JCI Insight. 2025 Dec 9:e191465. doi: 10.1172/jci.insight.191465. Online ahead of print.

ABSTRACT

Enhanced lipid metabolism, which involves the active import, storage, and utilization of fatty acids from the tumor microenvironment, plays a contributory role in malignant glioma transformation; thereby, serving as an important gain of function. In this work, through studies initially designed to understand and reconcile possible mechanisms underlying the anti-tumor activity of a high-fat ketogenic diet, we discovered that this phenotype of enhanced lipid metabolism observed in glioblastoma may also serve as a metabolic vulnerability to diet modification. Specifically, exogenous polyunsaturated fatty acids (PUFA) demonstrate the unique ability of short-circuiting lipid homeostasis in glioblastoma cells. This leads to lipolysis-mediated lipid droplet breakdown, an accumulation of intracellular free fatty acids, and lipid peroxidation-mediated cytotoxicity, which was potentiated when combined with radiation therapy. Leveraging this data, we formulated a PUFA-rich modified diet that does not require carbohydrate restriction, which would likely improve long-term adherence when compared to a ketogenic diet. The modified PUFA-rich diet demonstrated both anti-tumor activity and potent synergy when combined with radiation therapy in mouse glioblastoma models. Collectively, this work offers both a mechanistic understanding and a potentially translatable approach of targeting this metabolic phenotype in glioblastoma through diet modification and/or nutritional supplementation that may be readily integrated into clinical practice.

PMID:41364525 | DOI:10.1172/jci.insight.191465

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