Regeneration-associated WNT signaling is activated in long-term reconstituting AC133bright acute myeloid leukemia cells.


Journal article


A. Beghini, F. Corlazzoli, L. Del Giacco, M. Ré, F. Lazzaroni, Matteo Brioschi, G. Valentini, F. Ferrazzi, A. Ghilardi, M. Righi, M. Turrini, Marco Mignardi, C. Cesana, V. Bronte, M. Nilsson, E. Morra, R. Cairoli
Neoplasia, 2012

Semantic Scholar DOI PubMed
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APA   Click to copy
Beghini, A., Corlazzoli, F., Giacco, L. D., Ré, M., Lazzaroni, F., Brioschi, M., … Cairoli, R. (2012). Regeneration-associated WNT signaling is activated in long-term reconstituting AC133bright acute myeloid leukemia cells. Neoplasia.


Chicago/Turabian   Click to copy
Beghini, A., F. Corlazzoli, L. Del Giacco, M. Ré, F. Lazzaroni, Matteo Brioschi, G. Valentini, et al. “Regeneration-Associated WNT Signaling Is Activated in Long-Term Reconstituting AC133bright Acute Myeloid Leukemia Cells.” Neoplasia (2012).


MLA   Click to copy
Beghini, A., et al. “Regeneration-Associated WNT Signaling Is Activated in Long-Term Reconstituting AC133bright Acute Myeloid Leukemia Cells.” Neoplasia, 2012.


BibTeX   Click to copy

@article{a2012a,
  title = {Regeneration-associated WNT signaling is activated in long-term reconstituting AC133bright acute myeloid leukemia cells.},
  year = {2012},
  journal = {Neoplasia},
  author = {Beghini, A. and Corlazzoli, F. and Giacco, L. Del and Ré, M. and Lazzaroni, F. and Brioschi, Matteo and Valentini, G. and Ferrazzi, F. and Ghilardi, A. and Righi, M. and Turrini, M. and Mignardi, Marco and Cesana, C. and Bronte, V. and Nilsson, M. and Morra, E. and Cairoli, R.}
}

Abstract

Acute myeloid leukemia (AML) is a genetically heterogeneous clonal disorder characterized by two molecularly distinct self-renewing leukemic stem cell (LSC) populations most closely related to normal progenitors and organized as a hierarchy. A requirement for WNT/β-catenin signaling in the pathogenesis of AML has recently been suggested by a mouse model. However, its relationship to a specific molecular function promoting retention of self-renewing leukemia-initiating cells (LICs) in human remains elusive. To identify transcriptional programs involved in the maintenance of a self-renewing state in LICs, we performed the expression profiling in normal (n = 10) and leukemic (n = 33) human long-term reconstituting AC133(+) cells, which represent an expanded cell population in most AML patients. This study reveals the ligand-dependent WNT pathway activation in AC133(bright) AML cells and shows a diffuse expression and release of WNT10B, a hematopoietic stem cell regenerative-associated molecule. The establishment of a primary AC133(+) AML cell culture (A46) demonstrated that leukemia cells synthesize and secrete WNT ligands, increasing the levels of dephosphorylated β-catenin in vivo. We tested the LSC functional activity in AC133(+) cells and found significant levels of engraftment upon transplantation of A46 cells into irradiated Rag2(-/-)γc(-/-) mice. Owing to the link between hematopoietic regeneration and developmental signaling, we transplanted A46 cells into developing zebrafish. This system revealed the formation of ectopic structures by activating dorsal organizer markers that act downstream of the WNT pathway. In conclusion, our findings suggest that AC133(bright) LSCs are promoted by misappropriating homeostatic WNT programs that control hematopoietic regeneration.


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