Bone marrow morphologic features, MyPRS, and gene mutation correlations in plasma cell myeloma

Yansheng Hao; Daniel Khaykin; Levi Machado; Tayler van den Akker; Jane Houldsworth; Bart Barlogie; Shafinaz Hussein; Siraj M. El Jamal; Bruce Petersen; Julie Teruya-Feldstein

doi:10.1038/s41379-019-0333-6

Bone marrow morphologic features, MyPRS, and gene mutation correlations in plasma cell myeloma

Yansheng Hao, Daniel Khaykin, Levi Machado, Tayler van den Akker, Jane Houldsworth, Bart Barlogie, Shafinaz Hussein, Siraj M. El Jamal, Bruce Petersen, Julie Teruya-Feldstein

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

2 Scopus citations

Abstract

Genetics has played an important role in risk stratification for plasma cell myeloma patients, providing therapeutic guidance. In this study, we investigated the correlation of bone marrow morphologic features and genetic aberrations, including gene expression profiles, translocations, and gene mutations. For the first time we show that high plasma cell volume, diffuse sheet growth pattern, immature cell morphology, high mitotic index, and increased reticulin fibrosis, significantly correlates with high risk disease determined by MyPRS gene expression profiles. Furthermore, we show the association between MyPRS risk stratification and chromosomal alterations and specific gene mutations. We also demonstrate the combinational effect of TP53 mutation and 17p loss on the histological changes in bone marrow.

Original language	English
Pages (from-to)	188-195
Number of pages	8
Journal	Modern Pathology
Volume	33
Issue number	2
DOIs	https://doi.org/10.1038/s41379-019-0333-6
State	Published - 1 Feb 2020

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title = "Bone marrow morphologic features, MyPRS, and gene mutation correlations in plasma cell myeloma",

abstract = "Genetics has played an important role in risk stratification for plasma cell myeloma patients, providing therapeutic guidance. In this study, we investigated the correlation of bone marrow morphologic features and genetic aberrations, including gene expression profiles, translocations, and gene mutations. For the first time we show that high plasma cell volume, diffuse sheet growth pattern, immature cell morphology, high mitotic index, and increased reticulin fibrosis, significantly correlates with high risk disease determined by MyPRS gene expression profiles. Furthermore, we show the association between MyPRS risk stratification and chromosomal alterations and specific gene mutations. We also demonstrate the combinational effect of TP53 mutation and 17p loss on the histological changes in bone marrow.",

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T1 - Bone marrow morphologic features, MyPRS, and gene mutation correlations in plasma cell myeloma

AU - Hao, Yansheng

AU - Khaykin, Daniel

AU - Machado, Levi

AU - van den Akker, Tayler

AU - Houldsworth, Jane

AU - Barlogie, Bart

AU - Hussein, Shafinaz

AU - El Jamal, Siraj M.

AU - Petersen, Bruce

AU - Teruya-Feldstein, Julie

PY - 2020/2/1

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N2 - Genetics has played an important role in risk stratification for plasma cell myeloma patients, providing therapeutic guidance. In this study, we investigated the correlation of bone marrow morphologic features and genetic aberrations, including gene expression profiles, translocations, and gene mutations. For the first time we show that high plasma cell volume, diffuse sheet growth pattern, immature cell morphology, high mitotic index, and increased reticulin fibrosis, significantly correlates with high risk disease determined by MyPRS gene expression profiles. Furthermore, we show the association between MyPRS risk stratification and chromosomal alterations and specific gene mutations. We also demonstrate the combinational effect of TP53 mutation and 17p loss on the histological changes in bone marrow.

AB - Genetics has played an important role in risk stratification for plasma cell myeloma patients, providing therapeutic guidance. In this study, we investigated the correlation of bone marrow morphologic features and genetic aberrations, including gene expression profiles, translocations, and gene mutations. For the first time we show that high plasma cell volume, diffuse sheet growth pattern, immature cell morphology, high mitotic index, and increased reticulin fibrosis, significantly correlates with high risk disease determined by MyPRS gene expression profiles. Furthermore, we show the association between MyPRS risk stratification and chromosomal alterations and specific gene mutations. We also demonstrate the combinational effect of TP53 mutation and 17p loss on the histological changes in bone marrow.

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Bone marrow morphologic features, MyPRS, and gene mutation correlations in plasma cell myeloma

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