Abstract

Abstract 45Fetal hematopoietic stem cells (HSCs) in mice differ from their adult counterparts in a number of key properties. These include a higher cycling activity, an ability to more rapidly reconstitute the HSC compartment of irradiated recipient mice, a higher output of myeloid as compared to lymphoid progeny, and a greater sensitivity to the self-renewal promoting activity of Steel factor. We have previously shown that most of these features of fetal HSCs are sustained until 3 weeks after birth at which time they are rapidly (within 1 week), completely and permanently replaced with the corresponding properties of adult HSCs. A candidate regulator of this transition, Hmga2, was identified based on its greater expression in highly purified fetal versus adult HSCs (CD45+EPCR+CD48−CD150+; E-SLAM cells) with persistence of this difference in the matching lineage-negative (lin−) compartments. Experiments in which Hmga2 was overexpressed by lentiviral transduction of purified adult HSCs which were then transplanted into irradiated mice provided evidence that this chromatin remodeling factor can activate a fetal-like HSC program in these cells; i.e., more rapidly reconstitute the HSC compartment (increased self-renewal response) and produce clones with a higher proportion of myeloid cells. Based on the known ability of the let-7 family of microRNAs (miRNAs) to target Hmga2 transcripts resulting in their degradation and/or translational repression, we next hypothesized that let-7 miRNAs might be involved in controlling HSC developmental programs. A comparison of the levels of expression of 6 members of the let-7 family in purified fetal and adult HSCs, as well as in lin− hematopoietic cells, showed that transcripts for all of these are higher in the adult subsets, although this difference was significant only for let-7b (p<0.05). Since Lin28 is a natural inhibitor of let-7 miRNA biogenesis we proposed that overexpression of this protein might be used to simultaneously inhibit all let-7 miRNA species and therefore modulate let-7-mediated effects in HSCs. Transduction of BA/F3 cells with a Lin28-YFP lentiviral vector led to an elevated expression of Lin28 and a significant decrease in multiple let-7 miRNAs. To investigate the influence of Lin28 overexpression on adult HSC self-renewal activity in vivo, we used the same Lin28 lentiviral vector (or a control YFP vector) to transduce highly purified HSCs (40 E-SLAM cells, i.e. ∼20 HSCs/group/experiment, 3 experiments) in a 3–4-hour exposure protocol and then transplanted all of the cells directly into irradiated mice (total of 3–4 mice/group). The number of HSCs regenerated 6 weeks later was subsequently measured by performing limiting-dilution transplants in secondary mice (total of 12–16 secondary mice/group/experiment). Interestingly, analysis of the secondary recipients showed that the Lin28-overexpressing adult HSCs had expanded in the primary recipients ∼6-fold more than the control-virus transduced HSCs (p<0.001). These findings support our thesis that alterations in let-7 miRNA levels play a key role in regulating the developmental switch from fetal to adult HSCs programs that occurs between 3 and 4 weeks after birth in mice. Disclosures:No relevant conflicts of interest to declare.

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