Literature DB >> 30590461

Modeling human prostate cancer progression in vitro.

Teresa T Liu1, Jonathan A Ewald1, Emily A Ricke1, Robert Bell2, Colin Collins2, William A Ricke1,3,4.   

Abstract

Detailed mechanisms involved in prostate cancer (CaP) development and progression are not well understood. Current experimental models used to study CaP are not well suited to address this issue. Previously, we have described the hormonal progression of non-tumorigenic human prostate epithelial cells (BPH1) into malignant cells via tissue recombination. Here, we describe a method to derive human cell lines from distinct stages of CaP that parallel cellular, genetic and epigenetic changes found in patients with cancers. This BPH1-derived Cancer Progression (BCaP) model represents different stages of cancer. Using diverse analytical strategies, we show that the BCaP model reproduces molecular characteristics of CaP in human patients. Furthermore, we demonstrate that BCaP cells have altered gene expression of shared pathways with human and transgenic mouse CaP data, as well as, increasing genomic instability with TMPRSS2-ERG fusion in advanced tumor cells. Together, these cell lines represent a unique model of human CaP progression providing a novel tool that will allow the discovery and experimental validation of mechanisms regulating human CaP development and progression. This BPH1-derived Cancer Progression (BCaP) model represents different stages of cancer. The BCaP model reproduces molecular characteristics of prostate cancer. The cells have altered gene expression with TMPRSS2-ERG fusion representing a unique model for prostate cancer progression.
© The Author(s) 2018. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.

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Year:  2019        PMID: 30590461      PMCID: PMC6642366          DOI: 10.1093/carcin/bgy185

Source DB:  PubMed          Journal:  Carcinogenesis        ISSN: 0143-3334            Impact factor:   4.944


  56 in total

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Authors:  Ron Edgar; Michael Domrachev; Alex E Lash
Journal:  Nucleic Acids Res       Date:  2002-01-01       Impact factor: 16.971

2.  Evidence for a rare prostate cancer-susceptibility locus at chromosome 1p36.

Authors:  M Gibbs; J L Stanford; R A McIndoe; G P Jarvik; S Kolb; E L Goode; L Chakrabarti; E F Schuster; V A Buckley; E L Miller; S Brandzel; S Li; L Hood; E A Ostrander
Journal:  Am J Hum Genet       Date:  1999-03       Impact factor: 11.025

3.  Malignant transformation in a nontumorigenic human prostatic epithelial cell line.

Authors:  S W Hayward; Y Wang; M Cao; Y K Hom; B Zhang; G D Grossfeld; D Sudilovsky; G R Cunha
Journal:  Cancer Res       Date:  2001-11-15       Impact factor: 12.701

4.  A human prostatic epithelial model of hormonal carcinogenesis.

Authors:  Y Wang; D Sudilovsky; B Zhang; P C Haughney; M A Rosen; D S Wu; T J Cunha; R Dahiya; G R Cunha; S W Hayward
Journal:  Cancer Res       Date:  2001-08-15       Impact factor: 12.701

Review 5.  Use of nude mouse xenograft models in prostate cancer research.

Authors:  W M van Weerden; J C Romijn
Journal:  Prostate       Date:  2000-06-01       Impact factor: 4.104

6.  The metalloproteinase inhibitor TIMP-2 is down-regulated by androgens in LNCaP prostate carcinoma cells.

Authors:  Ase Bratland; Erlend Ragnhildstveit; Kristin Bjørnland; Kristin Andersen; Gunhild Mari Maelandsmo; Oystein Fodstad; Fahri Saatcioglu; Anne Hansen Ree
Journal:  Clin Exp Metastasis       Date:  2003       Impact factor: 5.150

7.  Ligand- and kinase activity-independent cell survival mediated by the epidermal growth factor receptor expressed in 32D cells.

Authors:  Jonathan A Ewald; John C Wilkinson; Cheryl A Guyer; James V Staros
Journal:  Exp Cell Res       Date:  2003-01-15       Impact factor: 3.905

8.  Gene expression alterations in prostate cancer predicting tumor aggression and preceding development of malignancy.

Authors:  Yan Ping Yu; Douglas Landsittel; Ling Jing; Joel Nelson; Baoguo Ren; Lijun Liu; Courtney McDonald; Ryan Thomas; Rajiv Dhir; Sydney Finkelstein; George Michalopoulos; Michael Becich; Jian-Hua Luo
Journal:  J Clin Oncol       Date:  2004-07-15       Impact factor: 44.544

9.  Transcriptional silencing of zinc finger protein 185 identified by expression profiling is associated with prostate cancer progression.

Authors:  Donkena Krishna Vanaja; John C Cheville; Steve J Iturria; Charles Y F Young
Journal:  Cancer Res       Date:  2003-07-15       Impact factor: 12.701

Review 10.  Prostate pathology of genetically engineered mice: definitions and classification. The consensus report from the Bar Harbor meeting of the Mouse Models of Human Cancer Consortium Prostate Pathology Committee.

Authors:  Scott B Shappell; George V Thomas; Richard L Roberts; Ron Herbert; Michael M Ittmann; Mark A Rubin; Peter A Humphrey; John P Sundberg; Nora Rozengurt; Roberto Barrios; Jerrold M Ward; Robert D Cardiff
Journal:  Cancer Res       Date:  2004-03-15       Impact factor: 12.701
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2.  Complementary proteome and glycoproteome access revealed through comparative analysis of reversed phase and porous graphitic carbon chromatography.

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Journal:  Anal Bioanal Chem       Date:  2022-02-09       Impact factor: 4.478

3.  A bioengineered organotypic prostate model for the study of tumor microenvironment-induced immune cell activation.

Authors:  Sheena C Kerr; Molly M Morgan; Amani A Gillette; Megan K Livingston; Karina M Lugo-Cintron; Peter F Favreau; Logan Florek; Brian P Johnson; Joshua M Lang; Melissa C Skala; David J Beebe
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4.  RNA-binding protein DDX3 mediates posttranscriptional regulation of androgen receptor: A mechanism of castration resistance.

Authors:  Jordan E Vellky; Sean T McSweeney; Emily A Ricke; William A Ricke
Journal:  Proc Natl Acad Sci U S A       Date:  2020-10-26       Impact factor: 11.205
  4 in total

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