Detection of Cell Types Contributing to Cancer From Circulating, Cell-Free Methylated DNA

Barefoot, Megan E.; Loyfer, Netanel; Kiliti, Amber J.; McDeed, A. Patrick; Kaplan, Tommy; Wellstein, Anton

doi:10.3389/fgene.2021.671057

Cited by 26 publications

(29 citation statements)

References 106 publications

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“…Matching the epigenetic footprint of these ctDNA fragments against reference databases would enable the molecular classification of cancers of unknown origin. In line with these data, the stability of DNA methylation and the presence of cell-specific methylation patterns can also contribute to the identification of tumor origin or even the detection of metastasis through cfDNA analysis ( 55 ). Specifically, the analysis of differentially methylated regions in colon and liver tissues enabled the differentiation of patients with liver or colon cancer but also, the discrimination between colon cancer patients with and without liver metastasis ( 56 ).…”

Section: Ctdna: Characteristics and Mechanisms Of Releasementioning

confidence: 92%

Circulating Tumor DNA as a Cancer Biomarker: An Overview of Biological Features and Factors That may Impact on ctDNA Analysis

et al. 2022

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Cancer cells release nucleic acids, freely or associated with other structures such as vesicles into body fluids, including blood. Among these nucleic acids, circulating tumor DNA (ctDNA) has emerged as a minimally invasive biomarker for tumor molecular profiling. However, certain biological characteristics of ctDNA are still unknown. Here, we provide an overview of the current knowledge about ctDNA biological features, including size and structure as well as the mechanisms of ctDNA shedding and clearance, and the physio-pathological factors that determine ctDNA levels. A better understanding of ctDNA biology is essential for the development of new methods that enable the analysis of ctDNA.

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Section: Ctdna: Characteristics and Mechanisms Of Releasementioning

confidence: 92%

Circulating Tumor DNA as a Cancer Biomarker: An Overview of Biological Features and Factors That may Impact on ctDNA Analysis

et al. 2022

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“…For these algorithms to perform well, high quality methylation atlases [ 32 , 34 ] based on samples comprising of preferably one cell type are required to select appropriate markers/loci that are robust enough to differentiate between distinct cell types in a mixture of unknown cell types. There is currently a trend towards broader sequencing techniques called ‘third generation liquid biopsy’ [ 87 , 88 ]. Techniques such as WGBS lead to higher sensitivity by using many markers—also called “features”.…”

Section: Epigenetic-based Biomarkers In Liquid Biopsymentioning

confidence: 99%

Tracing the Origin of Cell-Free DNA Molecules through Tissue-Specific Epigenetic Signatures

et al. 2022

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All cell and tissue types constantly release DNA fragments into human body fluids by various mechanisms including programmed cell death, accidental cell degradation and active extrusion. Particularly, cell-free DNA (cfDNA) in plasma or serum has been utilized for minimally invasive molecular diagnostics. Disease onset or pathological conditions that lead to increased cell death alter the contribution of different tissues to the total pool of cfDNA. Because cfDNA molecules retain cell-type specific epigenetic features, it is possible to infer tissue-of-origin from epigenetic characteristics. Recent research efforts demonstrated that analysis of, e.g. methylation patterns, nucleosome occupancy, and fragmentomics determined the cell- or tissue-of-origin of individual cfDNA molecules. This novel tissue-of origin-analysis enables to estimate the contributions of different tissues to the total cfDNA pool in body fluids and find tissues with increased cell death (pathologic condition), expanding the portfolio of liquid biopsies towards a wide range of pathologies and early diagnosis. In this review, we summarize the currently available tissue-of-origin approaches and point out the next steps towards clinical implementation.

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“…However, currently approved ctDNA CGP assays would not be able to identify the origin of the mutations (inter-or intratumoral heterogeneity) without previous knowledge of the tumor genomic profile. Future studies exploring the use of methylation and fragmentomic features of cfDNA may help identify their cellular origins [148,149]. The shorter TAT of cfDNA-based CGP also suggests that liquid biopsy would be more beneficial than tissue profiling for aggressive and fast progression cancers, allowing earlier treatment commencement [144].…”

Section: Availability Of Excision Tumor Tissue Quality and Quantity O...mentioning

confidence: 99%

Circulating Tumor DNA-Based Genomic Profiling Assays in Adult Solid Tumors for Precision Oncology: Recent Advancements and Future Challenges

Chan

Chin

Low

2022

Cancers

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Genomic profiling using tumor biopsies remains the standard approach for the selection of approved molecular targeted therapies. However, this is often limited by its invasiveness, feasibility, and poor sample quality. Liquid biopsies provide a less invasive approach while capturing a contemporaneous and comprehensive tumor genomic profile. Recent advancements in the detection of circulating tumor DNA (ctDNA) from plasma samples at satisfactory sensitivity, specificity, and detection concordance to tumor tissues have facilitated the approval of ctDNA-based genomic profiling to be integrated into regular clinical practice. The recent approval of both single-gene and multigene assays to detect genetic biomarkers from plasma cell-free DNA (cfDNA) as companion diagnostic tools for molecular targeted therapies has transformed the therapeutic decision-making procedure for advanced solid tumors. Despite the increasing use of cfDNA-based molecular profiling, there is an ongoing debate about a ‘plasma first’ or ‘tissue first’ approach toward genomic testing for advanced solid malignancies. Both approaches present possible advantages and disadvantages, and these factors should be carefully considered to personalize and select the most appropriate genomic assay. This review focuses on the recent advancements of cfDNA-based genomic profiling assays in advanced solid tumors while highlighting the major challenges that should be tackled to formulate evidence-based guidelines in recommending the ‘right assay for the right patient at the right time’.

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Detection of Cell Types Contributing to Cancer From Circulating, Cell-Free Methylated DNA

Cited by 26 publications

References 106 publications

Circulating Tumor DNA as a Cancer Biomarker: An Overview of Biological Features and Factors That may Impact on ctDNA Analysis

Circulating Tumor DNA as a Cancer Biomarker: An Overview of Biological Features and Factors That may Impact on ctDNA Analysis

Tracing the Origin of Cell-Free DNA Molecules through Tissue-Specific Epigenetic Signatures

Circulating Tumor DNA-Based Genomic Profiling Assays in Adult Solid Tumors for Precision Oncology: Recent Advancements and Future Challenges

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