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Pharmacological polyamine catabolism upregulation with methionine salvage pathway inhibition as an effective prostate cancer therapy

Author

Listed:
  • Hayley C. Affronti

    (Roswell Park Comprehensive Cancer Center)

  • Aryn M. Rowsam

    (Roswell Park Comprehensive Cancer Center)

  • Anthony J. Pellerite

    (Roswell Park Comprehensive Cancer Center)

  • Spencer R. Rosario

    (Roswell Park Comprehensive Cancer Center)

  • Mark D. Long

    (Roswell Park Comprehensive Cancer Center)

  • Justine J. Jacobi

    (Roswell Park Comprehensive Cancer Center)

  • Anna Bianchi-Smiraglia

    (Roswell Park Comprehensive Cancer Center)

  • Christoph S. Boerlin

    (Roswell Park Comprehensive Cancer Center)

  • Bryan M. Gillard

    (Roswell Park Comprehensive Cancer Center)

  • Ellen Karasik

    (Roswell Park Comprehensive Cancer Center)

  • Barbara A. Foster

    (Roswell Park Comprehensive Cancer Center)

  • Michael Moser

    (Roswell Park Comprehensive Cancer Center)

  • John H. Wilton

    (Roswell Park Comprehensive Cancer Center)

  • Kristopher Attwood

    (Roswell Park Comprehensive Cancer Center)

  • Mikhail A. Nikiforov

    (Roswell Park Comprehensive Cancer Center)

  • Gissou Azabdaftari

    (Roswell Park Comprehensive Cancer Center)

  • Roberto Pili

    (Indiana University)

  • James G. Phillips

    (Taussig Cancer Institute, Cleveland Clinic)

  • Robert A. Casero

    (Johns Hopkins University)

  • Dominic J. Smiraglia

    (Roswell Park Comprehensive Cancer Center)

Abstract

Prostatic luminal epithelial cells secrete high levels of acetylated polyamines into the prostatic lumen, sensitizing them to perturbations of connected metabolic pathways. Enhanced flux is driven by spermidine/spermine N1-acetyltransferase (SSAT) activity, which acetylates polyamines leading to their secretion and drives biosynthetic demand. The methionine salvage pathway recycles one-carbon units lost to polyamine biosynthesis to the methionine cycle to overcome stress. Prostate cancer (CaP) relies on methylthioadenosine phosphorylase (MTAP), the rate-limiting enzyme, to relieve strain. Here, we show that inhibition of MTAP alongside SSAT upregulation is synergistic in androgen sensitive and castration recurrent CaP models in vitro and in vivo. The combination treatment increases apoptosis in radical prostatectomy ex vivo explant samples. This unique high metabolic flux through polyamine biosynthesis and connected one carbon metabolism in CaP creates a metabolic dependency. Enhancing this flux while simultaneously targeting this dependency in prostate cancer results in an effective therapeutic approach potentially translatable to the clinic.

Suggested Citation

  • Hayley C. Affronti & Aryn M. Rowsam & Anthony J. Pellerite & Spencer R. Rosario & Mark D. Long & Justine J. Jacobi & Anna Bianchi-Smiraglia & Christoph S. Boerlin & Bryan M. Gillard & Ellen Karasik & , 2020. "Pharmacological polyamine catabolism upregulation with methionine salvage pathway inhibition as an effective prostate cancer therapy," Nature Communications, Nature, vol. 11(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-019-13950-4
    DOI: 10.1038/s41467-019-13950-4
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    Cited by:

    1. Alessia Cacciatore & Dheeraj Shinde & Carola Musumeci & Giada Sandrini & Luca Guarrera & Domenico Albino & Gianluca Civenni & Elisa Storelli & Simone Mosole & Elisa Federici & Alessio Fusina & Marta I, 2024. "Epigenome-wide impact of MAT2A sustains the androgen-indifferent state and confers synthetic vulnerability in ERG fusion-positive prostate cancer," Nature Communications, Nature, vol. 15(1), pages 1-25, December.

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