Molecular Cancer (May 2024)

RICTOR/mTORC2 downregulation in BRAFV600E melanoma cells promotes resistance to BRAF/MEK inhibition

  • Luca Ponzone,
  • Valentina Audrito,
  • Claudia Landi,
  • Enrico Moiso,
  • Chiara Levra Levron,
  • Sara Ferrua,
  • Aurora Savino,
  • Nicoletta Vitale,
  • Massimiliano Gasparrini,
  • Lidia Avalle,
  • Lorenza Vantaggiato,
  • Enxhi Shaba,
  • Beatrice Tassone,
  • Stefania Saoncella,
  • Francesca Orso,
  • Daniele Viavattene,
  • Eleonora Marina,
  • Irene Fiorilla,
  • Giulia Burrone,
  • Youssef Abili,
  • Fiorella Altruda,
  • Luca Bini,
  • Silvia Deaglio,
  • Paola Defilippi,
  • Alessio Menga,
  • Valeria Poli,
  • Paolo Ettore Porporato,
  • Paolo Provero,
  • Nadia Raffaelli,
  • Chiara Riganti,
  • Daniela Taverna,
  • Federica Cavallo,
  • Enzo Calautti

DOI
https://doi.org/10.1186/s12943-024-02010-1
Journal volume & issue
Vol. 23, no. 1
pp. 1 – 17

Abstract

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Abstract Background The main drawback of BRAF/MEK inhibitors (BRAF/MEKi)-based targeted therapy in the management of BRAF-mutated cutaneous metastatic melanoma (MM) is the development of therapeutic resistance. We aimed to assess in this context the role of mTORC2, a signaling complex defined by the presence of the essential RICTOR subunit, regarded as an oncogenic driver in several tumor types, including MM. Methods After analyzing The Cancer Genome Atlas MM patients’ database to explore both overall survival and molecular signatures as a function of intra-tumor RICTOR levels, we investigated the effects of RICTOR downregulation in BRAFV600E MM cell lines on their response to BRAF/MEKi. We performed proteomic screening to identify proteins modulated by changes in RICTOR expression, and Seahorse analysis to evaluate the effects of RICTOR depletion on mitochondrial respiration. The combination of BRAFi with drugs targeting proteins and processes emerged in the proteomic screening was carried out on RICTOR-deficient cells in vitro and in a xenograft setting in vivo. Results Low RICTOR levels in BRAF-mutated MM correlate with a worse clinical outcome. Gene Set Enrichment Analysis of low-RICTOR tumors display gene signatures suggestive of activation of the mitochondrial Electron Transport Chain (ETC) energy production. RICTOR-deficient BRAFV600E cells are intrinsically tolerant to BRAF/MEKi and anticipate the onset of resistance to BRAFi upon prolonged drug exposure. Moreover, in drug-naïve cells we observed a decline in RICTOR expression shortly after BRAFi exposure. In RICTOR-depleted cells, both mitochondrial respiration and expression of nicotinamide phosphoribosyltransferase (NAMPT) are enhanced, and their pharmacological inhibition restores sensitivity to BRAFi. Conclusions Our work unveils an unforeseen tumor-suppressing role for mTORC2 in the early adaptation phase of BRAFV600E melanoma cells to targeted therapy and identifies the NAMPT-ETC axis as a potential therapeutic vulnerability of low RICTOR tumors. Importantly, our findings indicate that the evaluation of intra-tumor RICTOR levels has a prognostic value in metastatic melanoma and may help to guide therapeutic strategies in a personalized manner.

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