Author
Listed:
- Juan Jose Rodriguez-Sevilla
(The University of Texas MD Anderson Cancer Center)
- Irene Ganan-Gomez
(The University of Texas MD Anderson Cancer Center)
- Feiyang Ma
(University of California Los Angeles)
- Kelly Chien
(The University of Texas MD Anderson Cancer Center)
- Monica Rey
(University Hospital of Salamanca, IBSAL Cancer Center)
- Sanam Loghavi
(The University of Texas MD Anderson Cancer Center)
- Guillermo Montalban-Bravo
(The University of Texas MD Anderson Cancer Center)
- Vera Adema
(The University of Texas MD Anderson Cancer Center)
- Bethany Wildeman
(The University of Texas MD Anderson Cancer Center)
- Rashmi Kanagal-Shamanna
(The University of Texas MD Anderson Cancer Center)
- Alexandre Bazinet
(The University of Texas MD Anderson Cancer Center)
- Helen T. Chifotides
(The University of Texas MD Anderson Cancer Center)
- Natthakan Thongon
(The University of Texas MD Anderson Cancer Center)
- Xavier Calvo
(Grup de Recerca Translacional en Neoplàsies Hematològiques (GRETNHE), Hospital del Mar Research Institute (IMIM))
- Jesús María Hernández-Rivas
(University Hospital of Salamanca, IBSAL Cancer Center)
- Maria Díez-Campelo
(University Hospital of Salamanca, IBSAL Cancer Center)
- Guillermo Garcia-Manero
(The University of Texas MD Anderson Cancer Center)
- Simona Colla
(The University of Texas MD Anderson Cancer Center)
Abstract
The molecular mechanisms of venetoclax-based therapy failure in patients with acute myeloid leukemia were recently clarified, but the mechanisms by which patients with myelodysplastic syndromes (MDS) acquire secondary resistance to venetoclax after an initial response remain to be elucidated. Here, we show an expansion of MDS hematopoietic stem cells (HSCs) with a granulo-monocytic-biased transcriptional differentiation state in MDS patients who initially responded to venetoclax but eventually relapsed. While MDS HSCs in an undifferentiated cellular state are sensitive to venetoclax treatment, differentiation towards a granulo-monocytic-biased transcriptional state, through the acquisition or expansion of clones with STAG2 or RUNX1 mutations, affects HSCs’ survival dependence from BCL2-mediated anti-apoptotic pathways to TNFα-induced pro-survival NF-κB signaling and drives resistance to venetoclax-mediated cytotoxicity. Our findings reveal how hematopoietic stem and progenitor cell (HSPC) can eventually overcome therapy-induced depletion and underscore the importance of using close molecular monitoring to prevent HSPC hierarchical change in MDS patients enrolled in clinical trials of venetoclax.
Suggested Citation
Juan Jose Rodriguez-Sevilla & Irene Ganan-Gomez & Feiyang Ma & Kelly Chien & Monica Rey & Sanam Loghavi & Guillermo Montalban-Bravo & Vera Adema & Bethany Wildeman & Rashmi Kanagal-Shamanna & Alexandr, 2024.
"Hematopoietic stem cells with granulo-monocytic differentiation state overcome venetoclax sensitivity in patients with myelodysplastic syndromes,"
Nature Communications, Nature, vol. 15(1), pages 1-5, December.
Handle:
RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-46424-3
DOI: 10.1038/s41467-024-46424-3
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