PML-RARA can increase hematopoietic self-renewal without causing a myeloproliferative disease in mice
John S. Welch, Wenlin Yuan, Timothy J. Ley
John S. Welch, Wenlin Yuan, Timothy J. Ley
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Research Article Oncology

PML-RARA can increase hematopoietic self-renewal without causing a myeloproliferative disease in mice

Abstract

Acute promyelocytic leukemia (APL) is characterized by the t(15;17) translocation that generates the fusion protein promyelocytic leukemia–retinoic acid receptor α (PML-RARA) in nearly all cases. Multiple prior mouse models of APL constitutively express PML-RARA from a variety of non-Pml loci. Typically, all animals develop a myeloproliferative disease, followed by leukemia in a subset of animals after a long latent period. In contrast, human APL is not associated with an antecedent stage of myeloproliferation. To address this discrepancy, we have generated a system whereby PML-RARA expression is somatically acquired from the mouse Pml locus in the context of Pml haploinsufficiency. We found that physiologic PML-RARA expression was sufficient to direct a hematopoietic progenitor self-renewal program in vitro and in vivo. However, this expansion was not associated with evidence of myeloproliferation, more accurately reflecting the clinical presentation of human APL. Thus, at physiologic doses, PML-RARA primarily acts to increase hematopoietic progenitor self-renewal, expanding a population of cells that are susceptible to acquiring secondary mutations that cause progression to leukemia. This mouse model provides a platform for more accurately dissecting the early events in APL pathogenesis.

Authors

John S. Welch, Wenlin Yuan, Timothy J. Ley

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Figure 5

Rare leukemia in LysM-Cre × mPML-PRflox mice.

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Rare leukemia in LysM-Cre × mPML-PRflox mice. (A) A tumor watch of LysM-...
(A) A tumor watch of LysM-Cre+/– × mPML-PRflox+/– mice (n = 54) resulted in leukemic mouse (mouse 6317, founder line 51) with 90% and 95% peripheral blood and spleen mPML-fPR alleles, respectively. Nonleukemic mice were evaluated at 18 months and showed little evidence of expanded mPML-fPR alleles in either peripheral blood or spleen. (B) Spleen cell cytomorphology from mouse 6317, stained with Wright-Giemsa (original magnification, ×1,000). (CE) Spleen cells from mouse 6317 were transplanted into nonirradiated B6 mice (n = 5). In 6 weeks all mice were moribund, with (C) elevated white blood cell counts and (D) splenomegaly. (E) qPCR evaluation of the spleen cells in moribund secondary recipients revealed 100% mPML-fPR. (F and G) Analysis of LysM-Cre+/– × mPML-PRflox+/– mice and littermate controls at 18 months revealed normal (F) white blood cell and (G) spleen sizes, with rare evidence of splenomegaly in LysM-Cre+/– mice, regardless of mPML-PRflox genotype. Data points represent results from individual mice. Horizontal bars are the median value.