Genomic Profiling of Patient-Derived Xenografts for Lung Cancer Identifies <i>B2M</i> Inactivation Impairing Immunorecognition

Pereira, Carolina; Giménez-Xavier, Pol; Pros, Eva; Pajares, María J.; Moro, Massimo; Gómez, Antonio; Navarro, Alejandro; Condom, Enric; Morán, Sebastian; Gómez‐López, Gonzalo; Graña, Osvaldo; Rubio-Camarillo, Miriam; Martinez-Martí, Alex; Yokota, Jun; Carretero, Julián; Galbis, Jose M.; Nadal, Ernest; Pisano, David G.; Sozzi, Gabriella; Felip, Enriqueta; Montuenga, Luis M.; Roz, Luca; Villanueva, Alberto; Sanchez-Cespedes, Montse

doi:10.1158/1078-0432.ccr-16-1946-t

Cited by 56 publications

(37 citation statements)

References 38 publications

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“…1F) has one of the most negative hazard coefficients, likely reflecting its role in MHC class I antigen presentation of neoantigens to CD8 þ T cells and consistent with reports of this process for immune control of tumors (54). Further, a truncation mutant of B2M can confer resistance to PD-1 blockade in melanoma (55), and mutations in B2M have been shown to disrupt immune surveillance in lung cancer (56). The large negative hazard coefficient associated with HAPLN3, encoding a hyaluronan and proteoglycan link protein, suggests that this gene may warrant further investigation in the context of immune recognition and targeting.…”

Section: Cutaneous Melanoma Is Associated With a Strong Immunogenic Rsupporting

confidence: 79%

A Gene Signature Predicting Natural Killer Cell Infiltration and Improved Survival in Melanoma Patients

Cursons

Souza-Fonseca-Guimarães

Foroutan

et al. 2019

Cancer Immunology Research

224

193

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Natural killer (NK) cell activity is essential for initiating antitumor responses and may be linked to immunotherapy success. NK cells and other innate immune components could be exploitable for cancer treatment, which drives the need for tools and methods that identify therapeutic avenues. Here, we extend our gene-set scoring method singscore to investigate NK cell infiltration by applying RNA-seq analysis to samples from bulk tumors. Computational methods have been developed for the deconvolution of immune cell types within solid tumors. We have taken the NK cell gene signatures from several such tools, then curated the gene list using a comparative analysis of tumors and immune cell types. Using a gene-set scoring method to investigate RNA-seq data from The Cancer Genome Atlas (TCGA), we show that patients with metastatic cutaneous melanoma have an improved survival rate if their tumor shows evidence of NK cell infiltration. Furthermore, these survival effects are enhanced in tumors that show higher expression of genes that encode NK cell stimuli such as the cytokine IL15. Using this signature, we then examine transcriptomic data to identify tumor and stromal components that may influence the penetrance of NK cells into solid tumors. Our results provide evidence that NK cells play a role in the regulation of human tumors and highlight potential survival effects associated with increased NK cell activity. Our computational analysis identifies putative gene targets that may be of therapeutic value for boosting NK cell antitumor immunity.

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Section: Cutaneous Melanoma Is Associated With a Strong Immunogenic Rsupporting

confidence: 79%

A Gene Signature Predicting Natural Killer Cell Infiltration and Improved Survival in Melanoma Patients

Cursons

Souza-Fonseca-Guimarães

Foroutan

et al. 2019

Cancer Immunology Research

224

193

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“…References concerning the antibodies and scoring systems used, as well as the details and concentrations of the various treatments are presented in Supplementary Table S2. Western blots and immunohistochemistry were performed using previously described protocols (4). We used previously described criteria to determine B2M, HLA-I, and PD-L1 levels by immunohistochemistry (4).…”

Section: Antibodies Western Blots and Immunostainingsmentioning

confidence: 99%

“…These include defects in tumor immunorecognition, such as downregulation of the HLA-I complex due to gene alterations of its components (either B2M or HLA-A) or at molecules involved in its maturation process (e.g., CALR, TAP1/2, and TAPBP; refs. [2][3][4]. An abnormal increase in the expression of negative controllers of the immune response, such as constitutively high levels of programmed death ligand-1 (PD-L1) expression, also contributes to immune tolerance (1).…”

