β-Arrestin2 mediates progression of murine primary myelofibrosis
Lindsay A.M. Rein, James W. Wisler, Jihee Kim, Barbara Theriot, LiYin Huang, Trevor Price, Haeyoon Yang, Minyong Chen, Wei Chen, Dorothy Sipkins, Yuri Fedoriw, Julia K.L. Walker, Richard T. Premont, Robert J. Lefkowitz
Lindsay A.M. Rein, James W. Wisler, Jihee Kim, Barbara Theriot, LiYin Huang, Trevor Price, Haeyoon Yang, Minyong Chen, Wei Chen, Dorothy Sipkins, Yuri Fedoriw, Julia K.L. Walker, Richard T. Premont, Robert J. Lefkowitz
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Research Article Hematology Oncology

β-Arrestin2 mediates progression of murine primary myelofibrosis

Abstract

Primary myelofibrosis is a myeloproliferative neoplasm associated with significant morbidity and mortality, for which effective therapies are lacking. β-Arrestins are multifunctional adaptor proteins involved in developmental signaling pathways. One isoform, β-arrestin2 (βarr2), has been implicated in initiation and progression of chronic myeloid leukemia, another myeloproliferative neoplasm closely related to primary myelofibrosis. Accordingly, we investigated the relationship between βarr2 and primary myelofibrosis. In a murine model of MPLW515L-mutant primary myelofibrosis, mice transplanted with donor βarr2-knockout (βarr2–/–) hematopoietic stem cells infected with MPL-mutant retrovirus did not develop myelofibrosis, whereas controls uniformly succumbed to disease. Although transplanted βarr2–/– cells homed properly to marrow, they did not repopulate long-term due to increased apoptosis and decreased self-renewal of βarr2–/– cells. In order to assess the effect of acute loss of βarr2 in established primary myelofibrosis in vivo, we utilized a tamoxifen-induced Cre-conditional βarr2-knockout mouse. Mice that received Cre (+) donor cells and developed myelofibrosis had significantly improved survival compared with controls. These data indicate that lack of antiapoptotic βarr2 mediates marrow failure of murine hematopoietic stem cells overexpressing MPLW515L. They also indicate that βarr2 is necessary for progression of primary myelofibrosis, suggesting that it may serve as a novel therapeutic target in this disease.

Authors

Lindsay A.M. Rein, James W. Wisler, Jihee Kim, Barbara Theriot, LiYin Huang, Trevor Price, Haeyoon Yang, Minyong Chen, Wei Chen, Dorothy Sipkins, Yuri Fedoriw, Julia K.L. Walker, Richard T. Premont, Robert J. Lefkowitz

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Figure 5

Outcome measures for mice with MPLW515L-mutant primary myelofibrosis receiving β-arrestin2 conditional knockout donor cells.

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Outcome measures for mice with MPLW515L-mutant primary myelofibrosis rec...
A retroviral transduction system and cells from Cre (+) and Cre (–) mice were utilized to generate primary myelofibrosis (PMF). Mice received tamoxifen days 15–19 after transplant. (A) Representative Western blot of β-arrestin2 (βarr2) protein knockdown in flow-sorted GFP+ spleen cells 8 days after tamoxifen initiation. β-Arrestin1 (βarr1) expression was unchanged and βarr2 expression was lower in Cre (+) versus Cre (–) cells (1.38 ± 0.63 versus 52.3 ± 8.12, **P = 0.003, t test) (n = 3). (B) White blood cells (WBC) and platelets were higher at death in mice receiving Cre (–) cells versus pretamoxifen. Platelets were also higher at death in mice receiving Cre (–) versus Cre (+) cells. Hemoglobin was lower at death versus pretamoxifen in mice receiving Cre (+) or Cre (–) cells as well as at death in mice receiving Cre (+) versus Cre (–) cells. Donor chimerism was higher at death versus pretamoxifen in mice receiving Cre (–) cells as well as at death in mice receiving Cre (–) versus Cre (+) cells. One-way ANOVA was used for all analyses. **P < 0.01; ****P < 0.0001. (C) Tamoxifen-treated mice receiving Cre (+) cells had smaller spleen-to-body and liver-to-body ratios (****P < 0.0001, unpaired t test) versus Cre (–) controls. Cre (–), n = 34; Cre (+), n = 24. Red dots indicate mice with PMF. Gray dots represent mice without PMF.