High-sensitivity microsatellite instability assessment for the detection of mismatch repair defects in normal tissue of biallelic germline mismatch repair mutation carriers

Maribel González-Acosta; Fátima Marín; Benjamin Puliafito; Nuria Bonifaci; Anna Fernández; Matilde Navarro; Hector Salvador; Francesc Balaguer; Silvia Iglesias; Angela Velasco; Elia Grau Garces; Victor Moreno; Luis Ignacio Gonzalez-Granado; Pilar Guerra-García; Rosa Ayala; Benoît Florkin; Christian Kratz; Tim Ripperger; Thorsten Rosenbaum; Danuta Januszkiewicz-Lewandowska; Amedeo A. Azizi; Iman Ragab; Michaela Nathrath; Hans Jürgen Pander; Stephan Lobitz; Manon Suerink; Karin Dahan; Thomas Imschweiler; Ugur Demirsoy; Joan Brunet; Conxi Lázaro; Daniel Rueda; Katharina Wimmer; Gabriel Capellá; Marta Pineda

doi:10.1136/jmedgenet-2019-106272

High-sensitivity microsatellite instability assessment for the detection of mismatch repair defects in normal tissue of biallelic germline mismatch repair mutation carriers

Maribel González-Acosta
, Fátima Marín
, Benjamin Puliafito
, Nuria Bonifaci
, Anna Fernández
, Matilde Navarro
, Hector Salvador
, Francesc Balaguer
, Silvia Iglesias
, Angela Velasco
, Elia Grau Garces
, Victor Moreno
, Luis Ignacio Gonzalez-Granado
, Pilar Guerra-García
, Rosa Ayala
, Benoît Florkin
, Christian Kratz
, Tim Ripperger
, Thorsten Rosenbaum
, Danuta Januszkiewicz-Lewandowska

Amedeo A. Azizi, Iman Ragab, Michaela Nathrath, Hans Jürgen Pander, Stephan Lobitz, Manon Suerink, Karin Dahan, Thomas Imschweiler, Ugur Demirsoy, Joan Brunet, Conxi Lázaro, Daniel Rueda, Katharina Wimmer, Gabriel Capellá, Marta Pineda

Department of Pediatric Medicine

Instituto de Salud Carlos III
Sant Joan de Déu Hospital
Hospital Clinic Barcelona
IDIBGi
Hospital Universitari de Bellvitge
University of Barcelona
Hospital Universitario 12 de Octubre
CHR La Citadelle
Hannover Medical School
Sana
Poznan University of Medical Sciences
Universitätsklinik für Kinder- und Jugendheilkunde
Faculty of Medicine of the Ain Shams University
Klinikum Kassel GmbH
Olga Hospital
Kliniken der Stadt Köln gGmbH
Leiden University Medical Centre
Institut de Pathologie et de Génétique (IPG)
Helios Klinikum Krefeld
Kocaeli VS Kocaeli University
Medical University Innsbruck

Research output: Contribution to journal › Article › peer-review

31 Scopus citations

Abstract

Introduction Lynch syndrome (LS) and constitutional mismatch repair deficiency (CMMRD) are hereditary cancer syndromes associated with mismatch repair (MMR) deficiency. Tumours show microsatellite instability (MSI), also reported at low levels in non-neoplastic tissues. Our aim was to evaluate the performance of high-sensitivity MSI (hs-MSI) assessment for the identification of LS and CMMRD in non-neoplastic tissues. Materials and methods Blood DNA samples from 131 individuals were grouped into three cohorts: baseline (22 controls), training (11 CMMRD, 48 LS and 15 controls) and validation (18 CMMRD and 18 controls). Custom next generation sequencing panel and bioinformatics pipeline were used to detect insertions and deletions in microsatellite markers. An hs-MSI score was calculated representing the percentage of unstable markers. Results The hs-MSI score was significantly higher in CMMRD blood samples when compared with controls in the training cohort (p<0.001). This finding was confirmed in the validation set, reaching 100% specificity and sensitivity. Higher hs-MSI scores were detected in biallelic MSH2 carriers (n=5) compared with MSH6 carriers (n=15). The hs-MSI analysis did not detect a difference between LS and control blood samples (p=0.564). Conclusions The hs-MSI approach is a valuable tool for CMMRD diagnosis, especially in suspected patients harbouring MMR variants of unknown significance or non-detected biallelic germline mutations.

