A multiple myeloma classification system that associates normal B-cell subset phenotypes with prognosis

Julie Støve Bødker; Rasmus Froberg Brøndum; Alexander Schmitz; Anna Amanda Schönherz; Ditte Starberg Jespersen; Mads Sønderkær; Charles Vesteghem; Hanne Due; Caroline Holm Nørgaard; Martin Perez-Andres; Mehmet Kemal Samur; Faith Davies; Brian Walker; Charlotte Pawlyn; Martin Kaiser; David Johnson; Uta Bertsch; Annemiek Broyl; Mark van Duin; Rajen Shah; Preben Johansen; Martin Agge Nørgaard; Richard J Samworth; Pieter Sonneveld; Hartmut Goldschmidt; Gareth J Morgan; Alberto Orfao; Nikhil Munshi; Hans Erik Johnsen; Tarec El-Galaly; Karen Dybkær; Martin Bøgsted

doi:10.1182/bloodadvances.2018018564

A multiple myeloma classification system that associates normal B-cell subset phenotypes with prognosis

Julie Støve Bødker, Rasmus Froberg Brøndum, Alexander Schmitz, Anna Amanda Schönherz, Ditte Starberg Jespersen, Mads Sønderkær, Charles Vesteghem, Hanne Due, Caroline Holm Nørgaard, Martin Perez-Andres, Mehmet Kemal Samur, Faith Davies, Brian Walker, Charlotte Pawlyn, Martin Kaiser, David Johnson, Uta Bertsch, Annemiek Broyl, Mark van Duin, Rajen ShahPreben Johansen, Martin Agge Nørgaard, Richard J Samworth, Pieter Sonneveld, Hartmut Goldschmidt, Gareth J Morgan, Alberto Orfao, Nikhil Munshi, Hans Erik Johnsen, Tarec El-Galaly, Karen Dybkær, Martin Bøgsted

Research output: Contribution to journal › Journal article › Research › peer-review

3 Citations (Scopus)

Abstract

Despite the recent progress in treatment of multiple myeloma (MM), it is still an incurable malignant disease, and we are therefore in need of new risk stratification tools that can help us to understand the disease and optimize therapy. Here we propose a new subtyping of myeloma plasma cells (PCs) from diagnostic samples, assigned by normal B-cell subset associated gene signatures (BAGS). For this purpose, we combined fluorescence-activated cell sorting and gene expression profiles from normal bone marrow (BM) Pre-BI, Pre-BII, immature, naïve, memory, and PC subsets to generate BAGS for assignment of normal BM subtypes in diagnostic samples. The impact of the subtypes was analyzed in 8 available data sets from 1772 patients' myeloma PC samples. The resulting tumor assignments in available clinical data sets exhibited similar BAGS subtype frequencies in 4 cohorts from de novo MM patients across 1296 individual cases. The BAGS subtypes were significantly associated with progression-free and overall survival in a meta-analysis of 916 patients from 3 prospective clinical trials. The major impact was observed within the Pre-BII and memory subtypes, which had a significantly inferior prognosis compared with other subtypes. A multiple Cox proportional hazard analysis documented that BAGS subtypes added significant, independent prognostic information to the translocations and cyclin D classification. BAGS subtype analysis of patient cases identified transcriptional differences, including a number of differentially spliced genes. We identified subtype differences in myeloma at diagnosis, with prognostic impact and predictive potential, supporting an acquired B-cell trait and phenotypic plasticity as a pathogenetic hallmark of MM.

Original language	English
Journal	Blood advances
Volume	2
Issue number	18
Pages (from-to)	2400-2411
Number of pages	12
ISSN	2473-9529
DOIs	https://doi.org/10.1182/bloodadvances.2018018564
Publication status	Published - 2018

Bibliographical note

Erratum:
In the 25 September 2018 issue, an author’s name was misspelled in the byline on page 2400 and the deceased author statement under “Authorship” on page 2408. “Hans Erik Johnson” should read “Hans Erik Johnsen.” The error has been corrected in the published article.
DOI 10.1182/bloodadvances.2019032979

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https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6156884/pdf/advances018564.pdf

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Bødker, J. S., Brøndum, R. F., Schmitz, A., Schönherz, A. A., Jespersen, D. S., Sønderkær, M., Vesteghem, C., Due, H., Nørgaard, C. H., Perez-Andres, M., Samur, M. K., Davies, F., Walker, B., Pawlyn, C., Kaiser, M., Johnson, D., Bertsch, U., Broyl, A., van Duin, M., ... Bøgsted, M. (2018). A multiple myeloma classification system that associates normal B-cell subset phenotypes with prognosis. Blood advances, 2(18), 2400-2411. https://doi.org/10.1182/bloodadvances.2018018564

