Literature DB >> 23493350

Aberrant BAF57 signaling facilitates prometastatic phenotypes.

Sucharitha Balasubramaniam1, Clay E S Comstock, Adam Ertel, Kwang Won Jeong, Michael R Stallcup, Sankar Addya, Peter A McCue, William F Ostrander, Michael A Augello, Karen E Knudsen.   

Abstract

PURPOSE: BAF57, a component of the switching-defective and sucrose nonfermenting (SWI/SNF) chromatin-remodeling complex conglomerate, modulates androgen receptor activity to promote prostate cancer. However, the molecular consequences of tumor-associated BAF57 expression have remained undefined in advanced disease such as castration-resistant prostate cancer and/or metastasis. EXPERIMENTAL
DESIGN: Clinical human specimens of primary and metastatic prostate cancer were immunohistochemically examined for tumor-grade association of BAF57 expression. Global gene expression analyses were conducted in models mimicking tumor-associated BAF57 expression. Aberrant BAF57-dependent gene expression changes, bypass of androgen-mediated signaling, and chromatin-specific SWI/SNF complex alterations with respect to cytoskeletal remodelers such as integrins were validated. Cell migration assays were used to profile the biologic phenotypes conferred under conditions simulating tumor-derived BAF57 expression.
RESULTS: Immunohistochemical quantitation of primary human specimens revealed that BAF57 was significantly and aberrantly elevated as a function of tumor grade. Critically, gene expression analyses showed that BAF57 deregulation circumvented androgen-mediated signaling, elicited α2 integrin upregulation, and altered other SWI/SNF complex components at the α2 integrin locus. BAF57-dependent α2 integrin induction conferred a prometastatic migratory advantage, which was attenuated by anti-α2 integrin antibody blockade. Furthermore, BAF57 was found to be markedly upregulated in human prostate cancer metastases of the lung, lymph node, and dura.
CONCLUSION: The findings herein, identifying tumor-associated BAF57 perturbation as a means to bypass androgen-signaling events that facilitate novel prometastatic phenotypes, link BAF57 upregulation to tumor dissemination. These data thereby establish BAF57 as a putative marker of metastatic potential that could be leveraged for therapeutic intervention. ©2013 AACR

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Year:  2013        PMID: 23493350      PMCID: PMC3655134          DOI: 10.1158/1078-0432.CCR-12-3049

Source DB:  PubMed          Journal:  Clin Cancer Res        ISSN: 1078-0432            Impact factor:   12.531


  51 in total

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Authors:  Gary B Rosson; Christopher Bartlett; William Reed; B E Weissman
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Review 2.  SWI/SNF nucleosome remodellers and cancer.

Authors:  Boris G Wilson; Charles W M Roberts
Journal:  Nat Rev Cancer       Date:  2011-06-09       Impact factor: 60.716

3.  Characterization of SWI/SNF protein expression in human breast cancer cell lines and other malignancies.

Authors:  M F Decristofaro; B L Betz; C J Rorie; D N Reisman; W Wang; B E Weissman
Journal:  J Cell Physiol       Date:  2001-01       Impact factor: 6.384

4.  A role for BAF57 in cell cycle-dependent transcriptional regulation by the SWI/SNF chromatin remodeling complex.

Authors:  Nasun Hah; Annemieke Kolkman; Donald D Ruhl; W W M Pim Pijnappel; Albert J R Heck; H Th Marc Timmers; W Lee Kraus
Journal:  Cancer Res       Date:  2010-05-11       Impact factor: 12.701

5.  Prognostic significance of BAF57 expression in patients with endometrial carcinoma.

Authors:  S Kagami; T Kurita; T Kawagoe; N Toki; Y Matsuura; T Hachisuga; A Matsuyama; H Hashimoto; H Izumi; K Kohno
Journal:  Histol Histopathol       Date:  2012-05       Impact factor: 2.303

Review 6.  Pathological and molecular aspects of prostate cancer.

Authors:  Angelo M DeMarzo; William G Nelson; William B Isaacs; Jonathan I Epstein
Journal:  Lancet       Date:  2003-03-15       Impact factor: 79.321

7.  Persistent prostate-specific antigen expression after neoadjuvant androgen depletion: an early predictor of relapse or incomplete androgen suppression.

