Identification of two distinct deleted regions on chromosome 13 in prostate cancer

Chunde Li; Catharina Larsson; Andrew Futreal; Jonathan Lancaster; Catherine Phelan; Ulla Aspenblad; Birgitta Sundelin; Yie Liu; Peter Ekman; Gert Auer; Ulf S.R. Bergerheim

doi:10.1038/sj.onc.1201554

Identification of two distinct deleted regions on chromosome 13 in prostate cancer

Chunde Li, Catharina Larsson, Andrew Futreal, Jonathan Lancaster, Catherine Phelan, Ulla Aspenblad, Birgitta Sundelin, Yie Liu, Peter Ekman, Gert Auer, Ulf S.R. Bergerheim

Research output: Contribution to journal › Article › peer-review

79 Scopus citations

Abstract

Aberrations of 13q occur frequently in prostate cancer and this chromosome contains two known tumor suppressor genes, BRCA2 and Rb1. This study analysed 13q LOH, DNA ploidy, BRCA2 mutation and pRb expression in prostate cancers. In total, 13q deletions were found in 18 of 36 tumors but did not correlate with histological grade, stage or DNA ploidy. Two smallest regions of overlapping deletions were defined: one flanked by D13S218 and D13S153; the other flanked by D13S31 and D13S137. BRCA2 was less frequently deleted whereas Rb1 did have a high frequency of deletion. None of the two genes was located in any of these two regions. Furthermore, BRCA2 mutation was not found in the five tumors where deletions had involved the BRCA2 locus. Neither did the Rb1 deletion correlate with absent pRb expression. In addition, tetraploidy was found in 14 out of 25 tumors analysed and correlated with aberrant pRb expression. Our results indicate that 13q deletion is an early non-random event. Tumor suppressor genes other than BRCA2 or Rb1 may be the target of 13q deletions. Aberrant pRb expression may not reflect the two-hit Rb1 inactivation but may be involved in the tetraploidization of prostate cancer cells.

Original language	English (US)
Pages (from-to)	481-487
Number of pages	7
Journal	Oncogene
Volume	16
Issue number	4
DOIs	https://doi.org/10.1038/sj.onc.1201554
State	Published - Jan 29 1998
Externally published	Yes

Keywords

BRCA2
Chromosome 13
DBM
Prostate cancer
Rb1
pRb

ASJC Scopus subject areas

Molecular Biology
Genetics
Cancer Research

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10.1038/sj.onc.1201554

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@article{0f17c84cf9494cfd910c44a5f79f153b,

title = "Identification of two distinct deleted regions on chromosome 13 in prostate cancer",

abstract = "Aberrations of 13q occur frequently in prostate cancer and this chromosome contains two known tumor suppressor genes, BRCA2 and Rb1. This study analysed 13q LOH, DNA ploidy, BRCA2 mutation and pRb expression in prostate cancers. In total, 13q deletions were found in 18 of 36 tumors but did not correlate with histological grade, stage or DNA ploidy. Two smallest regions of overlapping deletions were defined: one flanked by D13S218 and D13S153; the other flanked by D13S31 and D13S137. BRCA2 was less frequently deleted whereas Rb1 did have a high frequency of deletion. None of the two genes was located in any of these two regions. Furthermore, BRCA2 mutation was not found in the five tumors where deletions had involved the BRCA2 locus. Neither did the Rb1 deletion correlate with absent pRb expression. In addition, tetraploidy was found in 14 out of 25 tumors analysed and correlated with aberrant pRb expression. Our results indicate that 13q deletion is an early non-random event. Tumor suppressor genes other than BRCA2 or Rb1 may be the target of 13q deletions. Aberrant pRb expression may not reflect the two-hit Rb1 inactivation but may be involved in the tetraploidization of prostate cancer cells.",

keywords = "BRCA2, Chromosome 13, DBM, Prostate cancer, Rb1, pRb",

author = "Chunde Li and Catharina Larsson and Andrew Futreal and Jonathan Lancaster and Catherine Phelan and Ulla Aspenblad and Birgitta Sundelin and Yie Liu and Peter Ekman and Gert Auer and Bergerheim, {Ulf S.R.}",

