<scp>UV</scp>‐induced somatic mutations elicit a functional T cell response in the <scp>YUMMER</scp>1.7 mouse melanoma model

Wang, Jake; Perry, Curtis J.; Meeth, Katrina; Thakral, Durga; Damsky, William; Micevic, Goran; Kaech, Susan M.; Blenman, Kim; Bosenberg, Marcus W.

doi:10.1111/pcmr.12591

Cited by 153 publications

(213 citation statements)

References 26 publications

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“…Human melanoma has one of the highest mutational burdens of any tumor type 30 . Yet, tumors arising in most melanoma GEMMs, including our unirradiated TN and TB mice, are largely characterized by CNAs rather than SNVs 6,14,[24][25][26] . Here we find that a single UVB exposure can resolve this conundrum and effectively recapitulate the high burden of SNVs in human melanoma.…”

Section: Discussionmentioning

confidence: 99%

“…In contrast to human melanomas, GEMM-derived tumors are frequently characterized by a high burden of genomic copy number alterations (CNAs) and few single nucleotide variants (SNVs) 6,14,[24][25][26] . Thus, we used whole exome sequencing (WES) to determine whether a single UVA or UVB exposure would promote the formation of murine melanomas with 'humanized' cancer genomes containing a high frequency of SNVs.…”

Section: Uvb Exposure Humanizes the Genome Of Tn And Tb Melanomasmentioning

confidence: 99%

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UVB mutagenesis differs in NRAS- and BRAF-mutant mouse models of melanoma

Bowman

Hennessey

Tallman

et al. 2019

Preprint

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It is difficult to discern the relative contributions of ultraviolet-A (UVA; 320-400nm) and ultraviolet-B (UVB; 280-320nm) radiation to human melanoma development. Here, we compared the tumorigenic consequences of a single UVA or UVB exposure in mouse models predisposed to Braf- or Nras-mutant melanoma. Exposures approximated the amount of UVA or UVB energy contained in ∼40 minutes of summer sunlight. While UVA accelerated melanoma onset in a subset of mice, UVB universally reduced tumor latency and induced gene mutations relevant to the human disease. Genomic analyses uncovered distinct mutational signatures specific to each UV spectrum. The UVB-specific signature was biased for mutations on the untranscribed DNA strand and closely mirrored mutational signatures enriched in human cutaneous melanoma. The UVA-specific signature mimicked SBS51, a mutational signature found in human uveal melanoma. Distinctions in the trinucleotide patterns of the UVA and UVB signatures suggest that cytosine deamination plays a key role in UVB-mediated melanomagenesis.

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Section: Discussionmentioning

confidence: 99%

Section: Uvb Exposure Humanizes the Genome Of Tn And Tb Melanomasmentioning

confidence: 99%

UVB mutagenesis differs in NRAS- and BRAF-mutant mouse models of melanoma

Bowman

Hennessey

Tallman

et al. 2019

Preprint

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“…This strain can develop tumor immunity upon the inoculation of a small amount of human melanoma cell lines. 7 This finding suggests that T-cell response against melanocyte-specific antigens can be induced, which is relevant to the current study.…”

mentioning

confidence: 53%

“…The background of mice employed in this study is C57BL/6J, which are widely used for in vivo experiments including melanoma immunotherapy. This strain can develop tumor immunity upon the inoculation of a small amount of human melanoma cell lines . This finding suggests that T‐cell response against melanocyte‐specific antigens can be induced, which is relevant to the current study.…”

mentioning

confidence: 57%

Janus kinase inhibitor tofacitinib does not facilitate the repigmentation in mouse model of rhododendrol‐induced vitiligo

