DMG26: A Targeted Sequencing Panel for Mutation Profiling to Address Gaps in the Prognostication of Multiple Myeloma

Samuel D. Cutler; Philipp Knopf; Clinton J.V. Campbell; Andrea Thoni; Mohamed Abou El Hassan; Nicholas Forward; Darrell White; Julie Wagner; Marissa Goudie; Jeanette E. Boudreau; Barry E. Kennedy; Shashi Gujar; Daniel Gaston; Manal O. Elnenaei

doi:10.1016/j.jmoldx.2021.08.011

DMG26: A Targeted Sequencing Panel for Mutation Profiling to Address Gaps in the Prognostication of Multiple Myeloma

Samuel D. Cutler, Philipp Knopf, Clinton J.V. Campbell, Andrea Thoni, Mohamed Abou El Hassan, Nicholas Forward, Darrell White, Julie Wagner, Marissa Goudie, Jeanette E. Boudreau, Barry E. Kennedy, Shashi Gujar, Daniel Gaston, Manal O. Elnenaei

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Résumé

Multiple myeloma presents with numerous primary genomic lesions that broadly dichotomize cases into hyperdiploidy or IgH translocated. Clinically, these large alterations are assessed by fluorescence in situ hybridization (FISH) for risk stratification at diagnosis. Secondary focal events, including indels and single-nucleotide variants, are also reported; however, their clinical correlates are poorly described, and FISH has insufficient resolution to assess many of them. This study examined the exonic sequences of 26 genes reported to be mutated in >1% of patients with myeloma using a custom panel. These exons were sequenced to approximately 1000 times in a cohort of 76 patients from Atlantic Canada with detailed clinical correlates and in four multiple myeloma cell lines. Across the 76 patients, 255 mutations and 33 focal copy number variations were identified. High-severity mutations and mutations predicted by FATHMM-XF to be pathogenic identified patients with significantly reduced progression-free survival. These mutations were mutually exclusive from the Revised International Staging System high-risk FISH markers and were independent of all biochemical parameters of the Revised International Staging System. Applying our panel to patients classified by FISH to be standard risk successfully reclassified patients into high- and standard-risk groups. Furthermore, three patients in our cohort each had two high-risk markers; two of these patients developed plasma cell leukemia, a rare and severe clinical sequela of multiple myeloma.

Langue d'origine	English
Pages (de-à)	1699-1714
Nombre de pages	16
Journal	Journal of Molecular Diagnostics
Volume	23
Numéro de publication	12
DOI	https://doi.org/10.1016/j.jmoldx.2021.08.011
Statut de publication	Published - déc. 2021

Note bibliographique

Funding Information:
Supported by Nova Scotia Health Authority Research grant 1021520 (M.O.E., C.JV.C.) and the Beatrice Hunter Cancer Research Institute through the Cancer Research Training Program (S.D.C., B.E.K.).

Funding Information:
Supported by Nova Scotia Health Authority Research grant 1021520 (M.O.E., C.JV.C.) and the Beatrice Hunter Cancer Research Institute through the Cancer Research Training Program (S.D.C., B.E.K.).

Publisher Copyright:
© 2021 Association for Molecular Pathology and American Society for Investigative Pathology

ASJC Scopus Subject Areas

Pathology and Forensic Medicine
Molecular Medicine

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't

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10.1016/j.jmoldx.2021.08.011

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Cutler, S. D., Knopf, P., Campbell, C. J. V., Thoni, A., El Hassan, M. A., Forward, N., White, D., Wagner, J., Goudie, M., Boudreau, J. E., Kennedy, B. E., Gujar, S., Gaston, D., & Elnenaei, M. O. (2021). DMG26: A Targeted Sequencing Panel for Mutation Profiling to Address Gaps in the Prognostication of Multiple Myeloma. Journal of Molecular Diagnostics, 23(12), 1699-1714. https://doi.org/10.1016/j.jmoldx.2021.08.011

Cutler, SD, Knopf, P, Campbell, CJV, Thoni, A, El Hassan, MA, Forward, N, White, D, Wagner, J, Goudie, M, Boudreau, JE, Kennedy, BE, Gujar, S, Gaston, D & Elnenaei, MO 2021, 'DMG26: A Targeted Sequencing Panel for Mutation Profiling to Address Gaps in the Prognostication of Multiple Myeloma', Journal of Molecular Diagnostics, vol. 23, n° 12, pp. 1699-1714. https://doi.org/10.1016/j.jmoldx.2021.08.011

