Phenotypic and Genomic Analysis of Multiple Myeloma Minimal Residual Disease Tumor Cells: a New Model to Understand Chemoresistance

Overview

Journal Blood

Publisher Elsevier

Specialty Hematology

Date 2016 Jan 13

PMID 26755711

Citations 48

Authors

Bruno Paiva

Luis A Corchete

Maria-Belen Vidriales

Noemi Puig

Patricia Maiso

Idoia Rodriguez

Diego Alignani

Leire Burgos

Maria-Luz Sanchez

Paloma Barcena

Maria-Asuncion Echeveste

Miguel T Hernandez

Ramon Garcia-Sanz

Enrique M Ocio

Albert Oriol

Mercedes Gironella

Luis Palomera

Felipe de Arriba

Yolanda Gonzalez

Sarah K Johnson

Joshua Epstein

Bart Barlogie

Juan Jose Lahuerta

Joan Blade

Alberto Orfao

Maria-Victoria Mateos

Jesus F San Miguel

Affiliations

Soon will be listed here.

Abstract

Persistence of chemoresistant minimal residual disease (MRD) plasma cells (PCs) is associated with inferior survival in multiple myeloma (MM). Thus, characterization of the minor MRD subclone may represent a unique model to understand chemoresistance, but to our knowledge, the phenotypic and genetic features of the MRD subclone have never been investigated. Here, we compared the antigenic profile of MRD vs diagnostic clonal PCs in 40 elderly MM patients enrolled in the GEM2010MAS65 study and showed that the MRD subclone is enriched in cells overexpressing integrins (CD11a/CD11c/CD29/CD49d/CD49e), chemokine receptors (CXCR4), and adhesion molecules (CD44/CD54). Genetic profiling of MRD vs diagnostic PCs was performed in 12 patients; 3 of them showed identical copy number alterations (CNAs), in another 3 cases, MRD clonal PCs displayed all genetic alterations detected at diagnosis plus additional CNAs that emerged at the MRD stage, whereas in the remaining 6 patients, there were CNAs present at diagnosis that were undetectable in MRD clonal PCs, but also a selected number of genetic alterations that became apparent only at the MRD stage. The MRD subclone showed significant downregulation of genes related to protein processing in endoplasmic reticulum, as well as novel deregulated genes such as ALCAM that is prognostically relevant in MM and may identify chemoresistant PCs in vitro. Altogether, our results suggest that therapy-induced clonal selection could be already present at the MRD stage, where chemoresistant PCs show a singular phenotypic signature that may result from the persistence of clones with different genetic and gene expression profiles. This trial was registered atwww.clinicaltrials.gov as #NCT01237249.

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