Genetic mapping of allelic loss on chromosome 6q within heterogeneous prostate carcinoma

Konishi, Noboru; Nakamura, Mitsutoshi; Kishi, Munehiro; Ishida, Eiwa; Shimada, Kaoru; Matsuyoshi, Syuichi; Nagai, Hisaki; Emi, Mitsuru

doi:10.1111/j.1349-7006.2003.tb01516.x

Cited by 26 publications

(20 citation statements)

References 29 publications

(44 reference statements)

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“…Primary tumors show a rather heterogeneous expression of proliferationassociated markers, such as Ki-67, and apoptosis-induced DNA fragmentation, showing the asynchronous growth of a prostate tumor (8). Microsatellite-based studies on microdissected tissue resulted in the identification of areas in the primary tumor with different alterations associated with a distinct histologic differentiation (3,4,9).…”

Section: Discussionmentioning

confidence: 99%

Asynchronous Growth of Prostate Cancer Is Reflected by Circulating Tumor Cells Delivered from Distinct, Even Small Foci, Harboring Loss of Heterozygosity of the PTEN Gene

Schmidt

DeAngelis²,

Eltze³

et al. 2006

Cancer Research

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The clinical value of prostate-specific antigen (PSA)-positive circulating tumor cells (CTCs) is still a matter of debate and it is also still unclear if these CTCs actually represent the primary tumor. Therefore, we isolated PSA-positive CTCs from the peripheral blood of patients suffering from multifocal cancers and did genetic profiling of each cancer focus by a multiplex PCR-based microsatellite analysis (D7S522, D8S522, NEFL, D10S541, D13S153, D16S400, D16S402, D16S422, and D17S855). In 17 of 20 prostate cancer cases, the loss of heterozygosity (LOH) pattern of the CTCs was identical with only one focus of the primary tumor. Moreover, in six cases, the LOH pattern suggested that smaller foci, down to 0.2 cm 3 , might deliver CTCs. Interestingly, the highest number of LOHs was observed at the marker D10S541 (85%), the PTEN gene, which was observed much less frequently in unifocal prostate cancer (48%). Furthermore, the infrequently occurring LOH in the BRCA1 gene (38%) was found in four of the five cases where a biochemical recurrence was seen within 3 years after prostatectomy. Therefore, the data might support the assumption that CTCs in prostate cancer are derived from distinct foci of a primary tumor. The size of the tumor focus is not related to the delivery of cells. Although the number of cases that were investigated in this study was small, it might be suggested that the LOH at distinct markers such as D10S541 and D17S855 represent the genes PTEN and BRCA1, which might be associated with the occurrence of CTCs in the peripheral blood of patients as well as an early biochemical recurrence. (Cancer Res 2006; 66(18): 8959-65)

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Section: Discussionmentioning

confidence: 99%

Asynchronous Growth of Prostate Cancer Is Reflected by Circulating Tumor Cells Delivered from Distinct, Even Small Foci, Harboring Loss of Heterozygosity of the PTEN Gene

Schmidt

DeAngelis²,

Eltze³

et al. 2006

Cancer Research

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“…CGH and cytogenetic studies have shown that frequent genetic alterations occur in the 6q15-22 region and indicate that 1 or more TSGs are located there. [26][27][28][29][30] Three potential candidate genes are present in this region, and they encode cell-cycle regulatory protein cyclin C, thiol-specific antioxidant protein 1 and the glutamate receptor iontropic kainate 2.…”

Section: Chromosomal Lossesmentioning

confidence: 99%

Genetic changes in pT2 and pT3 prostate cancer detected by comparative genomic hybridization