note = "Funding Information: Dr Lena Sp{\aa}nberg at the Department of Clinic Genetics of Uppsala University Hospital is acknowledged for kind and free supplement of microsatellite markers. Thanks should also go to colleagues at the Department of Urology in Karolinska Hospital for their collaboration in collecting the special prostate cancer materials. This study was supported in part by research grants from the Swedish Cancer Foundation, Swedish Cancer Society and NCI/ Duke University SPORE in breast cancer, P50-CA68438.",

year = "1998",

month = jan,

day = "29",

doi = "10.1038/sj.onc.1201554",

language = "English (US)",

volume = "16",

pages = "481--487",

journal = "Oncogene",

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TY - JOUR

T1 - Identification of two distinct deleted regions on chromosome 13 in prostate cancer

AU - Li, Chunde

AU - Larsson, Catharina

AU - Futreal, Andrew

AU - Lancaster, Jonathan

AU - Phelan, Catherine

AU - Aspenblad, Ulla

AU - Sundelin, Birgitta

AU - Liu, Yie

AU - Ekman, Peter

AU - Auer, Gert

AU - Bergerheim, Ulf S.R.

N1 - Funding Information: Dr Lena Spånberg at the Department of Clinic Genetics of Uppsala University Hospital is acknowledged for kind and free supplement of microsatellite markers. Thanks should also go to colleagues at the Department of Urology in Karolinska Hospital for their collaboration in collecting the special prostate cancer materials. This study was supported in part by research grants from the Swedish Cancer Foundation, Swedish Cancer Society and NCI/ Duke University SPORE in breast cancer, P50-CA68438.

PY - 1998/1/29

Y1 - 1998/1/29

N2 - Aberrations of 13q occur frequently in prostate cancer and this chromosome contains two known tumor suppressor genes, BRCA2 and Rb1. This study analysed 13q LOH, DNA ploidy, BRCA2 mutation and pRb expression in prostate cancers. In total, 13q deletions were found in 18 of 36 tumors but did not correlate with histological grade, stage or DNA ploidy. Two smallest regions of overlapping deletions were defined: one flanked by D13S218 and D13S153; the other flanked by D13S31 and D13S137. BRCA2 was less frequently deleted whereas Rb1 did have a high frequency of deletion. None of the two genes was located in any of these two regions. Furthermore, BRCA2 mutation was not found in the five tumors where deletions had involved the BRCA2 locus. Neither did the Rb1 deletion correlate with absent pRb expression. In addition, tetraploidy was found in 14 out of 25 tumors analysed and correlated with aberrant pRb expression. Our results indicate that 13q deletion is an early non-random event. Tumor suppressor genes other than BRCA2 or Rb1 may be the target of 13q deletions. Aberrant pRb expression may not reflect the two-hit Rb1 inactivation but may be involved in the tetraploidization of prostate cancer cells.

AB - Aberrations of 13q occur frequently in prostate cancer and this chromosome contains two known tumor suppressor genes, BRCA2 and Rb1. This study analysed 13q LOH, DNA ploidy, BRCA2 mutation and pRb expression in prostate cancers. In total, 13q deletions were found in 18 of 36 tumors but did not correlate with histological grade, stage or DNA ploidy. Two smallest regions of overlapping deletions were defined: one flanked by D13S218 and D13S153; the other flanked by D13S31 and D13S137. BRCA2 was less frequently deleted whereas Rb1 did have a high frequency of deletion. None of the two genes was located in any of these two regions. Furthermore, BRCA2 mutation was not found in the five tumors where deletions had involved the BRCA2 locus. Neither did the Rb1 deletion correlate with absent pRb expression. In addition, tetraploidy was found in 14 out of 25 tumors analysed and correlated with aberrant pRb expression. Our results indicate that 13q deletion is an early non-random event. Tumor suppressor genes other than BRCA2 or Rb1 may be the target of 13q deletions. Aberrant pRb expression may not reflect the two-hit Rb1 inactivation but may be involved in the tetraploidization of prostate cancer cells.

KW - BRCA2

KW - Chromosome 13

KW - DBM

KW - Prostate cancer

KW - Rb1

KW - pRb

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SN - 0950-9232

VL - 16

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EP - 487

JO - Oncogene

JF - Oncogene

IS - 4

ER -

Identification of two distinct deleted regions on chromosome 13 in prostate cancer

Abstract

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