Abstract
Systemic mastocytosis are rare neoplasms characterized by accumulation of mast cells in at least one internal organ. The majority of systemic mastocytosis patients carry KIT D816V mutation, which activates constitutively the KIT receptor. Patient with advanced forms of systemic mastocytosis, such as aggressive systemic mastocytosis or mast cell leukemia, are poorly treated to date. Unfortunately, the lack of in vivo models reflecting KIT D816V+ advanced disease hampers pathophysiological studies and preclinical development of new therapies for such patients. Here, we describe a new in vivo model of KIT D816V+ advanced systemic mastocytosis developed by transplantation of the human ROSAKIT D816V-Gluc mast cell line in NOD-SCID IL-2R g−/− mice, using Gaussia princeps luciferase as a reporter. Intravenous injection of ROSAKIT D816V-Gluc cells led, in 4 weeks, to engraftment in all injected primary recipient mice. Engrafted cells were found at high levels in bone marrow, and at lower levels in spleen, liver and peripheral blood. Disease progression was easily monitored by repeated quantification of Gaussia princeps luciferase activity in peripheral blood. This quantification evidenced a linear relationship between the number of cells injected and the neoplastic mast cell burden in mice. Interestingly, the secondary transplantation of ROSAKIT D816V-Gluc cells increased their engraftment capability. To conclude, this new in vivo model mimics at the best the features of human KIT D816V+ advanced systemic mastocytosis. In addition, it is a unique and convenient tool to study the kinetics of the disease and the potential in vivo activity of new drugs targeting neoplastic mast cells.
Highlights
Human mast cells (MCs) are non-circulating, tissue-resident cells derived from CD34+ hematopoietic stem cells in the bone marrow (BM) [1]
The transduction did not change the phenotypic characteristics of the cells, as evidenced by the similar morphology of ROSAKIT D816V and ROSAKIT D816V-Gaussia princeps luciferase (Gluc) cells when observed on cytospin preparation after May Grünwald Giemsa (MGG) staining (Figure 1C)
This level of phosphorylation was comparable in the two KIT D816V+ MC lines, and slightly higher in ROSAKIT WT cells stimulated by stem cell factor (SCF) (Figure 2B)
Summary
Human mast cells (MCs) are non-circulating, tissue-resident cells derived from CD34+ hematopoietic stem cells in the bone marrow (BM) [1]. MC and their progenitors express the receptor for stem cell factor (SCF), KIT (CD117), a transmembrane type III tyrosine kinase receptor (RTK) [3]. Mastocytosis are a heterogeneous group of diseases characterized by accumulation of abnormal (neoplastic) www.impactjournals.com/oncotarget. MCs in one or several organs, affecting both children and adults [6]. Most patients present with a systemic involvement (systemic mastocytosis; SM). According to the World Health Organization (WHO), SM is classified into four major categories. All categories of SM are characterized by an accumulation of abnormal MCs in BM and in other extra-cutaneous organs [9, 10]
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