| Literature DB >> 32668248 |
Patrik Johansson1, Cecilia Krona1, Soumi Kundu1, Milena Doroszko1, Sathishkumar Baskaran1, Linnéa Schmidt1, Claire Vinel2, Elin Almstedt1, Ramy Elgendy1, Ludmila Elfineh1, Caroline Gallant1, Sara Lundsten1, Fernando J Ferrer Gago3, Aleksi Hakkarainen4, Petra Sipilä4, Maria Häggblad5, Ulf Martens5, Bo Lundgren5, Melanie M Frigault6, David P Lane7, Fredrik J Swartling1, Lene Uhrbom1, Marika Nestor1, Silvia Marino2, Sven Nelander8.
Abstract
Glioblastoma (GBM) is a malignant brain tumor with few therapeutic options. The disease presents with a complex spectrum of genomic aberrations, but the pharmacological consequences of these aberrations are partly unknown. Here, we report an integrated pharmacogenomic analysis of 100 patient-derived GBM cell cultures from the human glioma cell culture (HGCC) cohort. Exploring 1,544 drugs, we find that GBM has two main pharmacological subgroups, marked by differential response to proteasome inhibitors and mutually exclusive aberrations in TP53 and CDKN2A/B. We confirm this trend in cell and in xenotransplantation models, and identify both Bcl-2 family inhibitors and p53 activators as potentiators of proteasome inhibitors in GBM cells. We can further predict the responses of individual cell cultures to several existing drug classes, presenting opportunities for drug repurposing and design of stratified trials. Our functionally profiled biobank provides a valuable resource for the discovery of new treatments for GBM.Entities:
Keywords: biobank; combination therapy; data integration; glioblastoma; multi-omics; p53 reactivators; patient-derived cells; primary cells; proteasome
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Year: 2020 PMID: 32668248 DOI: 10.1016/j.celrep.2020.107897
Source DB: PubMed Journal: Cell Rep Impact factor: 9.423