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Detection of methylated apoptosis-associated genes in urine sediments of bladder cancer patients.

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Detection of methylated apoptosis-associated genes in urine sediments of bladder cancer patients. / Friedrich, Martin; Weisenberger, Daniel J; Cheng, Jonathan C; Chandrasoma, Shahin; Siegmund, Kimberly D; Gonzalgo, Mark L; Toma, Marieta I; Huland, Hartwig; Yoo, Christine; Tsai, Yvonne C; Nichols, Peter W; Bochner, Bernard H; Jones, Peter A; Liang, Gangning.

in: CLIN CANCER RES, Jahrgang 10, Nr. 22, 22, 2004, S. 7457-7465.

Publikationen: SCORING: Beitrag in Fachzeitschrift/ZeitungSCORING: ZeitschriftenaufsatzForschungBegutachtung

Harvard

Friedrich, M, Weisenberger, DJ, Cheng, JC, Chandrasoma, S, Siegmund, KD, Gonzalgo, ML, Toma, MI, Huland, H, Yoo, C, Tsai, YC, Nichols, PW, Bochner, BH, Jones, PA & Liang, G 2004, 'Detection of methylated apoptosis-associated genes in urine sediments of bladder cancer patients.', CLIN CANCER RES, Jg. 10, Nr. 22, 22, S. 7457-7465. <http://www.ncbi.nlm.nih.gov/pubmed/15569975?dopt=Citation>

APA

Friedrich, M., Weisenberger, D. J., Cheng, J. C., Chandrasoma, S., Siegmund, K. D., Gonzalgo, M. L., Toma, M. I., Huland, H., Yoo, C., Tsai, Y. C., Nichols, P. W., Bochner, B. H., Jones, P. A., & Liang, G. (2004). Detection of methylated apoptosis-associated genes in urine sediments of bladder cancer patients. CLIN CANCER RES, 10(22), 7457-7465. [22]. http://www.ncbi.nlm.nih.gov/pubmed/15569975?dopt=Citation

Vancouver

Friedrich M, Weisenberger DJ, Cheng JC, Chandrasoma S, Siegmund KD, Gonzalgo ML et al. Detection of methylated apoptosis-associated genes in urine sediments of bladder cancer patients. CLIN CANCER RES. 2004;10(22):7457-7465. 22.

Bibtex

@article{2be961ddef5a45c8b3727e4d2f570d0c,
title = "Detection of methylated apoptosis-associated genes in urine sediments of bladder cancer patients.",
abstract = "PURPOSE: There is increasing evidence for a fundamental role for epigenetic silencing of apoptotic pathways in cancer. Changes in DNA methylation can be detected with a high degree of sensitivity, so we used the MethyLight assay to determine how methylation patterns of apoptosis-associated genes change during bladder carcinogenesis and whether DNA methylation could be detected in urine sediments. EXPERIMENTAL DESIGN: We analyzed the methylation status of the 5' regions of 12 apoptosis-associated genes (ARF, FADD, TNFRSF21, BAX, LITAF, DAPK, TMS-1, BCL2, RASSF1A, TERT, TNFRSF25, and EDNRB) in 18 bladder cancer cell lines, 127 bladder cancer samples, and 37 samples of adjacent normal bladder mucosa using the quantitative MethyLight assay. We also analyzed the methylation status in urine sediments of 20 cancer-free volunteers and 37 bladder cancer patients. RESULTS: The 5' regions of DAPK, BCL2, TERT, RASSFIA, and TNFRSF25 showed significant increases in methylation levels when compared with nonmalignant adjacent tissue (P <or = 0.01). Methylation levels of BCL2 were significantly associated with tumor staging and grading (P <or = 0.01), whereas methylation levels of RASSF1A and ARF were only associated with tumor stage (P <or = 0.04), and TERT methylation and EDNRB methylation were predictors of tumor grade (P <or = 0.02). To investigate clinical usefulness for noninvasive bladder cancer detection, we further analyzed the methylation status of the markers in urine samples of patients with bladder cancer. Methylation of DAPK, BCL2, and TERT in urine sediment DNA from bladder cancer patients was detected in the majority of samples (78%), whereas they were unmethylated in the urine sediment DNA from age-matched cancer-free individuals. CONCLUSIONS: Our results indicate that methylation of the 5' region of apoptosis-associated genes is a common finding in patients with bladder carcinoma. The ability to detect methylation not only in bladder tissue, but also in urine sediments, suggests that methylation markers are promising tools for noninvasive detection of bladder cancers. Our results also indicate that some methylation markers, such as those in regions of RASSF1A and TNFRSF25, might be of limited use for detection because they are also methylated in normal bladder tissues.",
author = "Martin Friedrich and Weisenberger, {Daniel J} and Cheng, {Jonathan C} and Shahin Chandrasoma and Siegmund, {Kimberly D} and Gonzalgo, {Mark L} and Toma, {Marieta I} and Hartwig Huland and Christine Yoo and Tsai, {Yvonne C} and Nichols, {Peter W} and Bochner, {Bernard H} and Jones, {Peter A} and Gangning Liang",
year = "2004",
language = "Deutsch",
volume = "10",
pages = "7457--7465",
journal = "CLIN CANCER RES",
issn = "1078-0432",
publisher = "American Association for Cancer Research Inc.",
number = "22",

}

RIS

TY - JOUR

T1 - Detection of methylated apoptosis-associated genes in urine sediments of bladder cancer patients.