Original language	English
Pages (from-to)	269-273
Number of pages	5
Journal	Journal of Medical Genetics
Volume	57
Issue number	4
DOIs	https://doi.org/10.1136/jmedgenet-2019-106272
State	Published - 1 Apr 2020

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

constitutional mismatch repair deficiency
highly sensitive methodologies
lynch syndrome
microsatellite instability
next generation sequencing

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10.1136/jmedgenet-2019-106272

Cite this

González-Acosta, M., Marín, F., Puliafito, B., Bonifaci, N., Fernández, A., Navarro, M., Salvador, H., Balaguer, F., Iglesias, S., Velasco, A., Grau Garces, E., Moreno, V., Gonzalez-Granado, L. I., Guerra-García, P., Ayala, R., Florkin, B., Kratz, C., Ripperger, T., Rosenbaum, T., ... Pineda, M. (2020). High-sensitivity microsatellite instability assessment for the detection of mismatch repair defects in normal tissue of biallelic germline mismatch repair mutation carriers. Journal of Medical Genetics, 57(4), 269-273. https://doi.org/10.1136/jmedgenet-2019-106272

@article{9666bbb876014344aa6fcc8e55d27ffd,

title = "High-sensitivity microsatellite instability assessment for the detection of mismatch repair defects in normal tissue of biallelic germline mismatch repair mutation carriers",

abstract = "Introduction Lynch syndrome (LS) and constitutional mismatch repair deficiency (CMMRD) are hereditary cancer syndromes associated with mismatch repair (MMR) deficiency. Tumours show microsatellite instability (MSI), also reported at low levels in non-neoplastic tissues. Our aim was to evaluate the performance of high-sensitivity MSI (hs-MSI) assessment for the identification of LS and CMMRD in non-neoplastic tissues. Materials and methods Blood DNA samples from 131 individuals were grouped into three cohorts: baseline (22 controls), training (11 CMMRD, 48 LS and 15 controls) and validation (18 CMMRD and 18 controls). Custom next generation sequencing panel and bioinformatics pipeline were used to detect insertions and deletions in microsatellite markers. An hs-MSI score was calculated representing the percentage of unstable markers. Results The hs-MSI score was significantly higher in CMMRD blood samples when compared with controls in the training cohort (p<0.001). This finding was confirmed in the validation set, reaching 100\% specificity and sensitivity. Higher hs-MSI scores were detected in biallelic MSH2 carriers (n=5) compared with MSH6 carriers (n=15). The hs-MSI analysis did not detect a difference between LS and control blood samples (p=0.564). Conclusions The hs-MSI approach is a valuable tool for CMMRD diagnosis, especially in suspected patients harbouring MMR variants of unknown significance or non-detected biallelic germline mutations.",

keywords = "constitutional mismatch repair deficiency, highly sensitive methodologies, lynch syndrome, microsatellite instability, next generation sequencing",

author = "Maribel Gonz{\'a}lez-Acosta and F{\'a}tima Mar{\'i}n and Benjamin Puliafito and Nuria Bonifaci and Anna Fern{\'a}ndez and Matilde Navarro and Hector Salvador and Francesc Balaguer and Silvia Iglesias and Angela Velasco and \{Grau Garces\}, Elia and Victor Moreno and Gonzalez-Granado, \{Luis Ignacio\} and Pilar Guerra-Garc{\'i}a and Rosa Ayala and Beno{\^i}t Florkin and Christian Kratz and Tim Ripperger and Thorsten Rosenbaum and Danuta Januszkiewicz-Lewandowska and Azizi, \{Amedeo A.\} and Iman Ragab and Michaela Nathrath and Pander, \{Hans J{\"u}rgen\} and Stephan Lobitz and Manon Suerink and Karin Dahan and Thomas Imschweiler and Ugur Demirsoy and Joan Brunet and Conxi L{\'a}zaro and Daniel Rueda and Katharina Wimmer and Gabriel Capell{\'a} and Marta Pineda",

note = "Publisher Copyright: {\textcopyright} Author(s) (or their employer(s)) 2020. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.",

year = "2020",

month = apr,

day = "1",

doi = "10.1136/jmedgenet-2019-106272",

language = "English",

volume = "57",

pages = "269--273",

journal = "Journal of Medical Genetics",

issn = "0022-2593",

publisher = "BMJ Publishing Group",

number = "4",

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González-Acosta, M, Marín, F, Puliafito, B, Bonifaci, N, Fernández, A, Navarro, M, Salvador, H, Balaguer, F, Iglesias, S, Velasco, A, Grau Garces, E, Moreno, V, Gonzalez-Granado, LI, Guerra-García, P, Ayala, R, Florkin, B, Kratz, C, Ripperger, T, Rosenbaum, T, Januszkiewicz-Lewandowska, D, Azizi, AA, Ragab, I, Nathrath, M, Pander, HJ, Lobitz, S, Suerink, M, Dahan, K, Imschweiler, T, Demirsoy, U, Brunet, J, Lázaro, C, Rueda, D, Wimmer, K, Capellá, G & Pineda, M 2020, 'High-sensitivity microsatellite instability assessment for the detection of mismatch repair defects in normal tissue of biallelic germline mismatch repair mutation carriers', Journal of Medical Genetics, vol. 57, no. 4, pp. 269-273. https://doi.org/10.1136/jmedgenet-2019-106272

High-sensitivity microsatellite instability assessment for the detection of mismatch repair defects in normal tissue of biallelic germline mismatch repair mutation carriers. / González-Acosta, Maribel; Marín, Fátima; Puliafito, Benjamin et al.
In: Journal of Medical Genetics, Vol. 57, No. 4, 01.04.2020, p. 269-273.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - High-sensitivity microsatellite instability assessment for the detection of mismatch repair defects in normal tissue of biallelic germline mismatch repair mutation carriers

