Genomics and epigenetics of malignant mesothelioma

Adam P. Sage; Victor D. Martinez; Brenda C. Minatel; Michelle E. Pewarchuk; Erin A. Marshall; Gavin M. MacAulay; Roland Hubaux; Dustin D. Pearson; Aaron A. Goodarzi; Graham Dellaire; Wan L. Lam

doi:10.3390/HT7030020

Genomics and epigenetics of malignant mesothelioma

Adam P. Sage, Victor D. Martinez, Brenda C. Minatel, Michelle E. Pewarchuk, Erin A. Marshall, Gavin M. MacAulay, Roland Hubaux, Dustin D. Pearson, Aaron A. Goodarzi, Graham Dellaire, Wan L. Lam

Résultat de recherche: Review article › examen par les pairs

38 Citations (Scopus)

Résumé

Malignant mesothelioma is an aggressive and lethal asbestos-related disease. Diagnosis of malignant mesothelioma is particularly challenging and is further complicated by the lack of disease subtype-specific markers. As a result, it is especially difficult to distinguish malignant mesothelioma from benign reactive mesothelial proliferations or reactive fibrosis. Additionally, mesothelioma diagnoses can be confounded by other anatomically related tumors that can invade the pleural or peritoneal cavities, collectively resulting in delayed diagnoses and greatly affecting patient management. High-throughput analyses have uncovered key genomic and epigenomic alterations driving malignant mesothelioma. These molecular features have the potential to better our understanding of malignant mesothelioma biology as well as to improve disease diagnosis and patient prognosis. Genomic approaches have been instrumental in identifying molecular events frequently occurring in mesothelioma. As such, we review the discoveries made using high-throughput technologies, including novel insights obtained from the analysis of the non-coding transcriptome, and the clinical potential of these genetic and epigenetic findings in mesothelioma. Furthermore, we aim to highlight the potential of these technologies in the future clinical applications of the novel molecular features in malignant mesothelioma.

Langue d'origine	English
Numéro d'article	20
Journal	High-Throughput
Volume	7
Numéro de publication	3
DOI	https://doi.org/10.3390/HT7030020
Statut de publication	Published - sept. 2018

Note bibliographique

Funding Information:
This work was supported by grants from the Canadian Institutes for Health Research (CIHR FRN-143345 and PJT-156017). V.D.M., A.P.S., B.C.M., and E.A.M. are supported by scholarships from the University of British Columbia. A.P.S. and E.A.M. are further supported by the Frederick Banting and Charles Best Scholarship from CIHR. E.A.M. is also supported by the Vanier Canada Graduate Scholarship from CIHR. A.A.G. is the Canada Research Chair for Radiation Exposure Disease and this work was undertaken, in part, thanks to funding from the Canada Research Chairs program. The AAG laboratory is supported by the Canadian Institutes of Health Research.

Publisher Copyright:
© 2018 by the authors. Licensee MDPI, Basel, Switzerland.

ASJC Scopus Subject Areas

Biotechnology
Bioengineering
Biochemistry
Biomedical Engineering

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10.3390/HT7030020

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title = "Genomics and epigenetics of malignant mesothelioma",

abstract = "Malignant mesothelioma is an aggressive and lethal asbestos-related disease. Diagnosis of malignant mesothelioma is particularly challenging and is further complicated by the lack of disease subtype-specific markers. As a result, it is especially difficult to distinguish malignant mesothelioma from benign reactive mesothelial proliferations or reactive fibrosis. Additionally, mesothelioma diagnoses can be confounded by other anatomically related tumors that can invade the pleural or peritoneal cavities, collectively resulting in delayed diagnoses and greatly affecting patient management. High-throughput analyses have uncovered key genomic and epigenomic alterations driving malignant mesothelioma. These molecular features have the potential to better our understanding of malignant mesothelioma biology as well as to improve disease diagnosis and patient prognosis. Genomic approaches have been instrumental in identifying molecular events frequently occurring in mesothelioma. As such, we review the discoveries made using high-throughput technologies, including novel insights obtained from the analysis of the non-coding transcriptome, and the clinical potential of these genetic and epigenetic findings in mesothelioma. Furthermore, we aim to highlight the potential of these technologies in the future clinical applications of the novel molecular features in malignant mesothelioma.",

