NOTCH3 Drives Fatty Acid Oxidation and Ferroptosis Resistance in Aggressive Meningiomas
Nishanth S. Sadagopan, Mateo Gomez, Shashwat Tripathi, Leah K. Billingham, Susan L. DeLay, Martha A. Cady, Harrshavasan T. S. Congivaram, Tzu-yi Chia, Hanxiao Wan, Si Wang, David R. Raleigh, Faith C. Kaluba, Evan C. Lien, Amy B. Heimberger, Catalina Lee-Chang, Mark W. Youngblood

TL;DR
This study shows that NOTCH3 promotes fatty acid metabolism and protects aggressive meningioma cells from a type of cell death called ferroptosis.
Contribution
The paper reveals a novel metabolic role of NOTCH3 in meningiomas, linking it to fatty acid oxidation and ferroptosis resistance.
Findings
NOTCH3 drives a metabolic shift toward fatty acid oxidation in meningioma cells.
NOTCH3 overexpression increases resistance to ferroptosis and enhances mitochondrial respiration.
CD36 expression correlates with NOTCH3 activity and supports fatty acid uptake in these tumors.
Abstract
NOTCH3 is increasingly implicated for its oncogenic role in many malignancies, including meningiomas. While prior work has linked NOTCH3 expression to higher-grade meningiomas and treatment resistance, the metabolic phenotype of NOTCH3 activation remains unexplored in meningioma. We performed single-cell RNA sequencing on NOTCH3 + human meningioma cell lines. Using the CH157-MN meningioma cell model, we overexpressed NOTCH3 intracellular domain (ICD) and performed untargeted metabolomic, lipidomic, and bulk RNA sequencing analyses as well as functional metabolic assays. We show that NOTCH3 mediates a metabolic shift towards fatty acid oxidation (FAO), depleting lipid availability and conferring resistance to ferroptosis. Single-cell RNA sequencing revealed a correlation with CD36, a key fatty acid transporter. Furthermore, patient-derived primary meningioma lines stratified by NOTCH3…
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Taxonomy
TopicsCardiac tumors and thrombi · Bone Tumor Diagnosis and Treatments · Medical Imaging and Pathology Studies
