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MIMESIS: minimal DNA-methylation signatures to quantify and classify tumor signals in tissue and cell-free DNA samples

Authors :
Dario Romagnoli
Agostina Nardone
Francesca Galardi
Marta Paoli
Francesca De Luca
Chiara Biagioni
Gian Marco Franceschini
Marta Pestrin
Giuseppina Sanna
Erica Moretti
Francesca Demichelis
Ilenia Migliaccio
Laura Biganzoli
Luca Malorni
Matteo Benelli
Source :
Briefings in Bioinformatics. 24
Publication Year :
2023
Publisher :
Oxford University Press (OUP), 2023.

Abstract

DNA-methylation alterations are common in cancer and display unique characteristics that make them ideal markers for tumor quantification and classification. Here we present MIMESIS, a computational framework exploiting minimal DNA-methylation signatures composed by a few dozen informative DNA-methylation sites to quantify and classify tumor signals in tissue and cell-free DNA samples. Extensive analyses of multiple independent and heterogenous datasets including >7200 samples demonstrate the capability of MIMESIS to provide precise estimations of tumor content and to enable accurate classification of tumor type and molecular subtype. To assess our framework for clinical applications, we designed a MIMESIS-informed assay incorporating the minimal signatures for breast cancer. Using both artificial samples and clinical serial cell-free DNA samples from patients with metastatic breast cancer, we show that our approach provides accurate estimations of tumor content, sensitive detection of tumor signal and the ability to capture clinically relevant molecular subtype in patients’ circulation. This study provides evidence that our extremely parsimonious approach can be used to develop cost-effective and highly scalable DNA-methylation assays that could support and facilitate the implementation of precision oncology in clinical practice.

Details

ISSN :
14774054 and 14675463
Volume :
24
Database :
OpenAIRE
Journal :
Briefings in Bioinformatics
Accession number :
edsair.doi...........22c717fae5b69b7fb2851481a01f003b