Mir-21-Sox2 axis delineates glioblastoma subtypes with prognostic impact

Pratheesh Sathyan; Pascal O. Zinn; Anantha L. Marisetty; Bin Liu; Mohamed Mostafa Kamal; Sanjay K. Singh; Pierre Bady; Li Lu; Khalida M. Wani; Bethany L. Veo; Joy Gumin; Dina Hamada Kassem; Frederick Robinson; Connie Weng; Veerabhadran Baladandayuthapani; Dima Suki; Howard Colman; Krishna P. Bhat; Erik P. Sulman; Ken Aldape; Rivka R. Colen; Roel G W Verhaak; Zhimin Lu; Gregory N. Fuller; Suyun Huang; Frederick F. Lang; Raymond Sawaya; Monika Hegi; Sadhan Majumder

doi:10.1523/JNEUROSCI.1265-15.2015

Mir-21-Sox2 axis delineates glioblastoma subtypes with prognostic impact

Pratheesh Sathyan, Pascal O. Zinn, Anantha L. Marisetty, Bin Liu, Mohamed Mostafa Kamal, Sanjay K. Singh, Pierre Bady, Li Lu, Khalida M. Wani, Bethany L. Veo, Joy Gumin, Dina Hamada Kassem, Frederick Robinson, Connie Weng, Veerabhadran Baladandayuthapani, Dima Suki, Howard Colman, Krishna P. Bhat, Erik P. Sulman, Ken AldapeRivka R. Colen, Roel G W Verhaak, Zhimin Lu, Gregory N. Fuller, Suyun Huang, Frederick F. Lang, Raymond Sawaya, Monika Hegi, Sadhan Majumder

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

47 Scopus citations

Abstract

Glioblastoma (GBM) is the most aggressive human brain tumor. Although several molecular subtypes of GBM are recognized, a robust molecular prognostic marker has yet to be identified. Here,wereport that the stemness regulator Sox2 is a new, clinically important target of microRNA-21 (miR-21) in GBM, with implications for prognosis. Using the MiR-21-Sox2 regulatory axis, approximately half of all GBM tumors present in the Cancer Genome Atlas (TCGA) and in-house patient databases can be mathematically classified into high miR-21/low Sox2 (Class A) or low miR-21/high Sox2 (Class B) subtypes. This classification reflects phenotypically and molecularly distinct characteristics and is not captured by existing classifications. Supporting the distinct nature of the subtypes, gene set enrichment analysis of the TCGA dataset predicted that Class A and Class B tumors were significantly involved in immune/inflammatory response and in chromosome organization and nervous system development, respectively. Patients with ClassBtumors had longer overall survival than those with Class A tumors. Analysis of both databases indicated that the Class A/Class B classification is a better predictor of patient survival than currently used parameters. Further, manipulation of MiR-21-Sox2 levels in orthotopic mouse models supported the longer survival of the Class B subtype. The MiR-21-Sox2 association was also found in mouse neural stem cells and in the mouse brain at different developmental stages, suggesting a role in normal development. Therefore, this mechanism-based classification suggests the presence of two distinct populations of GBM patients with distinguishable phenotypic characteristics and clinical outcomes.

Original language	English (US)
Pages (from-to)	15097-15112
Number of pages	16
Journal	Journal of Neuroscience
Volume	35
Issue number	45
DOIs	https://doi.org/10.1523/JNEUROSCI.1265-15.2015
State	Published - Nov 11 2015

Keywords

Glioblastoma
Neuronal subtype
SOX2
microRNA-21

ASJC Scopus subject areas

General Neuroscience

MD Anderson CCSG core facilities

Bioinformatics Shared Resource
Biostatistics Resource Group
Research Animal Support Facility
Tissue Biospecimen and Pathology Resource

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10.1523/JNEUROSCI.1265-15.2015

