Comprehensive protein tyrosine phosphatase mRNA profiling identifies new regulators in the progression of glioma

Annika M. Bourgonje; Kiek Verrijp; Jan T.G. Schepens; Anna C. Navis; Jolanda A.F. Piepers; Chantal B.C. Palmen; Monique van den Eijnden; Rob Hooft van Huijsduijnen; Pieter Wesseling; William P.J. Leenders; Wiljan J.A.J. Hendriks

doi:10.1186/s40478-016-0372-x

Comprehensive protein tyrosine phosphatase mRNA profiling identifies new regulators in the progression of glioma

Annika M. Bourgonje, Kiek Verrijp, Jan T.G. Schepens, Anna C. Navis, Jolanda A.F. Piepers, Chantal B.C. Palmen, Monique van den Eijnden, Rob Hooft van Huijsduijnen, Pieter Wesseling, William P.J. Leenders, Wiljan J.A.J. Hendriks

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22 Citaten (Scopus)

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The infiltrative behavior of diffuse gliomas severely reduces therapeutic potential of surgical resection and radiotherapy, and urges for the identification of new drug-targets affecting glioma growth and migration. To address the potential role of protein tyrosine phosphatases (PTPs), we performed mRNA expression profiling for 91 of the 109 known human PTP genes on a series of clinical diffuse glioma samples of different grades and compared our findings with in silico knowledge from REMBRANDT and TCGA databases. Overall PTP family expression levels appeared independent of characteristic genetic aberrations associated with lower grade or high grade gliomas. Notably, seven PTP genes (DUSP26, MTMR4, PTEN, PTPRM, PTPRN2, PTPRT and PTPRZ1) were differentially expressed between grade II-III gliomas and (grade IV) glioblastomas. For DUSP26, PTEN, PTPRM and PTPRT, lower expression levels correlated with poor prognosis, and overexpression of DUSP26 or PTPRT in E98 glioblastoma cells reduced tumorigenicity. Our study represents the first in-depth analysis of PTP family expression in diffuse glioma subtypes and warrants further investigations into PTP-dependent signaling events as new entry points for improved therapy.

Originele taal-2	Engels
Pagina's (van-tot)	96
Aantal pagina's	1
Tijdschrift	Acta neuropathologica communications
Volume	4
Nummer van het tijdschrift	1
DOI's	https://doi.org/10.1186/s40478-016-0372-x
Status	Gepubliceerd - 1 sep. 2016
Extern gepubliceerd	Ja

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10.1186/s40478-016-0372-x

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Bourgonje, A. M., Verrijp, K., Schepens, J. T. G., Navis, A. C., Piepers, J. A. F., Palmen, C. B. C., van den Eijnden, M., Hooft van Huijsduijnen, R., Wesseling, P., Leenders, W. P. J., & Hendriks, W. J. A. J. (2016). Comprehensive protein tyrosine phosphatase mRNA profiling identifies new regulators in the progression of glioma. Acta neuropathologica communications, 4(1), 96. https://doi.org/10.1186/s40478-016-0372-x

@article{abe86b4e05214bfcb1d75340c25af696,

title = "Comprehensive protein tyrosine phosphatase mRNA profiling identifies new regulators in the progression of glioma",

abstract = "The infiltrative behavior of diffuse gliomas severely reduces therapeutic potential of surgical resection and radiotherapy, and urges for the identification of new drug-targets affecting glioma growth and migration. To address the potential role of protein tyrosine phosphatases (PTPs), we performed mRNA expression profiling for 91 of the 109 known human PTP genes on a series of clinical diffuse glioma samples of different grades and compared our findings with in silico knowledge from REMBRANDT and TCGA databases. Overall PTP family expression levels appeared independent of characteristic genetic aberrations associated with lower grade or high grade gliomas. Notably, seven PTP genes (DUSP26, MTMR4, PTEN, PTPRM, PTPRN2, PTPRT and PTPRZ1) were differentially expressed between grade II-III gliomas and (grade IV) glioblastomas. For DUSP26, PTEN, PTPRM and PTPRT, lower expression levels correlated with poor prognosis, and overexpression of DUSP26 or PTPRT in E98 glioblastoma cells reduced tumorigenicity. Our study represents the first in-depth analysis of PTP family expression in diffuse glioma subtypes and warrants further investigations into PTP-dependent signaling events as new entry points for improved therapy. ",

keywords = "Astrocytoma, DUSP26, EGFR, Glioblastoma, IDH1, Malignancy, MTMR4, Oligodendroglioma, PTEN, PTP, PTPRM, PTPRN2, PTPRT, PTPRZ1",

author = "Bourgonje, {Annika M.} and Kiek Verrijp and Schepens, {Jan T.G.} and Navis, {Anna C.} and Piepers, {Jolanda A.F.} and Palmen, {Chantal B.C.} and {van den Eijnden}, Monique and {Hooft van Huijsduijnen}, Rob and Pieter Wesseling and Leenders, {William P.J.} and Hendriks, {Wiljan J.A.J.}",

note = "Funding Information: We thank Sandra Boots-Sprenger, Judith Jeuken and Sarmistha Guha for assistance during the starting phase of the study, Marieke Willemse, Huib Croes and Jack Fransen for Microscopical Imaging Centre core support, and B{\'e} Wieringa for useful discussions and critical reading of the manuscript. Rafael Pulido, Reiner Lammers and Jai-Ran Lee are gratefully acknowledged for providing cDNA constructs, Joost Schalkwijk for supply of U-251 MG cells, and Pavlo Grytsenko for providing the astrocyte feeder layer protocol. We also thank Mark ter Laan and Radboudumc coworkers for supportive tumor specimens biobanking activities. This work was supported in part by a Marie Curie Research Training Network grant (PTPNET/MRTN-CT-2006–035830) and a UMC St Radboud research grant (R0000761).",