AU - Friedrich, Martin

AU - Weisenberger, Daniel J

AU - Cheng, Jonathan C

AU - Chandrasoma, Shahin

AU - Siegmund, Kimberly D

AU - Gonzalgo, Mark L

AU - Toma, Marieta I

AU - Huland, Hartwig

AU - Yoo, Christine

AU - Tsai, Yvonne C

AU - Nichols, Peter W

AU - Bochner, Bernard H

AU - Jones, Peter A

AU - Liang, Gangning

PY - 2004

Y1 - 2004

N2 - PURPOSE: There is increasing evidence for a fundamental role for epigenetic silencing of apoptotic pathways in cancer. Changes in DNA methylation can be detected with a high degree of sensitivity, so we used the MethyLight assay to determine how methylation patterns of apoptosis-associated genes change during bladder carcinogenesis and whether DNA methylation could be detected in urine sediments. EXPERIMENTAL DESIGN: We analyzed the methylation status of the 5' regions of 12 apoptosis-associated genes (ARF, FADD, TNFRSF21, BAX, LITAF, DAPK, TMS-1, BCL2, RASSF1A, TERT, TNFRSF25, and EDNRB) in 18 bladder cancer cell lines, 127 bladder cancer samples, and 37 samples of adjacent normal bladder mucosa using the quantitative MethyLight assay. We also analyzed the methylation status in urine sediments of 20 cancer-free volunteers and 37 bladder cancer patients. RESULTS: The 5' regions of DAPK, BCL2, TERT, RASSFIA, and TNFRSF25 showed significant increases in methylation levels when compared with nonmalignant adjacent tissue (P <or = 0.01). Methylation levels of BCL2 were significantly associated with tumor staging and grading (P <or = 0.01), whereas methylation levels of RASSF1A and ARF were only associated with tumor stage (P <or = 0.04), and TERT methylation and EDNRB methylation were predictors of tumor grade (P <or = 0.02). To investigate clinical usefulness for noninvasive bladder cancer detection, we further analyzed the methylation status of the markers in urine samples of patients with bladder cancer. Methylation of DAPK, BCL2, and TERT in urine sediment DNA from bladder cancer patients was detected in the majority of samples (78%), whereas they were unmethylated in the urine sediment DNA from age-matched cancer-free individuals. CONCLUSIONS: Our results indicate that methylation of the 5' region of apoptosis-associated genes is a common finding in patients with bladder carcinoma. The ability to detect methylation not only in bladder tissue, but also in urine sediments, suggests that methylation markers are promising tools for noninvasive detection of bladder cancers. Our results also indicate that some methylation markers, such as those in regions of RASSF1A and TNFRSF25, might be of limited use for detection because they are also methylated in normal bladder tissues.

AB - PURPOSE: There is increasing evidence for a fundamental role for epigenetic silencing of apoptotic pathways in cancer. Changes in DNA methylation can be detected with a high degree of sensitivity, so we used the MethyLight assay to determine how methylation patterns of apoptosis-associated genes change during bladder carcinogenesis and whether DNA methylation could be detected in urine sediments. EXPERIMENTAL DESIGN: We analyzed the methylation status of the 5' regions of 12 apoptosis-associated genes (ARF, FADD, TNFRSF21, BAX, LITAF, DAPK, TMS-1, BCL2, RASSF1A, TERT, TNFRSF25, and EDNRB) in 18 bladder cancer cell lines, 127 bladder cancer samples, and 37 samples of adjacent normal bladder mucosa using the quantitative MethyLight assay. We also analyzed the methylation status in urine sediments of 20 cancer-free volunteers and 37 bladder cancer patients. RESULTS: The 5' regions of DAPK, BCL2, TERT, RASSFIA, and TNFRSF25 showed significant increases in methylation levels when compared with nonmalignant adjacent tissue (P <or = 0.01). Methylation levels of BCL2 were significantly associated with tumor staging and grading (P <or = 0.01), whereas methylation levels of RASSF1A and ARF were only associated with tumor stage (P <or = 0.04), and TERT methylation and EDNRB methylation were predictors of tumor grade (P <or = 0.02). To investigate clinical usefulness for noninvasive bladder cancer detection, we further analyzed the methylation status of the markers in urine samples of patients with bladder cancer. Methylation of DAPK, BCL2, and TERT in urine sediment DNA from bladder cancer patients was detected in the majority of samples (78%), whereas they were unmethylated in the urine sediment DNA from age-matched cancer-free individuals. CONCLUSIONS: Our results indicate that methylation of the 5' region of apoptosis-associated genes is a common finding in patients with bladder carcinoma. The ability to detect methylation not only in bladder tissue, but also in urine sediments, suggests that methylation markers are promising tools for noninvasive detection of bladder cancers. Our results also indicate that some methylation markers, such as those in regions of RASSF1A and TNFRSF25, might be of limited use for detection because they are also methylated in normal bladder tissues.

M3 - SCORING: Zeitschriftenaufsatz

VL - 10

SP - 7457

EP - 7465

JO - CLIN CANCER RES

JF - CLIN CANCER RES

SN - 1078-0432

IS - 22

M1 - 22

ER -