Dual targeting of glutamine metabolism and lysosomal function in eliminating drug-tolerant KRAS-mutant cancer cells

  • Commun Biol. 2026 May 26. doi: 10.1038/s42003-026-10374-x.
Hiroki Furukawa  1 Keitaro Umezawa  2 Yuchen Sun  3 Hinata Chiba  1 Marin Kubonishi  1 Hayato Naito  1 Yuri Miura  2 Kousei Ito  1 Shigeki Aoki  4
Affiliations
  • 1. Laboratory of Biopharmaceutics, Graduate School of Pharmaceutical Sciences, Chiba University, Chiba, Japan.
  • 2. Research Team for Mechanism of Aging, Tokyo Metropolitan Institute for Geriatrics and Gerontology, Tokyo, Japan.
  • 3. Division of Medicinal Safety Science, National Institute of Health Sciences, Kawasaki, Japan.
  • 4. Laboratory of Biopharmaceutics, Graduate School of Pharmaceutical Sciences, Chiba University, Chiba, Japan. [email protected].
Abstract

KRAS inhibitors are reshaping the cancer-treatment landscape; however, durable responses remain limited by drug-tolerant persister cells that survive initial therapy and drive relapse. We show that KRAS-mutant pancreatic and lung Cancer cells enter a reversible drug-tolerant (TR) state upon KRAS inhibition, marked by proliferative arrest and extensive metabolic adaptation. Integrated proteomic and metabolomic analyses reveal lysosome-linked remodeling and relatively broad metabolic reprogramming in TR cells. Dual blockade of glutamine metabolism and lysosome-associated processes selectively compromises TR-cell viability under KRAS inhibition, which is rescued by α-ketoglutarate (α-KG). N-acetyl-L-cysteine phenocopies the rescue, and α-KG supplementation lowers intracellular Reactive Oxygen Species levels, supporting a model in which α-KG acts predominantly as a redox-supportive metabolite rather than a Tricarboxylic Acid Cycle intermediate, in the TR state, with lysosome-associated processes contributing to redox balance. These findings define drug-tolerant redox vulnerability and provide a rationale for co-targeting glutamine metabolism and lysosome-associated processes during KRAS inhibitor therapy.

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