author = "Sage, {Adam P.} and Martinez, {Victor D.} and Minatel, {Brenda C.} and Pewarchuk, {Michelle E.} and Marshall, {Erin A.} and MacAulay, {Gavin M.} and Roland Hubaux and Pearson, {Dustin D.} and Goodarzi, {Aaron A.} and Graham Dellaire and Lam, {Wan L.}",

note = "Funding Information: This work was supported by grants from the Canadian Institutes for Health Research (CIHR FRN-143345 and PJT-156017). V.D.M., A.P.S., B.C.M., and E.A.M. are supported by scholarships from the University of British Columbia. A.P.S. and E.A.M. are further supported by the Frederick Banting and Charles Best Scholarship from CIHR. E.A.M. is also supported by the Vanier Canada Graduate Scholarship from CIHR. A.A.G. is the Canada Research Chair for Radiation Exposure Disease and this work was undertaken, in part, thanks to funding from the Canada Research Chairs program. The AAG laboratory is supported by the Canadian Institutes of Health Research. Publisher Copyright: {\textcopyright} 2018 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2018",

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doi = "10.3390/HT7030020",

language = "English",

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AU - Sage, Adam P.

AU - Martinez, Victor D.

AU - Minatel, Brenda C.

AU - Pewarchuk, Michelle E.

AU - Marshall, Erin A.

AU - MacAulay, Gavin M.

AU - Hubaux, Roland

AU - Pearson, Dustin D.

AU - Goodarzi, Aaron A.

AU - Dellaire, Graham

AU - Lam, Wan L.

N1 - Funding Information: This work was supported by grants from the Canadian Institutes for Health Research (CIHR FRN-143345 and PJT-156017). V.D.M., A.P.S., B.C.M., and E.A.M. are supported by scholarships from the University of British Columbia. A.P.S. and E.A.M. are further supported by the Frederick Banting and Charles Best Scholarship from CIHR. E.A.M. is also supported by the Vanier Canada Graduate Scholarship from CIHR. A.A.G. is the Canada Research Chair for Radiation Exposure Disease and this work was undertaken, in part, thanks to funding from the Canada Research Chairs program. The AAG laboratory is supported by the Canadian Institutes of Health Research. Publisher Copyright: © 2018 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2018/9

Y1 - 2018/9

N2 - Malignant mesothelioma is an aggressive and lethal asbestos-related disease. Diagnosis of malignant mesothelioma is particularly challenging and is further complicated by the lack of disease subtype-specific markers. As a result, it is especially difficult to distinguish malignant mesothelioma from benign reactive mesothelial proliferations or reactive fibrosis. Additionally, mesothelioma diagnoses can be confounded by other anatomically related tumors that can invade the pleural or peritoneal cavities, collectively resulting in delayed diagnoses and greatly affecting patient management. High-throughput analyses have uncovered key genomic and epigenomic alterations driving malignant mesothelioma. These molecular features have the potential to better our understanding of malignant mesothelioma biology as well as to improve disease diagnosis and patient prognosis. Genomic approaches have been instrumental in identifying molecular events frequently occurring in mesothelioma. As such, we review the discoveries made using high-throughput technologies, including novel insights obtained from the analysis of the non-coding transcriptome, and the clinical potential of these genetic and epigenetic findings in mesothelioma. Furthermore, we aim to highlight the potential of these technologies in the future clinical applications of the novel molecular features in malignant mesothelioma.

AB - Malignant mesothelioma is an aggressive and lethal asbestos-related disease. Diagnosis of malignant mesothelioma is particularly challenging and is further complicated by the lack of disease subtype-specific markers. As a result, it is especially difficult to distinguish malignant mesothelioma from benign reactive mesothelial proliferations or reactive fibrosis. Additionally, mesothelioma diagnoses can be confounded by other anatomically related tumors that can invade the pleural or peritoneal cavities, collectively resulting in delayed diagnoses and greatly affecting patient management. High-throughput analyses have uncovered key genomic and epigenomic alterations driving malignant mesothelioma. These molecular features have the potential to better our understanding of malignant mesothelioma biology as well as to improve disease diagnosis and patient prognosis. Genomic approaches have been instrumental in identifying molecular events frequently occurring in mesothelioma. As such, we review the discoveries made using high-throughput technologies, including novel insights obtained from the analysis of the non-coding transcriptome, and the clinical potential of these genetic and epigenetic findings in mesothelioma. Furthermore, we aim to highlight the potential of these technologies in the future clinical applications of the novel molecular features in malignant mesothelioma.

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Genomics and epigenetics of malignant mesothelioma

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