year = "2016",

month = sep,

day = "1",

doi = "10.1186/s40478-016-0372-x",

language = "English",

volume = "4",

pages = "96",

journal = "Acta neuropathologica communications",

issn = "2051-5960",

publisher = "BioMed Central Ltd.",

number = "1",

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Bourgonje, AM, Verrijp, K, Schepens, JTG, Navis, AC, Piepers, JAF, Palmen, CBC, van den Eijnden, M, Hooft van Huijsduijnen, R, Wesseling, P, Leenders, WPJ & Hendriks, WJAJ 2016, 'Comprehensive protein tyrosine phosphatase mRNA profiling identifies new regulators in the progression of glioma', Acta neuropathologica communications, vol. 4, nr. 1, blz. 96. https://doi.org/10.1186/s40478-016-0372-x

TY - JOUR

T1 - Comprehensive protein tyrosine phosphatase mRNA profiling identifies new regulators in the progression of glioma

AU - Bourgonje, Annika M.

AU - Verrijp, Kiek

AU - Schepens, Jan T.G.

AU - Navis, Anna C.

AU - Piepers, Jolanda A.F.

AU - Palmen, Chantal B.C.

AU - van den Eijnden, Monique

AU - Hooft van Huijsduijnen, Rob

AU - Wesseling, Pieter

AU - Leenders, William P.J.

AU - Hendriks, Wiljan J.A.J.

N1 - Funding Information: We thank Sandra Boots-Sprenger, Judith Jeuken and Sarmistha Guha for assistance during the starting phase of the study, Marieke Willemse, Huib Croes and Jack Fransen for Microscopical Imaging Centre core support, and Bé Wieringa for useful discussions and critical reading of the manuscript. Rafael Pulido, Reiner Lammers and Jai-Ran Lee are gratefully acknowledged for providing cDNA constructs, Joost Schalkwijk for supply of U-251 MG cells, and Pavlo Grytsenko for providing the astrocyte feeder layer protocol. We also thank Mark ter Laan and Radboudumc coworkers for supportive tumor specimens biobanking activities. This work was supported in part by a Marie Curie Research Training Network grant (PTPNET/MRTN-CT-2006–035830) and a UMC St Radboud research grant (R0000761).

PY - 2016/9/1

Y1 - 2016/9/1

N2 - The infiltrative behavior of diffuse gliomas severely reduces therapeutic potential of surgical resection and radiotherapy, and urges for the identification of new drug-targets affecting glioma growth and migration. To address the potential role of protein tyrosine phosphatases (PTPs), we performed mRNA expression profiling for 91 of the 109 known human PTP genes on a series of clinical diffuse glioma samples of different grades and compared our findings with in silico knowledge from REMBRANDT and TCGA databases. Overall PTP family expression levels appeared independent of characteristic genetic aberrations associated with lower grade or high grade gliomas. Notably, seven PTP genes (DUSP26, MTMR4, PTEN, PTPRM, PTPRN2, PTPRT and PTPRZ1) were differentially expressed between grade II-III gliomas and (grade IV) glioblastomas. For DUSP26, PTEN, PTPRM and PTPRT, lower expression levels correlated with poor prognosis, and overexpression of DUSP26 or PTPRT in E98 glioblastoma cells reduced tumorigenicity. Our study represents the first in-depth analysis of PTP family expression in diffuse glioma subtypes and warrants further investigations into PTP-dependent signaling events as new entry points for improved therapy.

AB - The infiltrative behavior of diffuse gliomas severely reduces therapeutic potential of surgical resection and radiotherapy, and urges for the identification of new drug-targets affecting glioma growth and migration. To address the potential role of protein tyrosine phosphatases (PTPs), we performed mRNA expression profiling for 91 of the 109 known human PTP genes on a series of clinical diffuse glioma samples of different grades and compared our findings with in silico knowledge from REMBRANDT and TCGA databases. Overall PTP family expression levels appeared independent of characteristic genetic aberrations associated with lower grade or high grade gliomas. Notably, seven PTP genes (DUSP26, MTMR4, PTEN, PTPRM, PTPRN2, PTPRT and PTPRZ1) were differentially expressed between grade II-III gliomas and (grade IV) glioblastomas. For DUSP26, PTEN, PTPRM and PTPRT, lower expression levels correlated with poor prognosis, and overexpression of DUSP26 or PTPRT in E98 glioblastoma cells reduced tumorigenicity. Our study represents the first in-depth analysis of PTP family expression in diffuse glioma subtypes and warrants further investigations into PTP-dependent signaling events as new entry points for improved therapy.

KW - Astrocytoma

KW - DUSP26

KW - EGFR

KW - Glioblastoma

KW - IDH1

KW - Malignancy

KW - MTMR4

KW - Oligodendroglioma

KW - PTEN

KW - PTP

KW - PTPRM

KW - PTPRN2

KW - PTPRT

KW - PTPRZ1

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U2 - 10.1186/s40478-016-0372-x

DO - 10.1186/s40478-016-0372-x

M3 - Article

C2 - 27586084

AN - SCOPUS:85031917727

SN - 2051-5960

VL - 4

SP - 96

JO - Acta neuropathologica communications

JF - Acta neuropathologica communications

IS - 1

ER -

Comprehensive protein tyrosine phosphatase mRNA profiling identifies new regulators in the progression of glioma

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