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Loss of tumor-infiltrating lymphocytes and poor response to immunotherapy in IDH GOF mutant melanoma
Emma Specht, Lakshmi Pakanati, Meng-Ju Wu, Russell W. Jenkins, Derek N. Effiom, Nabeel Bardeesy, Bradley E. Bernstein, Moshe Sade-Feldman, Christine G. Lian, Genevieve M. Boland, Elena Torlai Triglia, Sonia Cohen
Emma Specht, Lakshmi Pakanati, Meng-Ju Wu, Russell W. Jenkins, Derek N. Effiom, Nabeel Bardeesy, Bradley E. Bernstein, Moshe Sade-Feldman, Christine G. Lian, Genevieve M. Boland, Elena Torlai Triglia, Sonia Cohen
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Research Article Genetics Immunology Oncology

Loss of tumor-infiltrating lymphocytes and poor response to immunotherapy in IDH GOF mutant melanoma

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Abstract

Recent innovations in melanoma treatment with immune checkpoint blockade (ICB) have improved overall outcomes for patients; however, over 50% of patients still develop resistance to treatment. These patients either have intrinsic resistance and never respond to therapy or develop acquired resistance months or years into treatment. The mechanisms underlying ICB resistance remain poorly understood. Our data show that patients with isocitrate dehydrogenase gain-of-function (IDH GOF) mutant melanoma have a worse response to anti-PD1 immunotherapy. IDH mutations have been found to be oncogenic and associated with differential methylation in multiple cancers but are not yet characterized in human melanoma. Here, we investigate the clinical, immune, and transcriptional phenotypes of IDH GOF melanomas through analyses of clinical response, single-cell RNA-seq, bulk RNA-seq, and DNA methylation data. Single-cell data analysis showed decreased immune infiltrate and activity in the IDH GOF tumors. Bulk sequencing data demonstrated the association among IDH mutation, immune exclusion, and disruptions in global DNA methylation. The melanoma-derived genomic data presented support previously described resistance mechanisms of IDH mutation in other cancer types and is the first demonstration to our knowledge of the role of IDH GOF in the human melanoma tumor microenvironment.

Authors

Emma Specht, Lakshmi Pakanati, Meng-Ju Wu, Russell W. Jenkins, Derek N. Effiom, Nabeel Bardeesy, Bradley E. Bernstein, Moshe Sade-Feldman, Christine G. Lian, Genevieve M. Boland, Elena Torlai Triglia, Sonia Cohen

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Figure 3

IDH GOF mutant tumors have decreased T cell and tumor interactions and a cold tumor environment.

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IDH GOF mutant tumors have decreased T cell and tumor interactions and ...
(A) Heatmap showing the predicted ligand-receptor interactions in each condition. Predicted ligand-receptor interactions (using CellphoneDB) were decreased in mutants, specifically in the T cell/Tumor interactions. (B) Like the single-cell data, a pretreatment tumor sample with mutant IDH from ref. 14, imaged with t-CyCIF, shows an “immune desert” with few immune cells along the edge of the tumor. Scale bars: 2,000 μm. (C) The proportions of tumor cells and T cells in this sample fell within the pattern from single-cell data. Star represents sample shown in B. (D) Representative staining of IDH WT (n = 8) and IDH GOF (n = 4) with CD8 antibody. Scale bars: 495 μm. (E) Percentage of total cells identified that were positive for CD3 or CD8 split by IDH GOF status.

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