Fukasawa

Kino

Kobayashi

et al. 2007

Prostate Cancer Prostatic Dis

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Prostate-specific antigen (PSA) screening has led to a remarkable increase in prostate cancer cases undergoing operative therapy. Over half of patients with locally advanced cancer (^pT3) develop rising PSA levels (biochemical failure) within 10 years. It is very difficult to predict which patients will progress rapidly to advanced disease following biochemical failure (BF). Therefore, a more useful prognostic factor is needed to suggest the most appropriate therapies for each patient. To determine chromosomal aberrations, we examined 30 patients with stage pT2 or pT3 primary prostate adenocarcinomas and no metastases (pN0M0) by comparative genomic hybridization (CGH). Laser capture microdissection (LCM) was used to gather cancer cells from frozen prostate specimens. Common chromosomal alterations included losses on 2q23-24, 4q26-28, 6q14-22, 8p12-22 and 13q21-31, as well as gains on 1p32-36, 6p21 and 17q21-22. Losses at 8p12-22 and 13q21-31 were observed more frequently in pT3 than pT2 tumors (Po0.05 and Po0.01, respectively). Losses at 8p12-22 were more frequent in tumors with BF (Po0.05), and those at 13q12-21 were more frequent in tumors with Gleason score (GS) 7 or more than lower GS (Po0.05). These findings suggest that losses of 8p12-22 and 13q21-31 are important determinants of prostate cancer progression.

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“…We employed PCR-SSCP analysis to pre-screen for mutations in exons 5-8 of the p53 gene; sequencing primers used have been previously described [20]. Samples showing mobility shifts in SSCP analysis were further analyzed by DNA sequencing.…”

Section: P53 Mutation Analysismentioning

confidence: 99%

“…Only samples heterozygous for a given locus were regarded to be informative; loci homozygosity and/or microsatellite instability rendered any particular sample noninformative. Samples were considered to show LOH when a peak allele signal from tumor DNA was reduced by 50% compared with the normal tissue counterpart [20].…”

Section: Loh Assaymentioning

confidence: 99%

HRK inactivation associated with promoter methylation and LOH in prostate cancer

et al. 2007

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OBJECTIVES. Recent studies in selected human tumors have demonstrated reduced expression of HRK with hypermethylation. Because no similar study has been performed specifically in prostatic lesions, we examined whether the methylation status of HRK is altered in prostate cancers.METHODS. We chose to analyze the hypermethylation status of HRK, the expression of HRK protein and mRNA with 12q13.1 loss of heterozygosity (LOH) and with p53 mutation, and lesion apoptotic indices as determined by transferase-mediated digoxigenin-tagged 16-desoxyuridine-triphosphate nick end-labeling (TUNEL) assays in 53 prostate cancers. RESULTS. Twenty of the 53 prostate cancers (38%) demonstrated hypermethylation in either the promoter or in exon 1 and, more significantly, the loss of HRK expression observed in 14 cancers by immunohistochemistry (IHC) was associated with promoter methylation. In addition, high apoptotic indices in tumors were related to positive HRK expression. Prostate cancers demonstrating HRK methylation also showed methylation of multiple other genes, such as p14 ARF , p16 INK4a , O 6 -MGMT, and GTS-P, but, with the exception of one case, p53 mutations were not detected. When compared to tumors having a Gleason score (GS) of 5-6, a significant difference in the apoptotic indices was found among prostate cancers of GS 7 (P < 0.001) or GS 8-9 (P ¼ 0.007). We also detected a close correlation between the loss of HRK expression and decreased apoptosis in GS 5-6 and GS 7 tumors (P ¼ 0.008, P < 0.001, respectively). CONCLUSIONS. HRK appears to be inactivated principally by promoter hypermethylation in prostate cancers. We further suggest that the decreased expression of HRK may play an important role in tumor progression by modulating apoptotic cell death.

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Genetic mapping of allelic loss on chromosome 6q within heterogeneous prostate carcinoma

Cited by 26 publications

References 29 publications

Asynchronous Growth of Prostate Cancer Is Reflected by Circulating Tumor Cells Delivered from Distinct, Even Small Foci, Harboring Loss of Heterozygosity of the PTEN Gene

Asynchronous Growth of Prostate Cancer Is Reflected by Circulating Tumor Cells Delivered from Distinct, Even Small Foci, Harboring Loss of Heterozygosity of the PTEN Gene

Genetic changes in pT2 and pT3 prostate cancer detected by comparative genomic hybridization

HRK inactivation associated with promoter methylation and LOH in prostate cancer

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