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Sathyan, P., Zinn, P. O., Marisetty, A. L., Liu, B., Kamal, M. M., Singh, S. K., Bady, P., Lu, L., Wani, K. M., Veo, B. L., Gumin, J., Kassem, D. H., Robinson, F., Weng, C., Baladandayuthapani, V., Suki, D., Colman, H., Bhat, K. P., Sulman, E. P., ... Majumder, S. (2015). Mir-21-Sox2 axis delineates glioblastoma subtypes with prognostic impact. Journal of Neuroscience, 35(45), 15097-15112. https://doi.org/10.1523/JNEUROSCI.1265-15.2015

Sathyan, P, Zinn, PO, Marisetty, AL, Liu, B, Kamal, MM, Singh, SK, Bady, P, Lu, L, Wani, KM, Veo, BL, Gumin, J, Kassem, DH, Robinson, F, Weng, C, Baladandayuthapani, V, Suki, D, Colman, H, Bhat, KP, Sulman, EP, Aldape, K, Colen, RR, Verhaak, RGW, Lu, Z, Fuller, GN, Huang, S, Lang, FF, Sawaya, R, Hegi, M & Majumder, S 2015, 'Mir-21-Sox2 axis delineates glioblastoma subtypes with prognostic impact', Journal of Neuroscience, vol. 35, no. 45, pp. 15097-15112. https://doi.org/10.1523/JNEUROSCI.1265-15.2015

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title = "Mir-21-Sox2 axis delineates glioblastoma subtypes with prognostic impact",

abstract = "Glioblastoma (GBM) is the most aggressive human brain tumor. Although several molecular subtypes of GBM are recognized, a robust molecular prognostic marker has yet to be identified. Here,wereport that the stemness regulator Sox2 is a new, clinically important target of microRNA-21 (miR-21) in GBM, with implications for prognosis. Using the MiR-21-Sox2 regulatory axis, approximately half of all GBM tumors present in the Cancer Genome Atlas (TCGA) and in-house patient databases can be mathematically classified into high miR-21/low Sox2 (Class A) or low miR-21/high Sox2 (Class B) subtypes. This classification reflects phenotypically and molecularly distinct characteristics and is not captured by existing classifications. Supporting the distinct nature of the subtypes, gene set enrichment analysis of the TCGA dataset predicted that Class A and Class B tumors were significantly involved in immune/inflammatory response and in chromosome organization and nervous system development, respectively. Patients with ClassBtumors had longer overall survival than those with Class A tumors. Analysis of both databases indicated that the Class A/Class B classification is a better predictor of patient survival than currently used parameters. Further, manipulation of MiR-21-Sox2 levels in orthotopic mouse models supported the longer survival of the Class B subtype. The MiR-21-Sox2 association was also found in mouse neural stem cells and in the mouse brain at different developmental stages, suggesting a role in normal development. Therefore, this mechanism-based classification suggests the presence of two distinct populations of GBM patients with distinguishable phenotypic characteristics and clinical outcomes.",

keywords = "Glioblastoma, Neuronal subtype, SOX2, microRNA-21",

author = "Pratheesh Sathyan and Zinn, {Pascal O.} and Marisetty, {Anantha L.} and Bin Liu and Kamal, {Mohamed Mostafa} and Singh, {Sanjay K.} and Pierre Bady and Li Lu and Wani, {Khalida M.} and Veo, {Bethany L.} and Joy Gumin and Kassem, {Dina Hamada} and Frederick Robinson and Connie Weng and Veerabhadran Baladandayuthapani and Dima Suki and Howard Colman and Bhat, {Krishna P.} and Sulman, {Erik P.} and Ken Aldape and Colen, {Rivka R.} and Verhaak, {Roel G W} and Zhimin Lu and Fuller, {Gregory N.} and Suyun Huang and Lang, {Frederick F.} and Raymond Sawaya and Monika Hegi and Sadhan Majumder",

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AU - Sathyan, Pratheesh

AU - Zinn, Pascal O.

AU - Marisetty, Anantha L.

