Cutaneous squamous cell cancer (cSCC) risk and the human leukocyte antigen (HLA) system

Yesantharao, Pooja; Wang, Wei; Ioannidis, Nilah M.; Demehri, Shadmehr; Whittemore, Alice S.; Asgari, Maryam M.

doi:10.1016/j.humimm.2017.02.002

Cited by 32 publications

(32 citation statements)

References 70 publications

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“…We conducted a two-phase discovery and validation study to test for gene expression level associations with cSCC case/control status, using the Kaiser GERA cohort for discovery and the 23andMe research participant dataset for validation, and using prediXcan tissue-specific gene expression imputation models trained on GTEx expression data. Because of previous evidence that TWAS associations in non-disease-relevant tissues are often non-causal 16 , we limited our analysis to four disease-relevant tissue types: the two types of skin tissue available in GTEx (sun-exposed lower leg skin and non-sun-exposed suprapubic skin), as well as whole blood and lymphocyte cell lines (LCLs) based on evidence of immune involvement in cSCC risk 17 , 18 . Note that the skin tissue expression training data come from bulk skin tissue and are not broken down into specific cell types, such as keratinocytes.…”

Section: Resultsmentioning

confidence: 99%

Gene expression imputation identifies candidate genes and susceptibility loci associated with cutaneous squamous cell carcinoma

et al. 2018

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Cutaneous squamous cell carcinoma (cSCC) is a common skin cancer with genetic susceptibility loci identified in recent genome-wide association studies (GWAS). Transcriptome-wide association studies (TWAS) using imputed gene expression levels can identify additional gene-level associations. Here we impute gene expression levels in 6891 cSCC cases and 54,566 controls in the Kaiser Permanente Genetic Epidemiology Research in Adult Health and Aging (GERA) cohort and 25,558 self-reported cSCC cases and 673,788 controls from 23andMe. In a discovery-validation study, we identify 19 loci containing 33 genes whose imputed expression levels are associated with cSCC at false discovery rate < 10% in the GERA cohort and validate 15 of these candidate genes at Bonferroni significance in the 23andMe dataset, including eight genes in five novel susceptibility loci and seven genes in four previously associated loci. These results suggest genetic mechanisms contributing to cSCC risk and illustrate advantages and disadvantages of TWAS as a supplement to traditional GWAS analyses.

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Section: Resultsmentioning

confidence: 99%

Gene expression imputation identifies candidate genes and susceptibility loci associated with cutaneous squamous cell carcinoma

et al. 2018

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“…HLA-DRB1 Ã 01 also correlated with increased BCC risk and early tumor development in renal transplant recipients (84). Among immunosuppressed patients, class-I antigens HLA-A03, HLA-A11, and HLA-B27 and class-II antigens, HLA-DRB1 Ã 07 and HLA-DQA1 Ã 01 correlated with increased risk cSCC (80). GWAS analyses revealed higher cSCC risk in association with DRB1 Ã 01, DQA1 Ã 05:01, and DQA1 Ã 05:05 (85), in addition to variants in HLA-DQB1 (72), HLA-DQA1 (71), HLA-DRB1 (85), and HLA-DQA1 (85).…”

Section: Germline Genetic Risk Factors and Risk Modelsmentioning

confidence: 96%

“…Associations between aberrant human leukocyte antigen (HLA) expression (75,76), or germline class-I and II allelic variations and keratinocyte carcinoma have been controversial (77)(78)(79)(80) and are affected by high UV exposure (81), immunosuppression (82), and HPV infection (83). Multiple variants in HLA-DRB1 ( Ã 01, Ã 07) have shown increased risk for BCC while HLA-DRB1 Ã 04 was protective (82).…”

Section: Germline Genetic Risk Factors and Risk Modelsmentioning

confidence: 99%

Keratinocyte Carcinomas: Current Concepts and Future Research Priorities

Nagarajan

Asgari

Green

et al. 2019

Clinical Cancer Research

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Cutaneous squamous cell carcinoma (cSCC) and basal cell carcinoma (BCC) are keratinocyte carcinomas, the most frequently diagnosed cancers in fair-skinned populations. Ultraviolet radiation (UVR) is the main driving carcinogen for these tumors, but immunosuppression, pigmentary factors, and aging are also risk factors. Scientific discoveries have improved the understanding of the role of human papillomaviruses (HPV) in cSCC as well as the skin microbiome and a compromised immune system in the development of both cSCC and BCC. Genomic analyses have uncovered genetic risk variants, high-risk susceptibility genes, and somatic events that underlie common pathways important in keratinocyte carcinoma tumorigenesis and tumor characteristics that have enabled development of prediction models for early identification of high-risk individuals. Advances in chemoprevention in high-risk individuals and progress in targeted and immune-based treatment approaches have the potential to decrease the morbidity and mortality associated with these tumors. As the incidence and prevalence of keratinocyte carcinoma continue to increase, strategies for prevention, including effective sun-protective behavior, educational interventions, and reduction of tanning bed access and usage, are essential. Gaps in our knowledge requiring additional research to reduce the high morbidity and costs associated with keratinocyte carcinoma include better understanding of factors leading to more aggressive tumors, the roles of microbiome and HPV infection, prediction of response to therapies including immune checkpoint blockade, and how to tailor both prevention and treatment to individual risk factors and needs.

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“…Genome-wide association studies have highlighted single nucleotide polymorphisms associated with cSCC risk, including MC1R, ASIP, TYR, SLC45A2, OCA2, IRF4, BNC2, the metastasis suppressor gene CADM1, AHR, a transcription factor that regulates cell proliferation, and SEC16A involved in secretion and cellular proliferation [78e81]. Microenvironment is implicated in cSCC, with a role for human leukocyte antigen (HLA) variants [82] and the programmed cell death protein 1/programmed cell death ligand-1 (PD-1/PD-L1) axis. PD-L1 expression was detected in around 26% of primary cSCC [83e85] and up to 50% of metastatic lesions [84,85] Hereditary syndromes that increase cSCC risk include xeroderma pigmentosum, epidermolysis bullosa, oculocutaneous albinism and Fanconi anaemia and Lynch syndrome/Muir Torre syndrome [7].…”

Section: Molecular Pathogenesismentioning

confidence: 99%

European interdisciplinary guideline on invasive squamous cell carcinoma of the skin: Part 1. epidemiology, diagnostics and prevention

Stratigos

Garbe²,

Dessinioti

et al. 2020

European Journal of Cancer

150

233

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Cutaneous squamous cell cancer (cSCC) risk and the human leukocyte antigen (HLA) system

Cited by 32 publications

References 70 publications

Gene expression imputation identifies candidate genes and susceptibility loci associated with cutaneous squamous cell carcinoma

Gene expression imputation identifies candidate genes and susceptibility loci associated with cutaneous squamous cell carcinoma

Keratinocyte Carcinomas: Current Concepts and Future Research Priorities

European interdisciplinary guideline on invasive squamous cell carcinoma of the skin: Part 1. epidemiology, diagnostics and prevention

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