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title = "DMG26: A Targeted Sequencing Panel for Mutation Profiling to Address Gaps in the Prognostication of Multiple Myeloma",

abstract = "Multiple myeloma presents with numerous primary genomic lesions that broadly dichotomize cases into hyperdiploidy or IgH translocated. Clinically, these large alterations are assessed by fluorescence in situ hybridization (FISH) for risk stratification at diagnosis. Secondary focal events, including indels and single-nucleotide variants, are also reported; however, their clinical correlates are poorly described, and FISH has insufficient resolution to assess many of them. This study examined the exonic sequences of 26 genes reported to be mutated in >1% of patients with myeloma using a custom panel. These exons were sequenced to approximately 1000 times in a cohort of 76 patients from Atlantic Canada with detailed clinical correlates and in four multiple myeloma cell lines. Across the 76 patients, 255 mutations and 33 focal copy number variations were identified. High-severity mutations and mutations predicted by FATHMM-XF to be pathogenic identified patients with significantly reduced progression-free survival. These mutations were mutually exclusive from the Revised International Staging System high-risk FISH markers and were independent of all biochemical parameters of the Revised International Staging System. Applying our panel to patients classified by FISH to be standard risk successfully reclassified patients into high- and standard-risk groups. Furthermore, three patients in our cohort each had two high-risk markers; two of these patients developed plasma cell leukemia, a rare and severe clinical sequela of multiple myeloma.",

author = "Cutler, {Samuel D.} and Philipp Knopf and Campbell, {Clinton J.V.} and Andrea Thoni and {El Hassan}, {Mohamed Abou} and Nicholas Forward and Darrell White and Julie Wagner and Marissa Goudie and Boudreau, {Jeanette E.} and Kennedy, {Barry E.} and Shashi Gujar and Daniel Gaston and Elnenaei, {Manal O.}",

note = "Funding Information: Supported by Nova Scotia Health Authority Research grant 1021520 (M.O.E., C.JV.C.) and the Beatrice Hunter Cancer Research Institute through the Cancer Research Training Program (S.D.C., B.E.K.). Funding Information: Supported by Nova Scotia Health Authority Research grant 1021520 (M.O.E., C.JV.C.) and the Beatrice Hunter Cancer Research Institute through the Cancer Research Training Program (S.D.C., B.E.K.). Publisher Copyright: {\textcopyright} 2021 Association for Molecular Pathology and American Society for Investigative Pathology",

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doi = "10.1016/j.jmoldx.2021.08.011",

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AU - Thoni, Andrea

AU - El Hassan, Mohamed Abou

AU - Forward, Nicholas

AU - White, Darrell

AU - Wagner, Julie

AU - Goudie, Marissa

AU - Boudreau, Jeanette E.

AU - Kennedy, Barry E.

AU - Gujar, Shashi

AU - Gaston, Daniel

AU - Elnenaei, Manal O.

N1 - Funding Information: Supported by Nova Scotia Health Authority Research grant 1021520 (M.O.E., C.JV.C.) and the Beatrice Hunter Cancer Research Institute through the Cancer Research Training Program (S.D.C., B.E.K.). Funding Information: Supported by Nova Scotia Health Authority Research grant 1021520 (M.O.E., C.JV.C.) and the Beatrice Hunter Cancer Research Institute through the Cancer Research Training Program (S.D.C., B.E.K.). Publisher Copyright: © 2021 Association for Molecular Pathology and American Society for Investigative Pathology

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N2 - Multiple myeloma presents with numerous primary genomic lesions that broadly dichotomize cases into hyperdiploidy or IgH translocated. Clinically, these large alterations are assessed by fluorescence in situ hybridization (FISH) for risk stratification at diagnosis. Secondary focal events, including indels and single-nucleotide variants, are also reported; however, their clinical correlates are poorly described, and FISH has insufficient resolution to assess many of them. This study examined the exonic sequences of 26 genes reported to be mutated in >1% of patients with myeloma using a custom panel. These exons were sequenced to approximately 1000 times in a cohort of 76 patients from Atlantic Canada with detailed clinical correlates and in four multiple myeloma cell lines. Across the 76 patients, 255 mutations and 33 focal copy number variations were identified. High-severity mutations and mutations predicted by FATHMM-XF to be pathogenic identified patients with significantly reduced progression-free survival. These mutations were mutually exclusive from the Revised International Staging System high-risk FISH markers and were independent of all biochemical parameters of the Revised International Staging System. Applying our panel to patients classified by FISH to be standard risk successfully reclassified patients into high- and standard-risk groups. Furthermore, three patients in our cohort each had two high-risk markers; two of these patients developed plasma cell leukemia, a rare and severe clinical sequela of multiple myeloma.

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DMG26: A Targeted Sequencing Panel for Mutation Profiling to Address Gaps in the Prognostication of Multiple Myeloma

Résumé

Note bibliographique

ASJC Scopus Subject Areas

PubMed: MeSH publication types

Accès au document

Autres fichiers et liens

Empreinte numérique

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