Inhibiting the MNK1/2-eIF4E axis impairs melanoma phenotype switching and potentiates antitumor immune responses
Fan Huang, … , Wilson H. Miller Jr., Sonia V. del Rincón
Fan Huang, … , Wilson H. Miller Jr., Sonia V. del Rincón
Published March 9, 2021
Citation Information: J Clin Invest. 2021;131(8):e140752. https://doi.org/10.1172/JCI140752.
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Research Article Oncology

Inhibiting the MNK1/2-eIF4E axis impairs melanoma phenotype switching and potentiates antitumor immune responses

Abstract

Melanomas commonly undergo a phenotype switch, from a proliferative to an invasive state. Such tumor cell plasticity contributes to immunotherapy resistance; however, the mechanisms are not completely understood and thus are therapeutically unexploited. Using melanoma mouse models, we demonstrated that blocking the MNK1/2-eIF4E axis inhibited melanoma phenotype switching and sensitized melanoma to anti–PD-1 immunotherapy. We showed that phospho-eIF4E–deficient murine melanomas expressed high levels of melanocytic antigens, with similar results verified in patient melanomas. Mechanistically, we identified phospho-eIF4E–mediated translational control of NGFR, a critical effector of phenotype switching. Genetic ablation of phospho-eIF4E reprogrammed the immunosuppressive microenvironment, exemplified by lowered production of inflammatory factors, decreased PD-L1 expression on dendritic cells and myeloid-derived suppressor cells, and increased CD8+ T cell infiltrates. Finally, dual blockade of the MNK1/2-eIF4E axis and the PD-1/PD-L1 immune checkpoint demonstrated efficacy in multiple melanoma models regardless of their genomic classification. An increase in the presence of intratumoral stem-like TCF1+PD-1+CD8+ T cells, a characteristic essential for durable antitumor immunity, was detected in mice given a MNK1/2 inhibitor and anti–PD-1 therapy. Using MNK1/2 inhibitors to repress phospho-eIF4E thus offers a strategy to inhibit melanoma plasticity and improve response to anti–PD-1 immunotherapy.

Authors

Fan Huang, Christophe Gonçalves, Margarita Bartish, Joelle Rémy-Sarrazin, Mark E. Issa, Brendan Cordeiro, Qianyu Guo, Audrey Emond, Mikhael Attias, William Yang, Dany Plourde, Jie Su, Marina Godoy Gimeno, Yao Zhan, Alba Galán, Tomasz Rzymski, Milena Mazan, Magdalena Masiejczyk, Jacek Faber, Elie Khoury, Alexandre Benoit, Natascha Gagnon, David Dankort, Fabrice Journe, Ghanem E. Ghanem, Connie M. Krawczyk, H. Uri Saragovi, Ciriaco A. Piccirillo, Nahum Sonenberg, Ivan Topisirovic, Christopher E. Rudd, Wilson H. Miller Jr., Sonia V. del Rincón

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Figure 4

Phospho-eIF4E–deficient melanomas have an altered secretome.

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Phospho-eIF4E–deficient melanomas have an altered secretome. (A) Schemat...
(A) Schematic of the experimental design for the membrane-based cytokine arrays. (B) Representative images of the cytokine arrays showing the expression of secreted factors present in the conditioned medium derived from eIF4EWT and eIF4EKI primary melanoma cultures (n = 2 mice per genotype). (C) Concentration of CCL5 and IL-6 in the conditioned medium derived from the eIF4EWT and eIF4EKI primary melanoma cultures (n = 6 mice per genotype). (D) Fold change of the indicated mRNAs in MDMel-KI cells relative to MDMel-WT cells, normalized to m36B4 (Rplp0) as a reference gene (n = 3 for Igfbp6, n = 4 for Angptl4, n = 5 for the rest). Bottom: Zymography to assess MMP-9 activity in the conditioned medium of MDMel-WT and MDMel-KI cells (representative of n = 3). (E) Concentration of CCL5 in the conditioned medium of MDMel-WT and MDMel-KI cells (n = 3). (F) Percentage of transcripts in each polysomal fraction quantified by quantitative real-time PCR (n = 3). Multiple unpaired 2-tailed t test. (G) Representative image showing PCR-amplified cDNA fragments of the indicated targets (n = 3). The loading control (m36B4) is the same as for the data in Figure 3F, as the samples were run in parallel. (H) Fold change of indicated mRNAs in siNgfr-2–transfected (see Supplemental Table 4) MDMel-WT cells relative to the control group, normalized to m36B4 (Rplp0) (n = 3). (I) Correlation of the expression of indicated genes with the expression of NGFR (HTSeq [https://xenabrowser.net/datapages/?dataset=TCGA-SKCM.htseq_fpkm.tsv&host=https%3A%2F%2Fgdc.xenahubs.net&removeHub=https%3A%2F%2Fxena.treehouse.gi.ucsc.edu%3A443], fragments per kilobase of transcript per million mapped reads [FPKM]) in Genomic Data Commons (GDC) TCGA Melanoma data set (SKCM cohort, n = 477). Spearman rank-order. (CE and H) Two-sided unpaired t test. (C) Data are represented as mean ± SEM. (DH) Values represent the mean ± SD.