ISOLATION OF CDNAS THAT ARE DIFFERENTIALLY EXPRESSED BETWEEN ANDROGEN-DEPENDENT AND ANDROGEN-INDEPENDENT PROSTATE CARCINOMA-CELLS USING DIFFERENTIAL DISPLAY PCR

被引：51

作者：

BLOK, LJ

KUMAR, MV

TINDALL, DJ

机构：

[1] MAYO CLIN & MAYO FDN, DEPT UROL RES, ROCHESTER, MN 55905 USA

[2] MAYO CLIN & MAYO FDN, DEPT BIOCHEM MOLEC BIOL, ROCHESTER, MN 55905 USA

来源：

PROSTATE | 1995年 / 26卷 / 04期

关键词：

DIFFERENTIAL DISPLAY; PCR; ANDROGEN; GENE EXPRESSION; PROSTATE CARCINOMA;

D O I：

10.1002/pros.2990260407

中图分类号：

R5 [内科学];

学科分类号：

1002 ; 100201 ;

摘要：

In the development of prostate cancer there is an important transition from androgen-dependent growth (which can be treated) to androgen-independent growth (which is beyond medical control). This transition is probably accompanied by genetic changes, resulting in the activation of oncogenes or the inactivation of tumor suppressor genes. In the present manuscript, the isolation of genes that may be involved in advanced, androgen-independent prostate cancer growth is described. Using differential display PCR, 13 cDNAs were isolated representing genes that are differentially expressed between the androgen-dependent prostate carcinoma cell line LNCaP and the androgen-independent prostate carcinoma cell lines PC-3 and DU 145. These clones were divided into four groups: androgen-responsive genes (TL5, TL25, TL32, and TL35); genes with a marked decreased expression in one of the prostate cancer cell lines (TL27); genes with a marked, increased expression in one or more of the prostate cancer cell lines (TL4, TL16, TL21, and TL22); and genes with minor (but repeatable) changes in expression between prostate cancer cell lines (TL7, TL15, TL18, and TL33). The 13 genes were analyzed for their sequence information, tissue specificity, and androgen responsiveness in order to identify genes of interest. In summary, differential display PCR appears to provide an attractive alternative to existing molecular techniques to screen for differentially expressed genes in prostate cancer cells. (C) 1995 Wiley-Liss, Inc.

引用

页码：213 / 224

页数：12

共 43 条

[1] RAPID CDNA SEQUENCING (EXPRESSED SEQUENCE TAGS) FROM A DIRECTIONALLY CLONED HUMAN INFANT BRAIN CDNA LIBRARY
ADAMS, MD
SOARES, MB
KERLAVAGE, AR
FIELDS, C
VENTER, JC
[J]. NATURE GENETICS, 1993, 4 (04) : 373 - 386
[2] SEQUENCE IDENTIFICATION OF 2,375 HUMAN BRAIN GENES
ADAMS, MD
DUBNICK, M
KERLAVAGE, AR
MORENO, R
KELLEY, JM
UTTERBACK, TR
NAGLE, JW
FIELDS, C
VENTER, JC
[J]. NATURE, 1992, 355 (6361) : 632 - 634
[3] COMPLEMENTARY-DNA SEQUENCING - EXPRESSED SEQUENCE TAGS AND HUMAN GENOME PROJECT
ADAMS, MD
KELLEY, JM
GOCAYNE, JD
DUBNICK, M
POLYMEROPOULOS, MH
XIAO, H
MERRIL, CR
WU, A
OLDE, B
MORENO, RF
KERLAVAGE, AR
MCCOMBIE, WR
VENTER, JC
[J]. SCIENCE, 1991, 252 (5013) : 1651 - 1656
[4] [Anonymous], 1989, MOL CLONING
[5] AUFFRAY C, 1980, EUR J BIOCHEM, V107, P303
[6] EFFECT OF TESTOSTERONE DEPRIVATION ON EXPRESSION OF THE ANDROGEN RECEPTOR IN RAT PROSTATE, EPIDIDYMIS AND TESTIS
BLOK, LJ
BARTLETT, JMS
BOLTDEVRIES, J
THEMMEN, APN
BRINKMANN, AO
WEINBAUER, GF
NIESCHLAG, E
GROOTEGOED, JA
[J]. INTERNATIONAL JOURNAL OF ANDROLOGY, 1992, 15 (02): : 182 - 198
[7] BOOKSTEIN R, 1993, CANCER RES, V53, P3369
[8] ALLELIC LOSS OF CHROMOSOME-16Q AND CHROMOSOME-10Q IN HUMAN PROSTATE-CANCER
CARTER, BS
EWING, CM
WARD, WS
TREIGER, BF
AALDERS, TW
SCHALKEN, JA
EPSTEIN, JI
ISAACS, WB
[J]. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1990, 87 (22) : 8751 - 8755
[9] CARTER HB, 1990, PROSTATE, V16, P39
[10] MOLECULAR-GENETICS AND HUMAN PROSTATIC-CARCINOMA
COLLINS, VP
KUNIMI, K
BERGERHEIM, U
EKMAN, P
[J]. ACTA ONCOLOGICA, 1991, 30 (02) : 181 - 185

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