Tumor-specific usage of alternative transcription start sites in colorectal cancer identified by genome-wide exon array analysis

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Tumor-specific usage of alternative transcription start sites in colorectal cancer identified by genome-wide exon array analysis. / Thorsen, Kasper; Schepeler, Troels; Øster, Bodil; Rasmussen, Mads H.; Vang, Søren; Wang, Kai; Hansen, Kristian Q.; Lamy, Philippe; Pedersen, Jakob S.; Eller, Asger; Mansilla, Francisco; Laurila, Kirsti; Wiuf, Carsten; Laurberg, Søren; Dyrskjøt, Lars; Ørntoft, Torben F.; Andersen, Claus L.

In: BMC Genomics, Vol. 12, 505, 14.10.2011.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Thorsen, K, Schepeler, T, Øster, B, Rasmussen, MH, Vang, S, Wang, K, Hansen, KQ, Lamy, P, Pedersen, JS, Eller, A, Mansilla, F, Laurila, K, Wiuf, C, Laurberg, S, Dyrskjøt, L, Ørntoft, TF & Andersen, CL 2011, 'Tumor-specific usage of alternative transcription start sites in colorectal cancer identified by genome-wide exon array analysis', BMC Genomics, vol. 12, 505. https://doi.org/10.1186/1471-2164-12-505

APA

Thorsen, K., Schepeler, T., Øster, B., Rasmussen, M. H., Vang, S., Wang, K., Hansen, K. Q., Lamy, P., Pedersen, J. S., Eller, A., Mansilla, F., Laurila, K., Wiuf, C., Laurberg, S., Dyrskjøt, L., Ørntoft, T. F., & Andersen, C. L. (2011). Tumor-specific usage of alternative transcription start sites in colorectal cancer identified by genome-wide exon array analysis. BMC Genomics, 12, [505]. https://doi.org/10.1186/1471-2164-12-505

Vancouver

Thorsen K, Schepeler T, Øster B, Rasmussen MH, Vang S, Wang K et al. Tumor-specific usage of alternative transcription start sites in colorectal cancer identified by genome-wide exon array analysis. BMC Genomics. 2011 Oct 14;12. 505. https://doi.org/10.1186/1471-2164-12-505

Author

Thorsen, Kasper ; Schepeler, Troels ; Øster, Bodil ; Rasmussen, Mads H. ; Vang, Søren ; Wang, Kai ; Hansen, Kristian Q. ; Lamy, Philippe ; Pedersen, Jakob S. ; Eller, Asger ; Mansilla, Francisco ; Laurila, Kirsti ; Wiuf, Carsten ; Laurberg, Søren ; Dyrskjøt, Lars ; Ørntoft, Torben F. ; Andersen, Claus L. / Tumor-specific usage of alternative transcription start sites in colorectal cancer identified by genome-wide exon array analysis. In: BMC Genomics. 2011 ; Vol. 12.

Bibtex

@article{59a1285cf4e54bdcae5c453dbec058c8,
title = "Tumor-specific usage of alternative transcription start sites in colorectal cancer identified by genome-wide exon array analysis",
abstract = "Background: Approximately half of all human genes use alternative transcription start sites (TSSs) to control mRNA levels and broaden the transcriptional output in healthy tissues. Aberrant expression patterns promoting carcinogenesis, however, may arise from alternative promoter usage.Results: By profiling 108 colorectal samples using exon arrays, we identified nine genes (TCF12, OSBPL1A, TRAK1, ANK3, CHEK1, UGP2, LMO7, ACSL5, and SCIN) showing tumor-specific alternative TSS usage in both adenoma and cancer samples relative to normal mucosa. Analysis of independent exon array data sets corroborated these findings. Additionally, we confirmed the observed patterns for selected mRNAs using quantitative real-time reverse-transcription PCR. Interestingly, for some of the genes, the tumor-specific TSS usage was not restricted to colorectal cancer. A comprehensive survey of the nine genes in lung, bladder, liver, prostate, gastric, and brain cancer revealed significantly altered mRNA isoform ratios for CHEK1, OSBPL1A, and TCF12 in a subset of these cancer types.To identify the mechanism responsible for the shift in alternative TSS usage, we antagonized the Wnt-signaling pathway in DLD1 and Ls174T colorectal cancer cell lines, which remarkably led to a shift in the preferred TSS for both OSBPL1A and TRAK1. This indicated a regulatory role of the Wnt pathway in selecting TSS, possibly also involving TP53 and SOX9, as their transcription binding sites were enriched in the promoters of the tumor preferred isoforms together with their mRNA levels being increased in tumor samples.Finally, to evaluate the prognostic impact of the altered TSS usage, immunohistochemistry was used to show deregulation of the total protein levels of both TCF12 and OSBPL1A, corresponding to the mRNA levels observed. Furthermore, the level of nuclear TCF12 had a significant correlation to progression free survival in a cohort of 248 stage II colorectal cancer samples.Conclusions: Alternative TSS usage in colorectal adenoma and cancer samples has been shown for nine genes, and OSBPL1A and TRAK1 were found to be regulated in vitro by Wnt signaling. TCF12 protein expression was upregulated in cancer samples and correlated with progression free survival.",
author = "Kasper Thorsen and Troels Schepeler and Bodil {\O}ster and Rasmussen, {Mads H.} and S{\o}ren Vang and Kai Wang and Hansen, {Kristian Q.} and Philippe Lamy and Pedersen, {Jakob S.} and Asger Eller and Francisco Mansilla and Kirsti Laurila and Carsten Wiuf and S{\o}ren Laurberg and Lars Dyrskj{\o}t and {\O}rntoft, {Torben F.} and Andersen, {Claus L.}",
year = "2011",
month = oct,
day = "14",
doi = "10.1186/1471-2164-12-505",
language = "English",
volume = "12",
journal = "BMC Genomics",
issn = "1471-2164",
publisher = "BioMed Central Ltd.",

}

RIS

TY - JOUR

T1 - Tumor-specific usage of alternative transcription start sites in colorectal cancer identified by genome-wide exon array analysis

AU - Thorsen, Kasper

AU - Schepeler, Troels

AU - Øster, Bodil

AU - Rasmussen, Mads H.

