Abstract

Prostate cancer is currently the second leading cancer death in American men. Prostate cancer is dependent on androgen acting through the androgen receptor (AR) for growth and survival, and androgen ablation has been used for treatment of prostate cancer. Despite an initially favorable response, hormone ablation therapy eventually fails and the cancer progresses to an incurable metastatic disease. Epidemiological data regarding prostate cancer genetics indicate roles of AR mutation, as well as AR poly-glutamine (poly-Q) polymorphism, in susceptibility to prostate cancer development and response to therapy. The overall objective of this proposal is to create mouse prostate cancer models for studying the role of the AR in prostatic cancer development and metastasis. Using the Cre-loxP conditional gene knockout technology, several derivatives of TRAMP or PTEN-deficient mouse prostate cancer models with cell type-specific AR knockout (ARKO) (post-puberty epithelial, fibroblast-, and smooth muscle cell-specific ARKO), replacement of prostatic epithelial AR with AR(T857A) [murine equivalent of human AR(T877A)] mutant will be generated for in vivo study of the roles of the AR in prostate stromal cells or epithelial cells, the AR(T877A) mutation in prostate cancer initiation, progression, or metastasis. Prostate tumor initiation, progression, and/or metastasis in these models will be examined and compared with their littermates expressing wild type AR through histological analyses, immunohistochemical determination of various cellular markers, biochemical determination of the expression levels of tumor metastasis related genes and proteins, and analysis of invasive properties of their metastatic tumor. Through the differences in these parameters between the various ARKO or AR (T857A) mice and their wild type littermates, the role of the AR in each specific cell type and the AR(T877A) mutation in prostate carcinogenesis will be delineated. Information obtained from these studies not only will provide better understanding of the roles of the AR in prostate carcinogenesis, but also will be useful for designing new treatment regimen for prostate cancer in hormone refractory state. In addition, these models may be useful for testing new drugs for prostate cancer therapy. Project Narrative: New Mice Models for Studies of Androgen Receptor in Prostate Cancer We will generate various mouse models that lack the androgen receptor in individual cells of the prostate and study their influence on prostate cancer progression. Information obtained from our studies of the differences between these mice models will lead to our understanding some roles of the androgen receptor in the development of prostate cancer and also will be useful for designing new treatments for prostate cancer. In addition, these mice models may be useful for testing new drugs and treatments for prostate cancer therapy, which might eventually be used in humans.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA127300-04
Application #
7996057
Study Section
Cancer Genetics Study Section (CG)
Program Officer
Sathyamoorthy, Neeraja
Project Start
2008-01-01
Project End
2012-12-31
Budget Start
2011-01-01
Budget End
2011-12-31
Support Year
4
Fiscal Year
2011
Total Cost
$309,964
Indirect Cost

  Institution

Name
University of Rochester
Department
Pathology
Type
Schools of Dentistry
DUNS #
041294109
City
Rochester
State
NY
Country
United States
Zip Code
14627

  Publications

Wang, Ronghao; Sun, Yin; Li, Lei et al. (2017) Preclinical Study using Malat1 Small Interfering RNA or Androgen Receptor Splicing Variant 7 Degradation Enhancer ASC-J9® to Suppress Enzalutamide-resistant Prostate Cancer Progression. Eur Urol 72:835-844
Yue, Dan; Wang, Yong; Sun, Yin et al. (2017) C1QBP Regulates YBX1 to Suppress the Androgen Receptor (AR)-Enhanced RCC Cell Invasion. Neoplasia 19:135-144
Wen, Simeng; Tian, Jing; Niu, Yuanjie et al. (2016) ASC-J9(®), and not Casodex or Enzalutamide, suppresses prostate cancer stem/progenitor cell invasion via altering the EZH2-STAT3 signals. Cancer Lett 376:377-86
Huang, Chiung-Kuei; Luo, Jie; Lai, Kuo-Pao et al. (2015) Androgen receptor promotes abdominal aortic aneurysm development via modulating inflammatory interleukin-1? and transforming growth factor-?1 expression. Hypertension 66:881-91
Zhu, Guodong; Liang, Liang; Li, Lei et al. (2014) The expression and evaluation of androgen receptor in human renal cell carcinoma. Urology 83:510.e19-24
Huang, Chiung-Kuei; Luo, Jie; Lee, Soo Ok et al. (2014) Concise review: androgen receptor differential roles in stem/progenitor cells including prostate, embryonic, stromal, and hematopoietic lineages. Stem Cells 32:2299-308
Ma, Wen-Lung; Lai, Hsueh-Chou; Yeh, Shuyuan et al. (2014) Androgen receptor roles in hepatocellular carcinoma, fatty liver, cirrhosis and hepatitis. Endocr Relat Cancer 21:R165-82
Wen, Simeng; Niu, Yuanjie; Lee, Soo Ok et al. (2014) Androgen receptor (AR) positive vs negative roles in prostate cancer cell deaths including apoptosis, anoikis, entosis, necrosis and autophagic cell death. Cancer Treat Rev 40:31-40
Soh, Shu Fang; Huang, Chiung-Kuei; Lee, Soo Ok et al. (2014) Determination of androgen receptor degradation enhancer ASC-J9(®) in mouse sera and organs with liquid chromatography tandem mass spectrometry. J Pharm Biomed Anal 88:117-22
Hsu, Cheng-Lung; Liu, Jai-Shin; Wu, Po-Long et al. (2014) Identification of a new androgen receptor (AR) co-regulator BUD31 and related peptides to suppress wild-type and mutated AR-mediated prostate cancer growth via peptide screening and X-ray structure analysis. Mol Oncol 8:1575-87

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