Permanent Genotypic and Phenotypic Change of Prostate Cancer Cell Line LNCaP through Cellular Interactions with Prostate or Bone Fibroblasts in vitro or in vivo.
- Author:
Hong Woo RHEE
1
;
Sung Hak KANG
;
Tae Kon HWANG
;
Leland W K CHUNG
Author Information
1. Department of Urology, College of Medicine, The Catholic University of Korea, Seoul, Korea.
- Publication Type:In Vitro ; Original Article
- Keywords:
Prostate neoplasm;
Cell-cell interaction;
Progression
- MeSH:
Cell Line*;
Comparative Genomic Hybridization;
Epigenomics;
Epithelium;
Fibroblasts*;
Genetic Therapy;
Humans;
Neoplasm Metastasis;
Parents;
Prostate*;
Prostatic Neoplasms*
- From:Journal of the Korean Cancer Association
2001;33(2):168-177
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
PURPOSE: Cell-cell interactions determine normal prostate development and subsequent neoplastic transfor mation. The progression of prostate cancer from androgen-dependent to androgen-independent states involves multiple steps of genetic changes mediated by tumor-microenvironment interactions. To understand the epigenetic factors that lead to progression, we studied if 1) androgen-dependent and non-metastatic LNCaP may interact with prostate or bone fibroblasts under microgravity-simulated conditions in vitro. 2) LNCaP may interact with prostate fibroblasts in vivo, and acquire androgen-independence and metastatic potential. MATERIALS AND METHODS: The LNCaP sublines were generated as follows. 1) LNCaP cells were grown in vitro either alone or with prostate or bone fibroblasts under microgravity-simulated conditions. 2) LNCaP cells were grown in vivo as chimeric tumors with prostate fibroblasts. The LNCaP sublines were characterized by studies of chromosomal analysis, comparative genomic hybridization and, in vivo tumorigenicity and metastatic potential. RESULTS: In comparison to the parental LNCaP cells, the LNCaP sublines underwent permanent genotypic and phenotypic changes manifested in androgen-independence and metastatic potential. CONCLUSION: These results emphasize the importance of cell-cell interaction as a critical determinant that could "induce" or "select" progenies favoring enhanced prostate cancer growth and progression. This concept favors the development of toxic gene therapy targeting both prostate cancer epithelium and supporting bone stroma for an effective eradication and prevention of prostate cancer bone metastasis.