@article{3aa38799da6645ad8dbd85e69ccdc4b9,

title = "A multiple myeloma classification system that associates normal B-cell subset phenotypes with prognosis",

abstract = "Despite the recent progress in treatment of multiple myeloma (MM), it is still an incurable malignant disease, and we are therefore in need of new risk stratification tools that can help us to understand the disease and optimize therapy. Here we propose a new subtyping of myeloma plasma cells (PCs) from diagnostic samples, assigned by normal B-cell subset associated gene signatures (BAGS). For this purpose, we combined fluorescence-activated cell sorting and gene expression profiles from normal bone marrow (BM) Pre-BI, Pre-BII, immature, na{\"i}ve, memory, and PC subsets to generate BAGS for assignment of normal BM subtypes in diagnostic samples. The impact of the subtypes was analyzed in 8 available data sets from 1772 patients' myeloma PC samples. The resulting tumor assignments in available clinical data sets exhibited similar BAGS subtype frequencies in 4 cohorts from de novo MM patients across 1296 individual cases. The BAGS subtypes were significantly associated with progression-free and overall survival in a meta-analysis of 916 patients from 3 prospective clinical trials. The major impact was observed within the Pre-BII and memory subtypes, which had a significantly inferior prognosis compared with other subtypes. A multiple Cox proportional hazard analysis documented that BAGS subtypes added significant, independent prognostic information to the translocations and cyclin D classification. BAGS subtype analysis of patient cases identified transcriptional differences, including a number of differentially spliced genes. We identified subtype differences in myeloma at diagnosis, with prognostic impact and predictive potential, supporting an acquired B-cell trait and phenotypic plasticity as a pathogenetic hallmark of MM.",

author = "B{\o}dker, {Julie St{\o}ve} and Br{\o}ndum, {Rasmus Froberg} and Alexander Schmitz and Sch{\"o}nherz, {Anna Amanda} and Jespersen, {Ditte Starberg} and Mads S{\o}nderk{\ae}r and Charles Vesteghem and Hanne Due and N{\o}rgaard, {Caroline Holm} and Martin Perez-Andres and Samur, {Mehmet Kemal} and Faith Davies and Brian Walker and Charlotte Pawlyn and Martin Kaiser and David Johnson and Uta Bertsch and Annemiek Broyl and {van Duin}, Mark and Rajen Shah and Preben Johansen and N{\o}rgaard, {Martin Agge} and Samworth, {Richard J} and Pieter Sonneveld and Hartmut Goldschmidt and Morgan, {Gareth J} and Alberto Orfao and Nikhil Munshi and Johnsen, {Hans Erik} and Tarec El-Galaly and Karen Dybk{\ae}r and Martin B{\o}gsted",

note = "Erratum: In the 25 September 2018 issue, an author{\textquoteright}s name was misspelled in the byline on page 2400 and the deceased author statement under “Authorship” on page 2408. “Hans Erik Johnson” should read “Hans Erik Johnsen.” The error has been corrected in the published article. DOI 10.1182/bloodadvances.2019032979",

year = "2018",

doi = "10.1182/bloodadvances.2018018564",

language = "English",

volume = "2",

pages = "2400--2411",

journal = "Blood advances",

issn = "2473-9529",

publisher = "ASH Publications",

number = "18",

}

Bødker, JS, Brøndum, RF, Schmitz, A, Schönherz, AA, Jespersen, DS, Sønderkær, M , Vesteghem, C , Due, H, Nørgaard, CH, Perez-Andres, M, Samur, MK, Davies, F, Walker, B, Pawlyn, C, Kaiser, M, Johnson, D, Bertsch, U, Broyl, A, van Duin, M, Shah, R, Johansen, P, Nørgaard, MA, Samworth, RJ, Sonneveld, P, Goldschmidt, H, Morgan, GJ, Orfao, A, Munshi, N, Johnsen, HE, El-Galaly, T , Dybkær, K & Bøgsted, M 2018, 'A multiple myeloma classification system that associates normal B-cell subset phenotypes with prognosis', Blood advances, vol. 2, no. 18, pp. 2400-2411. https://doi.org/10.1182/bloodadvances.2018018564

TY - JOUR

T1 - A multiple myeloma classification system that associates normal B-cell subset phenotypes with prognosis

