checkpoint Inhibitor Treatment.

Authors:  Nikolaos A Trikalinos; Deyali Chatterjee; Kyle Winter; Matthew Powell; Motoyo Yano
Journal:  Oncologist       Date:  2020-10-03       Impact factor: 5.837

6.  FTY720 inhibits proliferation and epithelial-mesenchymal transition in cholangiocarcinoma by inactivating STAT3 signaling.

Authors:  Zhaoyang Lu; Jiabei Wang; Tongsen Zheng; Yingjian Liang; Dalong Yin; Ruipeng Song; Tiemin Pei; Shangha Pan; Hongchi Jiang; Lianxin Liu
Journal:  BMC Cancer       Date:  2014-10-25       Impact factor: 4.430

7.  Self-assembling nanoparticles encapsulating zoledronic acid inhibit mesenchymal stromal cells differentiation, migration and secretion of proangiogenic factors and their interactions with prostate cancer cells.

Authors:  Cinzia Borghese; Naike Casagrande; Eliana Pivetta; Alfonso Colombatti; Mariarosaria Boccellino; Evzen Amler; Nicola Normanno; Michele Caraglia; Giuseppe De Rosa; Donatella Aldinucci
Journal:  Oncotarget       Date:  2017-06-27

Review 8.  Circulating Cytokine Levels as Markers of Inflammation in Philadelphia Negative Myeloproliferative Neoplasms: Diagnostic and Prognostic Interest.

Authors:  Julie Mondet; Kais Hussein; Pascal Mossuz
Journal:  Mediators Inflamm       Date:  2015-10-07       Impact factor: 4.711

9.  A combination of sorafenib and nilotinib reduces the growth of castrate-resistant prostate cancer.

Authors:  Monica Archibald; Tara Pritchard; Hayley Nehoff; Rhonda J Rosengren; Khaled Greish; Sebastien Taurin
Journal:  Int J Nanomedicine       Date:  2016-01-08

Review 10.  The Role and Mechanism of Epithelial-to-Mesenchymal Transition in Prostate Cancer Progression.

Authors:  U-Ging Lo; Cheng-Fan Lee; Ming-Shyue Lee; Jer-Tsong Hsieh
Journal:  Int J Mol Sci       Date:  2017-09-30       Impact factor: 5.923
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