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SLC15A3-mediated dipeptide metabolism confers antimetabolite resistance in lymphoma via mTORC1 activation
Haojun Yang, Vincenzo Andrea Zingaro, Kevin Boardman, Ashish Noronha, Ekin Guney, Lingru Xue, Saishma Hoigebazar, Isabelle Liu, Sohit Miglani, Siyu Chen, Hieu Vu, Kwun Wah Wen, Hao G. Nguyen, Hani Goodarzi, Ralph J. DeBerardinis, Davide Ruggero
Haojun Yang, Vincenzo Andrea Zingaro, Kevin Boardman, Ashish Noronha, Ekin Guney, Lingru Xue, Saishma Hoigebazar, Isabelle Liu, Sohit Miglani, Siyu Chen, Hieu Vu, Kwun Wah Wen, Hao G. Nguyen, Hani Goodarzi, Ralph J. DeBerardinis, Davide Ruggero
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Research Article Hematology Metabolism Oncology

SLC15A3-mediated dipeptide metabolism confers antimetabolite resistance in lymphoma via mTORC1 activation

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Abstract

Antimetabolites, chemotherapy targeting nucleotide biosynthesis, are among the oldest and most widely used cancer treatments, yet resistance remains a daunting barrier, especially in the fight against B cell lymphomas. However, the underlying mechanisms of this resistance have long remained elusive. Using an innovative, integrated omics approach, we unexpectedly identified that the accumulation of dipeptides and upregulation of the dipeptide transporter SLC15A3 underlie resistance to nucleotide deficiency in a Myc-driven large B cell lymphoma mouse model. A similar mechanism occurred after long treatment of human B cell lymphoma cells with the chemotherapeutic purine synthesis inhibitor 6-mercaptopurine (6MP). Mechanistically, we demonstrated that dipeptides containing essential amino acids activated the growth and survival mTOR complex 1 (mTORC1) signaling pathway. Notably, SLC15A3 specifically interacted with mTOR on the lysosome, boosting mTORC1 activity selectively in resistant lymphoma cells but not in parental cancer cells. Silencing SLC15A3 diminished mTORC1 activity and restored resistant lymphoma sensitivity to 6MP. Strikingly, resistant lymphomas, but not primary tumors, exhibited heightened sensitivity to the clinical mTOR inhibitor, rapamycin, in culture and in vivo. We extended these findings in human lymphoma biopsies, which revealed increased SLC15A3 expression following antimetabolite therapy. Together, our study uncovered a metabolic adaptation that fuels cancer resistance to nucleotide deficiency and positions the mTORC1 inhibitor, rapamycin, as a potential therapeutic strategy for transforming the management of chemotherapy-resistant lymphomas.

Authors

Haojun Yang, Vincenzo Andrea Zingaro, Kevin Boardman, Ashish Noronha, Ekin Guney, Lingru Xue, Saishma Hoigebazar, Isabelle Liu, Sohit Miglani, Siyu Chen, Hieu Vu, Kwun Wah Wen, Hao G. Nguyen, Hani Goodarzi, Ralph J. DeBerardinis, Davide Ruggero

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Figure 1

Genetically antinucleotide-resistant lymphoma specifically upregulates dipeptides and their transporter SLC15A3.

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Genetically antinucleotide-resistant lymphoma specifically upregulates d...
(A) Heatmap showing relative metabolite levels (compared with WT B cells) of premalignant (PM) B cells from WT, Prps2null, Eμ-Myc/+, and Eμ-Myc/+ Prps2null mice and lymphomas (T) from Eμ-Myc/+, and Eμ-Myc/+ Prps2null mice (n = 5). (B) Differential abundance (DA) score for each superpathway (n = 5). A DA score approaching 1 indicates a coordinated increase in metabolite abundance within the pathway, whereas a score near –1 indicates widespread depletion. (C) Relative levels of significantly altered dipeptides between lymphoma from Eμ-Myc/+ Prps2null and Eμ-Myc/+ mice. (D) Top enriched pathways enriched in genes that are upregulated at both transcriptional and translational levels using BioPlanet pathway enrichment analysis. (E) Relative mRNA expression of indicated genes comparing lymphoma between Eμ-Myc/+ Prps2null and Eμ-Myc/+ mice. (F) Immunoblot analysis of indicated proteins in lymphoma from Eμ-Myc/+ Prps2null and Eμ-Myc/+ mice. β-Actin serves as the loading control. Individual data and mean ± SEM were presented in C and E and analyzed using 2-way ANOVA; *P < 0.05, **P < 0.01; ****P < 0.0001.

Copyright © 2026 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)

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