AU - Bødker, Julie Støve

AU - Brøndum, Rasmus Froberg

AU - Schmitz, Alexander

AU - Schönherz, Anna Amanda

AU - Jespersen, Ditte Starberg

AU - Sønderkær, Mads

AU - Vesteghem, Charles

AU - Due, Hanne

AU - Nørgaard, Caroline Holm

AU - Perez-Andres, Martin

AU - Samur, Mehmet Kemal

AU - Davies, Faith

AU - Walker, Brian

AU - Pawlyn, Charlotte

AU - Kaiser, Martin

AU - Johnson, David

AU - Bertsch, Uta

AU - Broyl, Annemiek

AU - van Duin, Mark

AU - Shah, Rajen

AU - Johansen, Preben

AU - Nørgaard, Martin Agge

AU - Samworth, Richard J

AU - Sonneveld, Pieter

AU - Goldschmidt, Hartmut

AU - Morgan, Gareth J

AU - Orfao, Alberto

AU - Munshi, Nikhil

AU - Johnsen, Hans Erik

AU - El-Galaly, Tarec

AU - Dybkær, Karen

AU - Bøgsted, Martin

N1 - Erratum: In the 25 September 2018 issue, an author’s name was misspelled in the byline on page 2400 and the deceased author statement under “Authorship” on page 2408. “Hans Erik Johnson” should read “Hans Erik Johnsen.” The error has been corrected in the published article. DOI 10.1182/bloodadvances.2019032979

PY - 2018

Y1 - 2018

N2 - Despite the recent progress in treatment of multiple myeloma (MM), it is still an incurable malignant disease, and we are therefore in need of new risk stratification tools that can help us to understand the disease and optimize therapy. Here we propose a new subtyping of myeloma plasma cells (PCs) from diagnostic samples, assigned by normal B-cell subset associated gene signatures (BAGS). For this purpose, we combined fluorescence-activated cell sorting and gene expression profiles from normal bone marrow (BM) Pre-BI, Pre-BII, immature, naïve, memory, and PC subsets to generate BAGS for assignment of normal BM subtypes in diagnostic samples. The impact of the subtypes was analyzed in 8 available data sets from 1772 patients' myeloma PC samples. The resulting tumor assignments in available clinical data sets exhibited similar BAGS subtype frequencies in 4 cohorts from de novo MM patients across 1296 individual cases. The BAGS subtypes were significantly associated with progression-free and overall survival in a meta-analysis of 916 patients from 3 prospective clinical trials. The major impact was observed within the Pre-BII and memory subtypes, which had a significantly inferior prognosis compared with other subtypes. A multiple Cox proportional hazard analysis documented that BAGS subtypes added significant, independent prognostic information to the translocations and cyclin D classification. BAGS subtype analysis of patient cases identified transcriptional differences, including a number of differentially spliced genes. We identified subtype differences in myeloma at diagnosis, with prognostic impact and predictive potential, supporting an acquired B-cell trait and phenotypic plasticity as a pathogenetic hallmark of MM.

AB - Despite the recent progress in treatment of multiple myeloma (MM), it is still an incurable malignant disease, and we are therefore in need of new risk stratification tools that can help us to understand the disease and optimize therapy. Here we propose a new subtyping of myeloma plasma cells (PCs) from diagnostic samples, assigned by normal B-cell subset associated gene signatures (BAGS). For this purpose, we combined fluorescence-activated cell sorting and gene expression profiles from normal bone marrow (BM) Pre-BI, Pre-BII, immature, naïve, memory, and PC subsets to generate BAGS for assignment of normal BM subtypes in diagnostic samples. The impact of the subtypes was analyzed in 8 available data sets from 1772 patients' myeloma PC samples. The resulting tumor assignments in available clinical data sets exhibited similar BAGS subtype frequencies in 4 cohorts from de novo MM patients across 1296 individual cases. The BAGS subtypes were significantly associated with progression-free and overall survival in a meta-analysis of 916 patients from 3 prospective clinical trials. The major impact was observed within the Pre-BII and memory subtypes, which had a significantly inferior prognosis compared with other subtypes. A multiple Cox proportional hazard analysis documented that BAGS subtypes added significant, independent prognostic information to the translocations and cyclin D classification. BAGS subtype analysis of patient cases identified transcriptional differences, including a number of differentially spliced genes. We identified subtype differences in myeloma at diagnosis, with prognostic impact and predictive potential, supporting an acquired B-cell trait and phenotypic plasticity as a pathogenetic hallmark of MM.

UR - http://10.1182/bloodadvances.2019032979

U2 - 10.1182/bloodadvances.2018018564

DO - 10.1182/bloodadvances.2018018564

M3 - Journal article

C2 - 30254104

SN - 2473-9529

VL - 2

SP - 2400

EP - 2411

JO - Blood advances

JF - Blood advances

IS - 18

ER -

A multiple myeloma classification system that associates normal B-cell subset phenotypes with prognosis

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