Author
Listed:
- Manabu Kusakabe
(BC Cancer Agency
University of Tsukuba)
- Ann Chong Sun
(BC Cancer Agency)
- Kateryna Tyshchenko
(BC Cancer Agency)
- Rachel Wong
(BC Cancer Agency)
- Aastha Nanda
(BC Cancer Agency)
- Claire Shanna
(BC Cancer Agency)
- Samuel Gusscott
(BC Cancer Agency)
- Elizabeth A. Chavez
(BC Cancer Agency)
- Alireza Lorzadeh
(University of British Columbia)
- Alice Zhu
(University of British Columbia)
- Ainsleigh Hill
(BC Cancer Agency)
- Stacy Hung
(BC Cancer Agency)
- Scott Brown
(BC Cancer Agency)
- Artem Babaian
(BC Cancer Agency)
- Xuehai Wang
(BC Cancer Agency)
- Robert A. Holt
(BC Cancer Agency)
- Christian Steidl
(BC Cancer Agency)
- Aly Karsan
(BC Cancer Agency)
- R. Keith Humphries
(BC Cancer Agency)
- Connie J. Eaves
(BC Cancer Agency)
- Martin Hirst
(University of British Columbia
BC Cancer Agency)
- Andrew P. Weng
(BC Cancer Agency)
Abstract
Mechanistic studies in human cancer have relied heavily on cell lines and mouse models, but are limited by in vitro adaptation and species context issues, respectively. More recent efforts have utilized patient-derived xenografts; however, these are hampered by variable genetic background, inability to study early events, and practical issues with availability/reproducibility. We report here an efficient, reproducible model of T-cell leukemia in which lentiviral transduction of normal human cord blood yields aggressive leukemia that appears indistinguishable from natural disease. We utilize this synthetic model to uncover a role for oncogene-induced HOXB activation which is operative in leukemia cells-of-origin and persists in established tumors where it defines a novel subset of patients distinct from other known genetic subtypes and with poor clinical outcome. We show further that anterior HOXB genes are specifically activated in human T-ALL by an epigenetic mechanism and confer growth advantage in both pre-leukemia cells and established clones.
Suggested Citation
Manabu Kusakabe & Ann Chong Sun & Kateryna Tyshchenko & Rachel Wong & Aastha Nanda & Claire Shanna & Samuel Gusscott & Elizabeth A. Chavez & Alireza Lorzadeh & Alice Zhu & Ainsleigh Hill & Stacy Hung , 2019.
"Synthetic modeling reveals HOXB genes are critical for the initiation and maintenance of human leukemia,"
Nature Communications, Nature, vol. 10(1), pages 1-15, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-10510-8
DOI: 10.1038/s41467-019-10510-8
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