Integrative multi-omics approach to targeted therapy for glioblastoma

This review describes recent technological advances applied to glioblastoma (GBM), a brain tumor with dismal prognosis. International consortial efforts suggest the presence of molecular subtypes within histologically identical GBM tumors. This emphasizes that future treatment decisions should no lo...

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Veröffentlicht in:	Pharmacological research 2022-08, Vol.182, p.106308-106308, Article 106308
Hauptverfasser:	Koh, Lynnette, Novera, Wisna, Lim, See Wee, Chong, Yuk Kien, Pang, Qing You, Low, David, Ang, Beng Ti, Tang, Carol
Format:	Artikel
Sprache:	eng
Schlagworte:	Glioblastoma Molecular subtypes Patient, stratification Precision medicine Single-cell technology
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creator	Koh, Lynnette Novera, Wisna Lim, See Wee Chong, Yuk Kien Pang, Qing You Low, David Ang, Beng Ti Tang, Carol
description	This review describes recent technological advances applied to glioblastoma (GBM), a brain tumor with dismal prognosis. International consortial efforts suggest the presence of molecular subtypes within histologically identical GBM tumors. This emphasizes that future treatment decisions should no longer be made based solely on morphological analyses, but must now take into consideration such molecular and cellular heterogeneity. The use of single-cell technologies has advanced our understanding and assignation of functional subtypes revealing therapeutic vulnerabilities. Our team has developed stratification approaches in the past few years, and we have been able to identify patient cohorts enriched for various signaling pathways. Importantly, our Glioportal brain tumor resource has been established under the National Neuroscience Institute Tissue Bank in 2021. This resource offers preclinical capability to validate working hypotheses established from patient clinical datasets. This review highlights recent developments with the ultimate goal of assigning functional meaning to molecular subtypes, revealing therapeutic vulnerabilities. [Display omitted]
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International consortial efforts suggest the presence of molecular subtypes within histologically identical GBM tumors. This emphasizes that future treatment decisions should no longer be made based solely on morphological analyses, but must now take into consideration such molecular and cellular heterogeneity. The use of single-cell technologies has advanced our understanding and assignation of functional subtypes revealing therapeutic vulnerabilities. Our team has developed stratification approaches in the past few years, and we have been able to identify patient cohorts enriched for various signaling pathways. Importantly, our Glioportal brain tumor resource has been established under the National Neuroscience Institute Tissue Bank in 2021. This resource offers preclinical capability to validate working hypotheses established from patient clinical datasets. This review highlights recent developments with the ultimate goal of assigning functional meaning to molecular subtypes, revealing therapeutic vulnerabilities. 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subjects	Glioblastoma Molecular subtypes Patient, stratification Precision medicine Single-cell technology
title	Integrative multi-omics approach to targeted therapy for glioblastoma
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