Authors:  Charles J Ryan; Alex Smith; Priti Lal; Jaya Satagopan; Victor Reuter; Peter Scardino; William Gerald; Howard I Scher
Journal:  Urology       Date:  2006-10       Impact factor: 2.649

8.  Integrin signaling aberrations in prostate cancer.

Authors:  Hira Lal Goel; Naved Alam; Isaac N S Johnson; Lucia R Languino
Journal:  Am J Transl Res       Date:  2009-04-20       Impact factor: 4.060

9.  Androgen receptor regulates a distinct transcription program in androgen-independent prostate cancer.

Authors:  Qianben Wang; Wei Li; Yong Zhang; Xin Yuan; Kexin Xu; Jindan Yu; Zhong Chen; Rameen Beroukhim; Hongyun Wang; Mathieu Lupien; Tao Wu; Meredith M Regan; Clifford A Meyer; Jason S Carroll; Arjun Kumar Manrai; Olli A Jänne; Steven P Balk; Rohit Mehra; Bo Han; Arul M Chinnaiyan; Mark A Rubin; Lawrence True; Michelangelo Fiorentino; Christopher Fiore; Massimo Loda; Philip W Kantoff; X Shirley Liu; Myles Brown
Journal:  Cell       Date:  2009-07-23       Impact factor: 41.582

Review 10.  Involvement of integrins in cell survival.

Authors:  R C Bates; L F Lincz; G F Burns
Journal:  Cancer Metastasis Rev       Date:  1995-09       Impact factor: 9.264
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  20 in total

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Authors:  Chellappagounder Thangavel; Ettickan Boopathi; Yi Liu; Christopher McNair; Alex Haber; Maryna Perepelyuk; Anshul Bhardwaj; Sankar Addya; Adam Ertel; Sunday Shoyele; Ruth Birbe; Joseph M Salvino; Adam P Dicker; Karen E Knudsen; Robert B Den
Journal:  Clin Cancer Res       Date:  2018-01-08       Impact factor: 12.531

2.  Linking the SWI/SNF complex to prostate cancer.

Authors:  Ryan S Lee; Charles W M Roberts
Journal:  Nat Genet       Date:  2013-11       Impact factor: 38.330

3.  SMARCE1 is required for the invasive progression of in situ cancers.

Authors:  Ethan S Sokol; Yu-Xiong Feng; Dexter X Jin; Minu D Tizabi; Daniel H Miller; Malkiel A Cohen; Sandhya Sanduja; Ferenc Reinhardt; Jai Pandey; Daphne A Superville; Rudolf Jaenisch; Piyush B Gupta
Journal:  Proc Natl Acad Sci U S A       Date:  2017-04-04       Impact factor: 11.205

Review 4.  Rationale for the development of alternative forms of androgen deprivation therapy.

Authors:  Sangeeta Kumari; Dhirodatta Senapati; Hannelore V Heemers
Journal:  Endocr Relat Cancer       Date:  2017-05-31       Impact factor: 5.678

5.  A New Chromatin-Cytoskeleton Link in Cancer.

Authors:  Amato J Giaccia
Journal:  Mol Cancer Res       Date:  2016-08-15       Impact factor: 5.852

Review 6.  AR function in promoting metastatic prostate cancer.

Authors:  Michael A Augello; Robert B Den; Karen E Knudsen
Journal:  Cancer Metastasis Rev       Date:  2014-09       Impact factor: 9.264

Review 7.  HMGB1 in health and disease.

Authors:  Rui Kang; Ruochan Chen; Qiuhong Zhang; Wen Hou; Sha Wu; Lizhi Cao; Jin Huang; Yan Yu; Xue-Gong Fan; Zhengwen Yan; Xiaofang Sun; Haichao Wang; Qingde Wang; Allan Tsung; Timothy R Billiar; Herbert J Zeh; Michael T Lotze; Daolin Tang
Journal:  Mol Aspects Med       Date:  2014-07-08

Review 8.  Epigenomic regulation of oncogenesis by chromatin remodeling.

Authors:  R Kumar; D-Q Li; S Müller; S Knapp
Journal:  Oncogene       Date:  2016-01-25       Impact factor: 9.867

9.  Improvement in Therapeutic Efficacy and Reduction in Cellular Toxicity: Introduction of a Novel Anti-PSMA-Conjugated Hybrid Antiandrogen Nanoparticle.

Authors:  Chellappagounder Thangavel; Maryna Perepelyuk; Ettickan Boopathi; Yi Liu; Steven Polischak; Deepak A Deshpande; Khadija Rafiq; Adam P Dicker; Karen E Knudsen; Sunday A Shoyele; Robert B Den
Journal:  Mol Pharm       Date:  2018-04-04       Impact factor: 4.939

Review 10.  ATP-dependent chromatin remodeling complexes as novel targets for cancer therapy.

Authors:  Kimberly Mayes; Zhijun Qiu; Aiman Alhazmi; Joseph W Landry
Journal:  Adv Cancer Res       Date:  2014       Impact factor: 6.242
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