Metabolic Plasticity of Glioblastoma Cells in Response to DHODH Inhibitor BAY2402234 Treatment.
Ayenachew Bezawork-GeletaDiane MoujalledDavid P de SouzaVinod K NarayanaJames DimouRodney B LuworMatthew J WattPublished in: Metabolites (2024)
Glioblastoma (IDH-wildtype) represents a formidable challenge in oncology, lacking effective chemotherapeutic or biological interventions. The metabolic reprogramming of cancer cells is a hallmark of tumor progression and drug resistance, yet the role of metabolic reprogramming in glioblastoma during drug treatment remains poorly understood. The dihydroorotate dehydrogenase (DHODH) inhibitor BAY2402234 is a blood-brain barrier penetrant drug showing efficiency in in vivo models of many brain cancers. In this study, we investigated the effect of BAY2402234 in regulating the metabolic phenotype of EGFRWT and EGFRvIII patient-derived glioblastoma cell lines. Our findings reveal the selective cytotoxicity of BAY2402234 toward EGFRWT glioblastoma subtypes with minimal effect on EGFRvIII patient cells. At sublethal doses, BAY2402234 induces triglyceride synthesis at the expense of membrane lipid synthesis and fatty acid oxidation in EGFRWT glioblastoma cells, while these effects are not observed in EGFRvIII glioblastoma cells. Furthermore, BAY2402234 reduced the abundance of signaling lipid species in EGFRWT glioblastoma. This study elucidates genetic mutation-specific metabolic plasticity and efficacy in glioblastoma cells in response to drug treatment, offering insights into therapeutic avenues for precision medicine approaches.
Keyphrases
- induced apoptosis
- cell cycle arrest
- blood brain barrier
- fatty acid
- endoplasmic reticulum stress
- oxidative stress
- gene expression
- genome wide
- water quality
- white matter
- high resolution
- poor prognosis
- high grade
- single cell
- dna methylation
- high speed
- atomic force microscopy
- electronic health record
- hydrogen peroxide
- drug induced
- brain injury
- smoking cessation
- anaerobic digestion