01) ( Fig  1Bii) It is unknown if the DEK expression profile we

01) ( Fig. 1Bii). It is unknown if the DEK expression profile we observed during human hematopoietic differentiation is similar to that of other species, such as mice; a commonly used model. The function of DEK in HSCs has previously been partially elucidated in murine models but the expression profile during murine hematopoietic AZD2281 ic50 differentiation has not been characterized. Thus an in silico analysis of murine hematopoietic stem cells and progenitors was carried out and compared to that of human hematopoiesis. Dek expression was found to increase from immature long term HSCs (LT-HSCs), reaching a peak at the common progenitor stage namely the granulocyte monocyte progenitor (GMP) before diminishing below its initial

expression levels in the mature, Etoposide terminally differentiated cells (Supplementary Fig. 1A & B). This was in contrast to normal human hematopoiesis, which displayed a decline with no peak in expression at the common progenitor stage. In the myeloid lineages there was a steady incline

of Dek expression in common myeloid cells during normal murine hematopoiesis, with a three-fold increase in Dek expression at the GMP cell stage relative to HSCs (p < 0.001). However, compared to the LT-HSCs, Dek expression dropped to a three and two-fold lower level in mature granulocytes and monocytes respectively, (Supplementary Fig. 1Bi and ii). Comparison of DEK levels in mature myeloid cells indicated a small difference of 1.5-fold between granulocytes and monocytes, with granulocytes exhibiting higher DEK expression (Supplementary Fig. 1Bii). Analysis

of DEK expression at different stages during myeloid differentiation in human and murine cells revealed significant differences at the GMP and granulocyte stages, while levels in monocytes were similar ( Fig. 1C). To determine if the expression of DEK in AML was aberrant compared to normal hematopoietic differentiation, DEK levels in un-fractionated bone marrow derived from 542 AML patients and 74 normal controls were analyzed using the MILE study. A lower, yet not significant, DEK expression across all AML subgroups combined was seen as compared to NBM (Fig. 2A). Since a previous study had already indicated that the APL subgroup of AML exhibited acetylcholine lower DEK expression, the MILE data was further categorized into different AML subtypes, as available, and DEK expression re-analyzed. As observed in the unsorted AML cases, elevated DEK expression was not found in any of the AML subtypes as compared to NBM(Fig. 2Bi). In contrast, all subtypes including 11q23 translocations, normal and other cytogenetics as well as those with balanced recurrent translocations of t(8;21), and t(15;17) displayed significantly reduced DEK expression compared to NBM (p < 0.005) with the exception of inv(16) ( Fig. 2Bi & Table 1). These findings were further confirmed in a second AML dataset [33], which showed similarly reduced DEK expression levels across all AML subtypes as compared to those in the MILE dataset ( Fig.

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