Blood Advances (Nov 2019)

Replication timing alterations in leukemia affect clinically relevant chromosome domains

  • Juan Carlos Rivera-Mulia,
  • Takayo Sasaki,
  • Claudia Trevilla-Garcia,
  • Naoto Nakamichi,
  • David J. H.F. Knapp,
  • Colin A. Hammond,
  • Bill H. Chang,
  • Jeffrey W. Tyner,
  • Meenakshi Devidas,
  • Jared Zimmerman,
  • Kyle N. Klein,
  • Vivek Somasundaram,
  • Brian J. Druker,
  • Tanja A. Gruber,
  • Amnon Koren,
  • Connie J. Eaves,
  • David M. Gilbert

Journal volume & issue
Vol. 3, no. 21
pp. 3201 – 3213

Abstract

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Abstract: Human B-cell precursor acute lymphoid leukemias (BCP-ALLs) comprise a group of genetically and clinically distinct disease entities with features of differentiation arrest at known stages of normal B-lineage differentiation. We previously showed that BCP-ALL cells display unique and clonally heritable, stable DNA replication timing (RT) programs (ie, programs describing the variable order of replication and subnuclear 3D architecture of megabase-scale chromosomal units of DNA in different cell types). To determine the extent to which BCP-ALL RT programs mirror or deviate from specific stages of normal human B-cell differentiation, we transplanted immunodeficient mice with quiescent normal human CD34+ cord blood cells and obtained RT signatures of the regenerating B-lineage populations. We then compared these with RT signatures for leukemic cells from a large cohort of BCP-ALL patients with varied genetic subtypes and outcomes. The results identify BCP-ALL subtype-specific features that resemble specific stages of B-cell differentiation and features that seem to be associated with relapse. These results suggest that the genesis of BCP-ALL involves alterations in RT that reflect biologically significant and potentially clinically relevant leukemia-specific epigenetic changes.