Standardization of the liquid biopsy for pediatric diffuse midline glioma using ddPCR

Standardization of the liquid biopsy for pediatric diffuse midline glioma using ddPCR

Abstract Diffuse midline glioma (DMG) is a highly morbid pediatric brain tumor. Up to 80% of DMGs harbor mutations in histone H3-encoding genes, associated with poor prognosis. We previously showed the feasibility of detecting H3 mutations in circulating tumor DNA (ctDNA) in the liquid biome of chil...

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Main Authors: Daphne Li, Erin R. Bonner, Kyle Wierzbicki, Eshini Panditharatna, Tina Huang, Rishi Lulla, Sabine Mueller, Carl Koschmann, Javad Nazarian, Amanda M. Saratsis
Format: Article
Language:English
Published: Nature Publishing Group 2021-03-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-84513-1
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spelling doaj-ae3730eeab0b412cb0317c84f02170192021-03-11T12:13:24ZengNature Publishing GroupScientific Reports2045-23222021-03-0111111010.1038/s41598-021-84513-1Standardization of the liquid biopsy for pediatric diffuse midline glioma using ddPCRDaphne Li0Erin R. Bonner1Kyle Wierzbicki2Eshini Panditharatna3Tina Huang4Rishi Lulla5Sabine Mueller6Carl Koschmann7Javad Nazarian8Amanda M. Saratsis9Department of Neurological Surgery, Loyola University Medical CenterCenter for Genetic Medicine Research, Children’s National Medical CenterDepartment of Pediatric Hematology/Oncology, University of Michigan Medical CenterDepartment of Pediatric Oncology, Dana-Farber Cancer InstituteDepartment of Neurological Surgery, Northwestern University Feinberg School of MedicineDepartment of Pediatric Hematology/Oncology, Brown Alpert Medical SchoolDepartment of Neurology, University of California San FranciscoDepartment of Pediatric Hematology/Oncology, University of Michigan Medical CenterCenter for Genetic Medicine Research, Children’s National Medical CenterDepartment of Neurological Surgery, Northwestern University Feinberg School of MedicineAbstract Diffuse midline glioma (DMG) is a highly morbid pediatric brain tumor. Up to 80% of DMGs harbor mutations in histone H3-encoding genes, associated with poor prognosis. We previously showed the feasibility of detecting H3 mutations in circulating tumor DNA (ctDNA) in the liquid biome of children diagnosed with DMG. However, detection of low levels of ctDNA is highly dependent on platform sensitivity and sample type. To address this, we optimized ctDNA detection sensitivity and specificity across two commonly used digital droplet PCR (ddPCR) platforms (RainDance and BioRad), and validated methods for detecting H3F3A c.83A > T (H3.3K27M) mutations in DMG CSF, plasma, and primary tumor specimens across three different institutions. DNA was extracted from H3.3K27M mutant and H3 wildtype (H3WT) specimens, including H3.3K27M tumor tissue (n = 4), CSF (n = 6), plasma (n = 4), and human primary pediatric glioma cells (H3.3K27M, n = 2; H3WT, n = 1). ctDNA detection was enhanced via PCR pre-amplification and use of distinct custom primers and fluorescent LNA probes for c.83 A > T H3F3A mutation detection. Mutation allelic frequency (MAF) was determined and validated through parallel analysis of matched H3.3K27M tissue specimens (n = 3). We determined technical nuances between ddPCR instruments, and optimized sample preparation and sequencing protocols for H3.3K27M mutation detection and quantification. We observed 100% sensitivity and specificity for mutation detection in matched DMG tissue and CSF across assays, platforms and institutions. ctDNA is reliably and reproducibly detected in the liquid biome using ddPCR, representing a clinically feasible, reproducible, and minimally invasive approach for DMG diagnosis, molecular subtyping and therapeutic monitoring.https://doi.org/10.1038/s41598-021-84513-1
collection DOAJ
language English
format Article
sources DOAJ
author Daphne Li
Erin R. Bonner
Kyle Wierzbicki
Eshini Panditharatna
Tina Huang
Rishi Lulla
Sabine Mueller
Carl Koschmann
Javad Nazarian
Amanda M. Saratsis
spellingShingle Daphne Li
Erin R. Bonner
Kyle Wierzbicki
Eshini Panditharatna
Tina Huang
Rishi Lulla
Sabine Mueller
Carl Koschmann
Javad Nazarian
Amanda M. Saratsis
Standardization of the liquid biopsy for pediatric diffuse midline glioma using ddPCR
Scientific Reports
author_facet Daphne Li
Erin R. Bonner
Kyle Wierzbicki
Eshini Panditharatna
Tina Huang
Rishi Lulla
Sabine Mueller
Carl Koschmann
Javad Nazarian
Amanda M. Saratsis
author_sort Daphne Li
title Standardization of the liquid biopsy for pediatric diffuse midline glioma using ddPCR
title_short Standardization of the liquid biopsy for pediatric diffuse midline glioma using ddPCR
title_full Standardization of the liquid biopsy for pediatric diffuse midline glioma using ddPCR
title_fullStr Standardization of the liquid biopsy for pediatric diffuse midline glioma using ddPCR
title_full_unstemmed Standardization of the liquid biopsy for pediatric diffuse midline glioma using ddPCR
title_sort standardization of the liquid biopsy for pediatric diffuse midline glioma using ddpcr
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-03-01
description Abstract Diffuse midline glioma (DMG) is a highly morbid pediatric brain tumor. Up to 80% of DMGs harbor mutations in histone H3-encoding genes, associated with poor prognosis. We previously showed the feasibility of detecting H3 mutations in circulating tumor DNA (ctDNA) in the liquid biome of children diagnosed with DMG. However, detection of low levels of ctDNA is highly dependent on platform sensitivity and sample type. To address this, we optimized ctDNA detection sensitivity and specificity across two commonly used digital droplet PCR (ddPCR) platforms (RainDance and BioRad), and validated methods for detecting H3F3A c.83A > T (H3.3K27M) mutations in DMG CSF, plasma, and primary tumor specimens across three different institutions. DNA was extracted from H3.3K27M mutant and H3 wildtype (H3WT) specimens, including H3.3K27M tumor tissue (n = 4), CSF (n = 6), plasma (n = 4), and human primary pediatric glioma cells (H3.3K27M, n = 2; H3WT, n = 1). ctDNA detection was enhanced via PCR pre-amplification and use of distinct custom primers and fluorescent LNA probes for c.83 A > T H3F3A mutation detection. Mutation allelic frequency (MAF) was determined and validated through parallel analysis of matched H3.3K27M tissue specimens (n = 3). We determined technical nuances between ddPCR instruments, and optimized sample preparation and sequencing protocols for H3.3K27M mutation detection and quantification. We observed 100% sensitivity and specificity for mutation detection in matched DMG tissue and CSF across assays, platforms and institutions. ctDNA is reliably and reproducibly detected in the liquid biome using ddPCR, representing a clinically feasible, reproducible, and minimally invasive approach for DMG diagnosis, molecular subtyping and therapeutic monitoring.
url https://doi.org/10.1038/s41598-021-84513-1
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