Chromosome 2q gain and epigenetic silencing of GATA3 in microglandular adenosis of the breast

Chromosome 2q gain and epigenetic silencing of GATA3 in microglandular adenosis of the breast

Abstract Microglandular adenosis (MGA) represents a rare neoplasm of the mammary gland, which in a subset of cases may be associated with triple‐negative breast cancer (BC). The biology of MGA is poorly understood. In this study, eight MGA cases (n = 4 with and n = 4 without associated BC) were subj...

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Main Authors: Martin Radner, Jana Lisa vanLuttikhuizen, Stephan Bartels, Janin Bublitz, Isabel Grote, Luisa Rieger, Henriette Christgen, Helge Stark, Christopher Werlein, Marcel Lafos, Doris Steinemann, Ulrich Lehmann, Matthias Christgen, Hans Kreipe
Format: Article
Language:English
Published: Wiley 2021-05-01
Series:The Journal of Pathology: Clinical Research
Subjects:
breast cancer precursor
triple‐negative breast cancer
luminal differentiation
stem cell
DNA methylation
epigenetic alteration
Online Access:https://doi.org/10.1002/cjp2.195
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spelling doaj-f37a43b2ff0543ebad187f8cfc8d9eaa2021-04-26T10:28:14ZengWileyThe Journal of Pathology: Clinical Research2056-45382021-05-017322023210.1002/cjp2.195Chromosome 2q gain and epigenetic silencing of GATA3 in microglandular adenosis of the breastMartin Radner0Jana Lisa vanLuttikhuizen1Stephan Bartels2Janin Bublitz3Isabel Grote4Luisa Rieger5Henriette Christgen6Helge Stark7Christopher Werlein8Marcel Lafos9Doris Steinemann10Ulrich Lehmann11Matthias Christgen12Hans Kreipe13Institute of Pathology Hannover Medical School Hannover GermanyDepartment of Human Genetics Hannover Medical School Hannover GermanyInstitute of Pathology Hannover Medical School Hannover GermanyDepartment of Human Genetics Hannover Medical School Hannover GermanyInstitute of Pathology Hannover Medical School Hannover GermanyInstitute of Pathology Hannover Medical School Hannover GermanyInstitute of Pathology Hannover Medical School Hannover GermanyInstitute of Pathology Hannover Medical School Hannover GermanyInstitute of Pathology Hannover Medical School Hannover GermanyInstitute of Pathology Hannover Medical School Hannover GermanyDepartment of Human Genetics Hannover Medical School Hannover GermanyInstitute of Pathology Hannover Medical School Hannover GermanyInstitute of Pathology Hannover Medical School Hannover GermanyInstitute of Pathology Hannover Medical School Hannover GermanyAbstract Microglandular adenosis (MGA) represents a rare neoplasm of the mammary gland, which in a subset of cases may be associated with triple‐negative breast cancer (BC). The biology of MGA is poorly understood. In this study, eight MGA cases (n = 4 with and n = 4 without associated BC) were subjected to a comprehensive characterization using immunohistochemistry, genome‐wide DNA copy number (CN) profiling, fluorescence in situ hybridization (FISH), next‐generation sequencing (NGS), and DNA methylation profiling using 850 K arrays and bisulfite pyrosequencing. Median patient age was 61 years (range 57–76 years). MGA lesions were estrogen receptor (ER)‐negative, progesterone receptor‐negative, HER2‐negative, and S100‐positive. DNA CN alterations (CNAs) were complex or limited to few gains and losses. CN gain on chromosome 2q was the most common CNA and was validated by FISH in five of eight cases. NGS demonstrated an average of two mutations per case (range 0–5) affecting 10 different genes (ARID1A, ATM, CTNNB1, FBXW7, FGFR2, MET, PIK3CA, PMS2, PTEN, and TP53). CNAs and mutations were similar in MGA and adjacent BC, indicating clonal relatedness. DNA methylation profiling identified aberrant hypermethylation of CpG sites within GATA3, a key transcription factor required for luminal differentiation. Immunohistochemistry showed regular GATA3 protein expression in the normal mammary epithelium and in ER‐positive BC. Conversely, GATA3 was reduced or lost in all MGA cases tested (8/8). In conclusion, MGA is characterized by common CN gain on chromosome 2q and loss of GATA3. Epigenetic inactivation of GATA3 may provide a new clue to the peculiar biology of this rare neoplasia.https://doi.org/10.1002/cjp2.195breast cancer precursortriple‐negative breast cancerluminal differentiationstem cellDNA methylationepigenetic alteration
