Comparison of Global DNA Methylation Patterns in Human Melanoma Tissues and Their Derivative Cell Lines

Rodger, Euan J.; Almomani, Suzan N.; Ludgate, Jackie L.; Stockwell, Peter A.; Baguley, Bruce C.; Eccles, Michael R.; Chatterjee, Aniruddha

doi:10.3390/cancers13092123

Cited by 16 publications

(10 citation statements)

References 77 publications

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“…Immortalized cell lines are widely used as an experimental model for the fundamental investigation of tumor cell biology. DNA methylation status has been demonstrated to be well conserved between tumor tissue samples and derivative cell lines; therefore, cell lines provide an effective in vitro model for studying epigenetic alterations in cancer cells [ 4 , 20 , 21 ]. Our editing system comprises three main components: a dCas9-SunTag targeting protein; locus-specific guide RNA (gRNA; sgRNA) construct; and an effector construct for manipulating DNA methylation ( Figure 1 ).…”

Section: Introductionmentioning

confidence: 99%

Locus-Specific DNA Methylation Editing in Melanoma Cell Lines Using a CRISPR-Based System

Smith

Banerjee

Waly

et al. 2021

Cancers

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DNA methylation is a key epigenetic modification implicated in the pathogenesis of numerous human diseases, including cancer development and metastasis. Gene promoter methylation changes are widely associated with transcriptional deregulation and disease progression. The advent of CRISPR-based technologies has provided a powerful toolkit for locus-specific manipulation of the epigenome. Here, we describe a comprehensive global workflow for the design and application of a dCas9-SunTag-based tool for editing the DNA methylation locus in human melanoma cells alongside protocols for downstream techniques used to evaluate subsequent methylation and gene expression changes in methylation-edited cells. Using transient system delivery, we demonstrate both highly efficacious methylation and demethylation of the EBF3 promoter, which is a putative epigenetic driver of melanoma metastasis, achieving up to a 304.00% gain of methylation and 99.99% relative demethylation, respectively. Furthermore, we employ a novel, targeted screening approach to confirm the minimal off-target activity and high on-target specificity of our designed guide RNA within our target locus.

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Section: Introductionmentioning

confidence: 99%

Locus-Specific DNA Methylation Editing in Melanoma Cell Lines Using a CRISPR-Based System

Smith

Banerjee

Waly

et al. 2021

Cancers

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“…We found that overall breast cancer cell lines showed more aberrant DNAm (high DMI) than patient tumors (Supplementary Figure S4E,F). Higher DMI in cell lines in part maybe driven by culture condition induced epigenetic changes 86,87 .…”

Section: Resultsmentioning

confidence: 99%

Multi-omic characterization of ILC and ILC-like cell lines as part of ILC cell line encyclopedia (ICLE) defines new models to study potential biomarkers and explore therapeutic opportunities

Shah,

Chen,

Wedn

et al. 2023

Preprint

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Invasive lobular carcinoma (ILC), the most common histological “special type” of breast cancer, accounts for ∼10-15% of all breast cancer diagnoses and is characterized by unique clinical features and metastatic spread. Despite the unique pathobiology of ILC, studies of how its molecular alterations can be linked to new treatments have been hindered by the scarcity of well-characterized cell line models. To address this, we generated the ILC Cell Line Encyclopedia (ICLE), a comprehensive multi-omic characterization of cell lines derived from ILC or cell lines referred to as ILC-like derived from unannotated tumors with features of ILC such as loss of E-cadherin. Using consensus multi-omic subtyping, we confirmed the luminal status of previously established ILC cell lines and uncovered additional ILC/ILC-like cell lines with luminal features and RNA/DNA copy number similarity to ILC tumors. ICLE cell lines retained molecular alterations in key ILC genes at a similar frequency to both primary and metastatic ILC tumors. Importantly, ICLE cell lines recapitulated theCDH1alteration landscape of ILC tumors including enrichment of truncating mutations and biallelic inactivation ofCDH1. Optical genome mapping uncovered novel genomic rearrangements including structural variations inCDH1and other functional gene fusions and revealed breast cancer specific patterns of chromothripsis in chromosomes 8, 11 and 17. Aberrant DNAm events and integrative analysis with RNA expression revealed epigenetic activation ofTFAP2B, an emerging biomarker preferentially expressed in lobular disease. Finally, towards the goal of identifying novel druggable vulnerabilities in ILC, publicly available RNAi loss of function breast cancer cell line datasets revealed numerous putative vulnerabilities cytoskeletal components, focal adhesion and PI3K/AKT pathway in ICLE vs NST cell lines. We addressed the lack of suitable models to study E-cadherin deficient breast cancers by comprehensively characterizing multi-omic features of both established and putative ILC models and showed their similarity to tumors and highlighting novel druggable vulnerabilities.

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“…In addition, melanoma tissue specimens, a diversity of patient treatment procedures could contribute to the heterogeneous molecular alterations observed in different studies. Moreover, adjacent tissue and lymphocyte infiltrates can influence the results of studies using tissue biopsies [ 11 , 12 ].…”

Section: Discussionmentioning

confidence: 99%

Genome-wide promoter methylation profiling in a cellular model of melanoma progression reveals markers of malignancy and metastasis that predict melanoma survival

et al. 2022

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The epigenetic changes associated with melanoma progression to advanced and metastatic stages are still poorly understood. To shed light on the CpG methylation dynamics during melanoma development, we analyzed the methylome profiles of a four-stage cell line model of melanoma progression: non-tumorigenic melanocytes (melan-a), premalignant melanocytes (4C), non-metastatic melanoma cells (4C11−), and metastatic melanoma cells (4C11+). We identified 540 hypo- and 37 hypermethylated gene promoters that together characterized a malignancy signature, and 646 hypo- and 520 hypermethylated promoters that distinguished a metastasis signature. Differentially methylated genes from these signatures were correlated with overall survival using TCGA-SKCM methylation data. Moreover, multivariate Cox analyses with LASSO regularization identified panels of 33 and 31 CpGs, respectively, from the malignancy and metastasis signatures that predicted poor survival. We found a concordant relationship between DNA methylation and transcriptional levels for genes from the malignancy (Pyroxd2 and Ptgfrn) and metastasis (Arnt2, Igfbp4 and Ptprf) signatures, which were both also correlated with melanoma prognosis. Altogether, this study reveals novel CpGs methylation markers associated with malignancy and metastasis that collectively could improve the survival prediction of melanoma patients.

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Comparison of Global DNA Methylation Patterns in Human Melanoma Tissues and Their Derivative Cell Lines

Cited by 16 publications

References 77 publications

Locus-Specific DNA Methylation Editing in Melanoma Cell Lines Using a CRISPR-Based System

Locus-Specific DNA Methylation Editing in Melanoma Cell Lines Using a CRISPR-Based System

Multi-omic characterization of ILC and ILC-like cell lines as part of ILC cell line encyclopedia (ICLE) defines new models to study potential biomarkers and explore therapeutic opportunities

Genome-wide promoter methylation profiling in a cellular model of melanoma progression reveals markers of malignancy and metastasis that predict melanoma survival

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