Abstract
To establish novel and effective treatment combinations for chronic myelomonocytic leukemia (CMML) preclinically, we hypothesized that supplementation of CMML cells with the human oncogene Meningioma 1 (MN1) promotes expansion and serial transplantability in mice, while maintaining the functional dependencies of these cells on their original genetic profile. Using lentiviral expression of MN1 for oncogenic supplementation and transplanting transduced primary mononuclear CMML cells into immunocompromised mice, we established three serially transplantable CMML-PDX models with disease-related gene mutations that recapitulate the disease in vivo. Ectopic MN1 expression was confirmed to enhance the proliferation of CMML cells, which otherwise did not engraft upon secondary transplantation. Furthermore, MN1-supplemented CMML cells were serially transplantable into recipient mice up to 5 generations. This robust engraftment enabled an in vivo RNA interference screening targeting CMML-related mutated genes including NRAS, confirming that their functional relevance is preserved in the presence of MN1. The novel combination treatment with azacitidine and the MEK-inhibitor trametinib additively inhibited ERK-phosphorylation and thus depleted the signal from mutated NRAS. The combination treatment significantly prolonged survival of CMML mice compared to single-agent treatment. Thus, we identified the combination of azacitidine and trametinib as an effective treatment in NRAS-mutated CMML and propose its clinical development.
Highlights
Supplementary information The online version of this article contains supplementary material, which is available to authorized users.Chronic myelomonocytic leukemia (CMML) is classified as a hematologic malignancy with myeloproliferative and myelodysplastic features [1] that is diagnosed in approximately 1000 patients per year in the United States [2, 3]
We evaluated the ability of oncogenic supplementation of patient chronic myelomonocytic leukemia (CMML) cells with the oncogene Meningioma 1 (MN1) to enhance robust engraftment of CMML in vivo and enable serial transplantation [27, 28]
We developed patient-derived CMML models that recapitulate the disease in vivo and allowed us to demonstrate that 1) ectopic MN1 expression enhances the engraftment and proliferation of cells that otherwise do not engraft in mice, 2) the functional relevance of CMML-related gene mutations is preserved in the presence of MN1, 3) MEK/ERK signaling is important for in vivo proliferation of CMML cells, 4) the serial transplantability of the MN1-CMML cells enables functional RNAi screening in vivo and 5) the combination of azacitidine with trametinib is an effective combination treatment in CMML#1-MN1 cells in vivo and primary CMML cells in vitro
Summary
The prognosis varies by risk group and reaches from a median survival of 8 years in the favorable risk group to 16 months in the unfavorable risk group [4]. Treatment options are limited in CMML and include observation, cytoreduction with hydroxyurea, treatment with hypomethylating agents azacitidine or decitabine and allogeneic hematopoietic cell transplantation (alloHCT) in eligible patients. AlloHCT has a curative intent and resulted in a 3-year overall survival of 31% in single-center experience [12]. A matched-pair analysis of CMML patients treated with azacitidine (n = 22) compared to patients treated with hydroxyurea (n = 22) resulted in similar median overall survival (7.5 vs 6.2 months, respectively (p = 0.251) and the benefit of hypomethylating agents over hydroxyurea is unclear [13]
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