collection DOAJ
language English
format Article
sources DOAJ
author Martin Radner
Jana Lisa vanLuttikhuizen
Stephan Bartels
Janin Bublitz
Isabel Grote
Luisa Rieger
Henriette Christgen
Helge Stark
Christopher Werlein
Marcel Lafos
Doris Steinemann
Ulrich Lehmann
Matthias Christgen
Hans Kreipe
spellingShingle Martin Radner
Jana Lisa vanLuttikhuizen
Stephan Bartels
Janin Bublitz
Isabel Grote
Luisa Rieger
Henriette Christgen
Helge Stark
Christopher Werlein
Marcel Lafos
Doris Steinemann
Ulrich Lehmann
Matthias Christgen
Hans Kreipe
Chromosome 2q gain and epigenetic silencing of GATA3 in microglandular adenosis of the breast
The Journal of Pathology: Clinical Research
breast cancer precursor
triple‐negative breast cancer
luminal differentiation
stem cell
DNA methylation
epigenetic alteration
author_facet Martin Radner
Jana Lisa vanLuttikhuizen
Stephan Bartels
Janin Bublitz
Isabel Grote
Luisa Rieger
Henriette Christgen
Helge Stark
Christopher Werlein
Marcel Lafos
Doris Steinemann
Ulrich Lehmann
Matthias Christgen
Hans Kreipe
author_sort Martin Radner
title Chromosome 2q gain and epigenetic silencing of GATA3 in microglandular adenosis of the breast
title_short Chromosome 2q gain and epigenetic silencing of GATA3 in microglandular adenosis of the breast
title_full Chromosome 2q gain and epigenetic silencing of GATA3 in microglandular adenosis of the breast
title_fullStr Chromosome 2q gain and epigenetic silencing of GATA3 in microglandular adenosis of the breast
title_full_unstemmed Chromosome 2q gain and epigenetic silencing of GATA3 in microglandular adenosis of the breast
title_sort chromosome 2q gain and epigenetic silencing of gata3 in microglandular adenosis of the breast
publisher Wiley
series The Journal of Pathology: Clinical Research
issn 2056-4538
publishDate 2021-05-01
description Abstract Microglandular adenosis (MGA) represents a rare neoplasm of the mammary gland, which in a subset of cases may be associated with triple‐negative breast cancer (BC). The biology of MGA is poorly understood. In this study, eight MGA cases (n = 4 with and n = 4 without associated BC) were subjected to a comprehensive characterization using immunohistochemistry, genome‐wide DNA copy number (CN) profiling, fluorescence in situ hybridization (FISH), next‐generation sequencing (NGS), and DNA methylation profiling using 850 K arrays and bisulfite pyrosequencing. Median patient age was 61 years (range 57–76 years). MGA lesions were estrogen receptor (ER)‐negative, progesterone receptor‐negative, HER2‐negative, and S100‐positive. DNA CN alterations (CNAs) were complex or limited to few gains and losses. CN gain on chromosome 2q was the most common CNA and was validated by FISH in five of eight cases. NGS demonstrated an average of two mutations per case (range 0–5) affecting 10 different genes (ARID1A, ATM, CTNNB1, FBXW7, FGFR2, MET, PIK3CA, PMS2, PTEN, and TP53). CNAs and mutations were similar in MGA and adjacent BC, indicating clonal relatedness. DNA methylation profiling identified aberrant hypermethylation of CpG sites within GATA3, a key transcription factor required for luminal differentiation. Immunohistochemistry showed regular GATA3 protein expression in the normal mammary epithelium and in ER‐positive BC. Conversely, GATA3 was reduced or lost in all MGA cases tested (8/8). In conclusion, MGA is characterized by common CN gain on chromosome 2q and loss of GATA3. Epigenetic inactivation of GATA3 may provide a new clue to the peculiar biology of this rare neoplasia.
topic breast cancer precursor
triple‐negative breast cancer
luminal differentiation
stem cell
DNA methylation
epigenetic alteration
url https://doi.org/10.1002/cjp2.195
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