Hayashi

Okamura

Abe

et al. 2019

The Journal of Dermatology

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“…Although wildtype mice rarely develop melanomas, they have been genetically engineered with oncogenic drivers to successfully provoke melanomagenesis [23][24][25][26][27] .Nevertheless, the creation of reliable melanoma models is handicapped by the inherent differences between mouse and human skin architecture and the complexity and heterogeneity of the human disease. Moreover, the majority of genetically engineered mouse (GEM) models fail to incorporate appropriate exposure to ultraviolet (UV) radiation, known to be the major etiological melanoma risk factor and speculated to enhance susceptibility to immunotherapy 28,29 , likely contributing to the low mutation burden and poor immunogenicity that characterize most models [30][31][32]33 . These differences likely compromise the relevance and validity of current preclinical mouse studies.We have reported that constitutive activation of the receptor tyrosine kinase MET in hepatocyte growth factor transgenic mice (HGF tg ) leads to the human-like localization of melanocytes within or near the epidermis, which are then susceptible to melanoma induction by a single burning dose of neonatal UV radiation 34,35 .…”

mentioning

confidence: 99%

Multi-model preclinical platform predicts clinical response of melanoma to immunotherapy

Pérez-Guijarro¹,

Yang²,

Araya

et al. 2019

Preprint

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and gmerlino@helix.nih.gov # Lead Contact Although immunotherapy has revolutionized cancer treatment, only a subset of patients demonstrates durable clinical benefit. Definitive predictive biomarkers and targets to overcome resistance remain unidentified, underscoring the urgency to develop reliable immunocompetent models for mechanistic assessment. Here we characterize a panel of syngeneic mouse models representing the main molecular and phenotypic subtypes of human melanomas and exhibiting their range of responses to immune checkpoint blockade (ICB). Comparative analysis of genomic, transcriptomic and tumor-infiltrating immune cell profiles demonstrated alignment with clinical observations and validated the correlation of T cell dysfunction and exclusion programs with resistance. Notably, genome-wide expression analysis uncovered a melanocytic plasticity signature predictive of patient outcome in response to ICB, suggesting that the multipotency and differentiation status of melanoma can determine ICB benefit. Our comparative preclinical platform recapitulates melanoma clinical behavior and can be employed to identify new mechanisms and treatment strategies to improve patient care.Immune checkpoint blockade (ICB) has become the first-line treatment for metastatic melanoma, the deadliest skin cancer. Antibodies inhibiting CTLA-4 and PD-1/PD-L1 signaling pathways have been approved, as monotherapies or in combination, for more than ten cancer types in this decade due to their significant improvement of patient survival 1 . Yet, even in melanoma, the "poster child" for ICB success, 2 response rates are insufficient and alternative strategies are being explored, including combinations with chemotherapy, radiotherapy, targeted therapy, and other immune checkpoint inhibitors 2 . Despite the intensive efforts to enhance ICB efficacy, understand mechanisms of sensitivity/resistance, and discover predictive biomarkers, the determinants of ICB response are still poorly understood. High mutation and neoantigen burden in pretreated tumors, increased T cell infiltrates and induction of inflammatory pathways during treatment, and antigen presentation alterations have shown correlation with clinical benefit 3-18 . Although the expression of specific pathways has been associated with ICB response in particular patient cohorts 7,18,19 , uncovering broad predictive signatures based on gene expression profiles has been elusive due to difficulties in collecting high quality transcriptomic data from clinical sets.Recently, independent computational predictors were developed based on immune-related gene expression profiles, such as immune checkpoints, co-stimulatory molecules and T cell dysfunction and exclusion markers [20][21][22] . However, the utility of these approaches for patient stratification will require further validation.Mouse models have historically served as essential tools for plumbing mechanisms underlying tumor initiation, progression and drug response, and have enormous potential. However, their value for informin...

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UV‐induced somatic mutations elicit a functional T cell response in the YUMMER1.7 mouse melanoma model

Cited by 153 publications

References 26 publications

UVB mutagenesis differs in NRAS- and BRAF-mutant mouse models of melanoma

UVB mutagenesis differs in NRAS- and BRAF-mutant mouse models of melanoma

Janus kinase inhibitor tofacitinib does not facilitate the repigmentation in mouse model of rhododendrol‐induced vitiligo

Multi-model preclinical platform predicts clinical response of melanoma to immunotherapy

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