AU - Liu, Bin

AU - Kamal, Mohamed Mostafa

AU - Singh, Sanjay K.

AU - Bady, Pierre

AU - Lu, Li

AU - Wani, Khalida M.

AU - Veo, Bethany L.

AU - Gumin, Joy

AU - Kassem, Dina Hamada

AU - Robinson, Frederick

AU - Weng, Connie

AU - Baladandayuthapani, Veerabhadran

AU - Suki, Dima

AU - Colman, Howard

AU - Bhat, Krishna P.

AU - Sulman, Erik P.

AU - Aldape, Ken

AU - Colen, Rivka R.

AU - Verhaak, Roel G W

AU - Lu, Zhimin

AU - Fuller, Gregory N.

AU - Huang, Suyun

AU - Lang, Frederick F.

AU - Sawaya, Raymond

AU - Hegi, Monika

AU - Majumder, Sadhan

PY - 2015/11/11

Y1 - 2015/11/11

N2 - Glioblastoma (GBM) is the most aggressive human brain tumor. Although several molecular subtypes of GBM are recognized, a robust molecular prognostic marker has yet to be identified. Here,wereport that the stemness regulator Sox2 is a new, clinically important target of microRNA-21 (miR-21) in GBM, with implications for prognosis. Using the MiR-21-Sox2 regulatory axis, approximately half of all GBM tumors present in the Cancer Genome Atlas (TCGA) and in-house patient databases can be mathematically classified into high miR-21/low Sox2 (Class A) or low miR-21/high Sox2 (Class B) subtypes. This classification reflects phenotypically and molecularly distinct characteristics and is not captured by existing classifications. Supporting the distinct nature of the subtypes, gene set enrichment analysis of the TCGA dataset predicted that Class A and Class B tumors were significantly involved in immune/inflammatory response and in chromosome organization and nervous system development, respectively. Patients with ClassBtumors had longer overall survival than those with Class A tumors. Analysis of both databases indicated that the Class A/Class B classification is a better predictor of patient survival than currently used parameters. Further, manipulation of MiR-21-Sox2 levels in orthotopic mouse models supported the longer survival of the Class B subtype. The MiR-21-Sox2 association was also found in mouse neural stem cells and in the mouse brain at different developmental stages, suggesting a role in normal development. Therefore, this mechanism-based classification suggests the presence of two distinct populations of GBM patients with distinguishable phenotypic characteristics and clinical outcomes.

AB - Glioblastoma (GBM) is the most aggressive human brain tumor. Although several molecular subtypes of GBM are recognized, a robust molecular prognostic marker has yet to be identified. Here,wereport that the stemness regulator Sox2 is a new, clinically important target of microRNA-21 (miR-21) in GBM, with implications for prognosis. Using the MiR-21-Sox2 regulatory axis, approximately half of all GBM tumors present in the Cancer Genome Atlas (TCGA) and in-house patient databases can be mathematically classified into high miR-21/low Sox2 (Class A) or low miR-21/high Sox2 (Class B) subtypes. This classification reflects phenotypically and molecularly distinct characteristics and is not captured by existing classifications. Supporting the distinct nature of the subtypes, gene set enrichment analysis of the TCGA dataset predicted that Class A and Class B tumors were significantly involved in immune/inflammatory response and in chromosome organization and nervous system development, respectively. Patients with ClassBtumors had longer overall survival than those with Class A tumors. Analysis of both databases indicated that the Class A/Class B classification is a better predictor of patient survival than currently used parameters. Further, manipulation of MiR-21-Sox2 levels in orthotopic mouse models supported the longer survival of the Class B subtype. The MiR-21-Sox2 association was also found in mouse neural stem cells and in the mouse brain at different developmental stages, suggesting a role in normal development. Therefore, this mechanism-based classification suggests the presence of two distinct populations of GBM patients with distinguishable phenotypic characteristics and clinical outcomes.

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Mir-21-Sox2 axis delineates glioblastoma subtypes with prognostic impact

Abstract

Keywords

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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