Gene Regulatory Network Topology Governs Resistance and Treatment Escape in Glioma Stem-like Cells

Overview

Journal Sci Adv

Specialties Biology
Science

Date 2024 Jun 7

PMID 38848360

Authors

James H Park

Parvinder Hothi

Adrian Lopez Garcia de Lomana

Min Pan

Rachel Calder

Serdar Turkarslan

Wei-Ju Wu

Hwahyung Lee

Anoop P Patel

Charles Cobbs

Sui Huang

Nitin S Baliga

Affiliations

Soon will be listed here.

Abstract

Poor prognosis and drug resistance in glioblastoma (GBM) can result from cellular heterogeneity and treatment-induced shifts in phenotypic states of tumor cells, including dedifferentiation into glioma stem-like cells (GSCs). This rare tumorigenic cell subpopulation resists temozolomide, undergoes proneural-to-mesenchymal transition (PMT) to evade therapy, and drives recurrence. Through inference of transcriptional regulatory networks (TRNs) of patient-derived GSCs (PD-GSCs) at single-cell resolution, we demonstrate how the topology of transcription factor interaction networks drives distinct trajectories of cell-state transitions in PD-GSCs resistant or susceptible to cytotoxic drug treatment. By experimentally testing predictions based on TRN simulations, we show that drug treatment drives surviving PD-GSCs along a trajectory of intermediate states, exposing vulnerability to potentiated killing by siRNA or a second drug targeting treatment-induced transcriptional programs governing nongenetic cell plasticity. Our findings demonstrate an approach to uncover TRN topology and use it to rationally predict combinatorial treatments that disrupt acquired resistance in GBM.

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