TY - JOUR
T1 - STAT5A/B gene locus undergoes amplification during human prostate cancer progression
AU - Haddad, Bassem R.
AU - Gu, Lei
AU - Mirtti, Tuomas
AU - Dagvadorj, Ayush
AU - Vogiatzi, Paraskevi
AU - Hoang, David T.
AU - Bajaj, Renu
AU - Leiby, Benjamin
AU - Ellsworth, Elyse
AU - Blackmon, Shauna
AU - Ruiz, Christian
AU - Curtis, Mark
AU - Fortina, Paolo
AU - Ertel, Adam
AU - Liu, Chengbao
AU - Rui, Hallgeir
AU - Visakorpi, Tapio
AU - Bubendorf, Lukas
AU - Lallas, Costas D.
AU - Trabulsi, Edouard J.
AU - McCue, Peter
AU - Gomella, Leonard
AU - Nevalainen, Marja T.
N1 - Copyright © 2013 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.
PY - 2013/6
Y1 - 2013/6
N2 - The molecular mechanisms underlying progression of prostate cancer (PCa) to castrate-resistant (CR) and metastatic disease are poorly understood. Our previous mechanistic work shows that inhibition of transcription factor Stat5 by multiple alternative methods induces extensive rapid apoptotic death of Stat5-positive PCa cells in vitro and inhibits PCa xenograft tumor growth in nude mice. Furthermore, STAT5A/B induces invasive behavior of PCa cells in vitro and in vivo, suggesting involvement of STAT5A/B in PCa progression. Nuclear STAT5A/B protein levels are increased in high-grade PCas, CR PCas, and distant metastases, and high nuclear STAT5A/B expression predicts early disease recurrence and PCa-specific death in clinical PCas. Based on these findings, STAT5A/B represents a therapeutic target protein for advanced PCa. The mechanisms underlying increased Stat5 protein levels in PCa are unclear. Herein, we demonstrate amplification at the STAT5A/B gene locus in a significant fraction of clinical PCa specimens. STAT5A/B gene amplification was more frequently found in PCas of high histologic grades and in CR distant metastases. Quantitative in situ analysis revealed that STAT5A/B gene amplification was associated with increased STAT5A/B protein expression in PCa. Functional studies showed that increased STAT5A/B copy numbers conferred growth advantage in PCa cells in vitro and as xenograft tumors in vivo. The work presented herein provides the first evidence of somatic STAT5A/B gene amplification in clinical PCas.
AB - The molecular mechanisms underlying progression of prostate cancer (PCa) to castrate-resistant (CR) and metastatic disease are poorly understood. Our previous mechanistic work shows that inhibition of transcription factor Stat5 by multiple alternative methods induces extensive rapid apoptotic death of Stat5-positive PCa cells in vitro and inhibits PCa xenograft tumor growth in nude mice. Furthermore, STAT5A/B induces invasive behavior of PCa cells in vitro and in vivo, suggesting involvement of STAT5A/B in PCa progression. Nuclear STAT5A/B protein levels are increased in high-grade PCas, CR PCas, and distant metastases, and high nuclear STAT5A/B expression predicts early disease recurrence and PCa-specific death in clinical PCas. Based on these findings, STAT5A/B represents a therapeutic target protein for advanced PCa. The mechanisms underlying increased Stat5 protein levels in PCa are unclear. Herein, we demonstrate amplification at the STAT5A/B gene locus in a significant fraction of clinical PCa specimens. STAT5A/B gene amplification was more frequently found in PCas of high histologic grades and in CR distant metastases. Quantitative in situ analysis revealed that STAT5A/B gene amplification was associated with increased STAT5A/B protein expression in PCa. Functional studies showed that increased STAT5A/B copy numbers conferred growth advantage in PCa cells in vitro and as xenograft tumors in vivo. The work presented herein provides the first evidence of somatic STAT5A/B gene amplification in clinical PCas.
KW - Animals
KW - DNA Copy Number Variations
KW - DNA, Neoplasm/genetics
KW - Disease Progression
KW - Gene Amplification
KW - Gene Expression Regulation, Neoplastic/physiology
KW - Humans
KW - In Situ Hybridization, Fluorescence
KW - Male
KW - Mice
KW - Mice, Nude
KW - Neoplasm Grading
KW - Neoplasm Transplantation
KW - Prostatic Neoplasms/genetics
KW - Recurrence
KW - STAT5 Transcription Factor/biosynthesis
KW - Transplantation, Heterologous
KW - Tumor Cells, Cultured
KW - Tumor Suppressor Proteins/biosynthesis
UR - http://www.scopus.com/inward/record.url?scp=84878221509&partnerID=8YFLogxK
U2 - 10.1016/j.ajpath.2013.02.044
DO - 10.1016/j.ajpath.2013.02.044
M3 - Article
C2 - 23660011
AN - SCOPUS:84878221509
SN - 0002-9440
VL - 182
SP - 2264
EP - 2275
JO - American Journal of Pathology
JF - American Journal of Pathology
IS - 6
ER -