AU - Vang, Søren

AU - Wang, Kai

AU - Hansen, Kristian Q.

AU - Lamy, Philippe

AU - Pedersen, Jakob S.

AU - Eller, Asger

AU - Mansilla, Francisco

AU - Laurila, Kirsti

AU - Wiuf, Carsten

AU - Laurberg, Søren

AU - Dyrskjøt, Lars

AU - Ørntoft, Torben F.

AU - Andersen, Claus L.

PY - 2011/10/14

Y1 - 2011/10/14

N2 - Background: Approximately half of all human genes use alternative transcription start sites (TSSs) to control mRNA levels and broaden the transcriptional output in healthy tissues. Aberrant expression patterns promoting carcinogenesis, however, may arise from alternative promoter usage.Results: By profiling 108 colorectal samples using exon arrays, we identified nine genes (TCF12, OSBPL1A, TRAK1, ANK3, CHEK1, UGP2, LMO7, ACSL5, and SCIN) showing tumor-specific alternative TSS usage in both adenoma and cancer samples relative to normal mucosa. Analysis of independent exon array data sets corroborated these findings. Additionally, we confirmed the observed patterns for selected mRNAs using quantitative real-time reverse-transcription PCR. Interestingly, for some of the genes, the tumor-specific TSS usage was not restricted to colorectal cancer. A comprehensive survey of the nine genes in lung, bladder, liver, prostate, gastric, and brain cancer revealed significantly altered mRNA isoform ratios for CHEK1, OSBPL1A, and TCF12 in a subset of these cancer types.To identify the mechanism responsible for the shift in alternative TSS usage, we antagonized the Wnt-signaling pathway in DLD1 and Ls174T colorectal cancer cell lines, which remarkably led to a shift in the preferred TSS for both OSBPL1A and TRAK1. This indicated a regulatory role of the Wnt pathway in selecting TSS, possibly also involving TP53 and SOX9, as their transcription binding sites were enriched in the promoters of the tumor preferred isoforms together with their mRNA levels being increased in tumor samples.Finally, to evaluate the prognostic impact of the altered TSS usage, immunohistochemistry was used to show deregulation of the total protein levels of both TCF12 and OSBPL1A, corresponding to the mRNA levels observed. Furthermore, the level of nuclear TCF12 had a significant correlation to progression free survival in a cohort of 248 stage II colorectal cancer samples.Conclusions: Alternative TSS usage in colorectal adenoma and cancer samples has been shown for nine genes, and OSBPL1A and TRAK1 were found to be regulated in vitro by Wnt signaling. TCF12 protein expression was upregulated in cancer samples and correlated with progression free survival.

AB - Background: Approximately half of all human genes use alternative transcription start sites (TSSs) to control mRNA levels and broaden the transcriptional output in healthy tissues. Aberrant expression patterns promoting carcinogenesis, however, may arise from alternative promoter usage.Results: By profiling 108 colorectal samples using exon arrays, we identified nine genes (TCF12, OSBPL1A, TRAK1, ANK3, CHEK1, UGP2, LMO7, ACSL5, and SCIN) showing tumor-specific alternative TSS usage in both adenoma and cancer samples relative to normal mucosa. Analysis of independent exon array data sets corroborated these findings. Additionally, we confirmed the observed patterns for selected mRNAs using quantitative real-time reverse-transcription PCR. Interestingly, for some of the genes, the tumor-specific TSS usage was not restricted to colorectal cancer. A comprehensive survey of the nine genes in lung, bladder, liver, prostate, gastric, and brain cancer revealed significantly altered mRNA isoform ratios for CHEK1, OSBPL1A, and TCF12 in a subset of these cancer types.To identify the mechanism responsible for the shift in alternative TSS usage, we antagonized the Wnt-signaling pathway in DLD1 and Ls174T colorectal cancer cell lines, which remarkably led to a shift in the preferred TSS for both OSBPL1A and TRAK1. This indicated a regulatory role of the Wnt pathway in selecting TSS, possibly also involving TP53 and SOX9, as their transcription binding sites were enriched in the promoters of the tumor preferred isoforms together with their mRNA levels being increased in tumor samples.Finally, to evaluate the prognostic impact of the altered TSS usage, immunohistochemistry was used to show deregulation of the total protein levels of both TCF12 and OSBPL1A, corresponding to the mRNA levels observed. Furthermore, the level of nuclear TCF12 had a significant correlation to progression free survival in a cohort of 248 stage II colorectal cancer samples.Conclusions: Alternative TSS usage in colorectal adenoma and cancer samples has been shown for nine genes, and OSBPL1A and TRAK1 were found to be regulated in vitro by Wnt signaling. TCF12 protein expression was upregulated in cancer samples and correlated with progression free survival.

UR - http://www.scopus.com/inward/record.url?scp=80053970951&partnerID=8YFLogxK

U2 - 10.1186/1471-2164-12-505

DO - 10.1186/1471-2164-12-505

M3 - Journal article

C2 - 21999571

AN - SCOPUS:80053970951

VL - 12

JO - BMC Genomics

JF - BMC Genomics

SN - 1471-2164

M1 - 505

ER -

ID: 203895191