AU - González-Acosta, Maribel

AU - Marín, Fátima

AU - Puliafito, Benjamin

AU - Bonifaci, Nuria

AU - Fernández, Anna

AU - Navarro, Matilde

AU - Salvador, Hector

AU - Balaguer, Francesc

AU - Iglesias, Silvia

AU - Velasco, Angela

AU - Grau Garces, Elia

AU - Moreno, Victor

AU - Gonzalez-Granado, Luis Ignacio

AU - Guerra-García, Pilar

AU - Ayala, Rosa

AU - Florkin, Benoît

AU - Kratz, Christian

AU - Ripperger, Tim

AU - Rosenbaum, Thorsten

AU - Januszkiewicz-Lewandowska, Danuta

AU - Azizi, Amedeo A.

AU - Ragab, Iman

AU - Nathrath, Michaela

AU - Pander, Hans Jürgen

AU - Lobitz, Stephan

AU - Suerink, Manon

AU - Dahan, Karin

AU - Imschweiler, Thomas

AU - Demirsoy, Ugur

AU - Brunet, Joan

AU - Lázaro, Conxi

AU - Rueda, Daniel

AU - Wimmer, Katharina

AU - Capellá, Gabriel

AU - Pineda, Marta

PY - 2020/4/1

Y1 - 2020/4/1

N2 - Introduction Lynch syndrome (LS) and constitutional mismatch repair deficiency (CMMRD) are hereditary cancer syndromes associated with mismatch repair (MMR) deficiency. Tumours show microsatellite instability (MSI), also reported at low levels in non-neoplastic tissues. Our aim was to evaluate the performance of high-sensitivity MSI (hs-MSI) assessment for the identification of LS and CMMRD in non-neoplastic tissues. Materials and methods Blood DNA samples from 131 individuals were grouped into three cohorts: baseline (22 controls), training (11 CMMRD, 48 LS and 15 controls) and validation (18 CMMRD and 18 controls). Custom next generation sequencing panel and bioinformatics pipeline were used to detect insertions and deletions in microsatellite markers. An hs-MSI score was calculated representing the percentage of unstable markers. Results The hs-MSI score was significantly higher in CMMRD blood samples when compared with controls in the training cohort (p<0.001). This finding was confirmed in the validation set, reaching 100% specificity and sensitivity. Higher hs-MSI scores were detected in biallelic MSH2 carriers (n=5) compared with MSH6 carriers (n=15). The hs-MSI analysis did not detect a difference between LS and control blood samples (p=0.564). Conclusions The hs-MSI approach is a valuable tool for CMMRD diagnosis, especially in suspected patients harbouring MMR variants of unknown significance or non-detected biallelic germline mutations.

AB - Introduction Lynch syndrome (LS) and constitutional mismatch repair deficiency (CMMRD) are hereditary cancer syndromes associated with mismatch repair (MMR) deficiency. Tumours show microsatellite instability (MSI), also reported at low levels in non-neoplastic tissues. Our aim was to evaluate the performance of high-sensitivity MSI (hs-MSI) assessment for the identification of LS and CMMRD in non-neoplastic tissues. Materials and methods Blood DNA samples from 131 individuals were grouped into three cohorts: baseline (22 controls), training (11 CMMRD, 48 LS and 15 controls) and validation (18 CMMRD and 18 controls). Custom next generation sequencing panel and bioinformatics pipeline were used to detect insertions and deletions in microsatellite markers. An hs-MSI score was calculated representing the percentage of unstable markers. Results The hs-MSI score was significantly higher in CMMRD blood samples when compared with controls in the training cohort (p<0.001). This finding was confirmed in the validation set, reaching 100% specificity and sensitivity. Higher hs-MSI scores were detected in biallelic MSH2 carriers (n=5) compared with MSH6 carriers (n=15). The hs-MSI analysis did not detect a difference between LS and control blood samples (p=0.564). Conclusions The hs-MSI approach is a valuable tool for CMMRD diagnosis, especially in suspected patients harbouring MMR variants of unknown significance or non-detected biallelic germline mutations.

KW - constitutional mismatch repair deficiency

KW - highly sensitive methodologies

KW - lynch syndrome

KW - microsatellite instability

KW - next generation sequencing

UR - https://www.scopus.com/pages/publications/85072087698

U2 - 10.1136/jmedgenet-2019-106272

DO - 10.1136/jmedgenet-2019-106272

M3 - Article

C2 - 31494577

AN - SCOPUS:85072087698

SN - 0022-2593

VL - 57

SP - 269

EP - 273

JO - Journal of Medical Genetics

JF - Journal of Medical Genetics

IS - 4

ER -

High-sensitivity microsatellite instability assessment for the detection of mismatch repair defects in normal tissue of biallelic germline mismatch repair mutation carriers

Abstract

UN SDGs

Keywords

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