Section: Introductionmentioning

confidence: 99%

“…This clinical benefit makes it crucial to identify factors that determine the sensitivity or refractoriness to immune checkpoint inhibitors (ICI). Several functionally interrelated tumor biomarkers have been proposed as predictors of the response to ICIs, including high tumor mutational load, DNA mismatch repair deficiency, strong intratumoral T-cell infiltration, and a high level expression of PD-L1 and of the HLA-I-class complex (4,(6)(7)(8)(9). In addition, inactivating mutations of JAK2 in melanoma, involved in IFNg signaling, and of B2M in melanoma and in lung cancer, account for primary and acquired resistance to these treatments (4,10,11).…”

Section: Introductionmentioning

confidence: 99%

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MET-Oncogenic and JAK2-Inactivating Alterations Are Independent Factors That Affect Regulation of PD-L1 Expression in Lung Cancer

Saigí

Alburquerque-Béjar

Leer-Florin

et al. 2018

Clinical Cancer Research

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The blockade of immune checkpoints such as PD-L1 and PD-1 is being exploited therapeutically in several types of malignancies. Here, we aimed to understand the contribution of the genetics of lung cancer to the ability of tumor cells to escape immunosurveillance checkpoints. More than 150 primary non-small cell lung cancers, including pulmonary sarcomatoid carcinomas, were tested for levels of the HLA-I complex, PD-L1, tumor-infiltrating CD8 lymphocytes, and alterations in main lung cancer genes. Correlations were validated in cancer cell lines using appropriate treatments to activate or inhibit selected pathways. We also performed RNA sequencing to assess changes in gene expression after these treatments.-oncogenic activation tended to associate with positive PD-L1 immunostaining, whereas mutations were correlated with negative immunostaining. In-altered cancer cells, MET triggered a transcriptional increase of PD-L1 that was independent of the IFNγ-mediated JAK/STAT pathway. The activation of MET also upregulated other immunosuppressive genes ( and ) and transcripts involved in angiogenesis ( and ) and in cell proliferation. We also report recurrent inactivating mutations in that co-occur with alterations in and which prevented the induction of immunoresponse-related genes following treatment with IFNγ. We show that MET activation promotes the expression of several negative checkpoint regulators of the immunoresponse, including PD-L1. In addition, we report inactivation of in lung cancer cells that prevented the response to IFNγ. These alterations are likely to facilitate tumor growth by enabling immune tolerance and may affect the response to immune checkpoint inhibitors..

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“…A late relapse patient with metastatic melanoma resistant to CTLA-4 inhibition was found to have biallelic loss of b-2-microglobulin [29,110] . Zaretsky et al [29] also identified a patient with homozygous frameshift deletions of b-2-microglobulin that had developed resistance to PD-1 blockade [28][29][30]192] . Five patients treated with immunotherapy were found to have reduced MHC expression and were not recognized by effector T cells due to loss of b-2-microglobulin expression.…”

Section: Mechanisms Of Secondary Resistancementioning

confidence: 99%

Resistance mechanisms in melanoma to immuneoncologic therapy with checkpoint inhibitors

Fenton¹,

Sosman²,

Chandra³

2019

CDR

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Checkpoint inhibitors act by blocking physiologic mechanisms coopted by tumor cells to evade immune surveillance, restoring the immune system's ability to identify and kill malignant cells. These therapies have dramatically improved outcomes in multiple tumor types with durable responses in many patients, leading to FDA approval first in advanced melanoma, then in many other malignancies. However, as experience with checkpoint inhibitors has grown, populations of patients who are primary nonresponders or develop secondary resistance have been the majority of cases, even in melanoma. Mechanisms of resistance include those inherent to the tumor microenvironment, the tumor cells themselves, and the function of the patient's native immune cells. This review will discuss resistance to checkpoint inhibitors in melanoma as well as possible methods to restore sensitivity.

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Genomic Profiling of Patient-Derived Xenografts for Lung Cancer Identifies B2M Inactivation Impairing Immunorecognition

Cited by 56 publications

References 38 publications

A Gene Signature Predicting Natural Killer Cell Infiltration and Improved Survival in Melanoma Patients

A Gene Signature Predicting Natural Killer Cell Infiltration and Improved Survival in Melanoma Patients

MET-Oncogenic and JAK2-Inactivating Alterations Are Independent Factors That Affect Regulation of PD-L1 Expression in Lung Cancer

Resistance mechanisms in melanoma to immuneoncologic therapy with checkpoint inhibitors

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