Abstract
Here we have explored whether inhibition of autophagy can be used as a treatment strategy for acute myeloid leukemia (AML). Steady-state autophagy was measured in leukemic cell lines and primary human CD34+ AML cells with a large variability in basal autophagy between AMLs observed. The autophagy flux was higher in AMLs classified as poor risk, which are frequently associated with TP53 mutations (TP53mut), compared with favorable- and intermediate-risk AMLs. In addition, the higher flux was associated with a higher expression level of several autophagy genes, but was not affected by alterations in p53 expression by knocking down p53 or overexpression of wild-type p53 or p53R273H. AML CD34+ cells were more sensitive to the autophagy inhibitor hydroxychloroquine (HCQ) than normal bone marrow CD34+ cells. Similar, inhibition of autophagy by knockdown of ATG5 or ATG7 triggered apoptosis, which coincided with increased expression of p53. In contrast to wild-type p53 AML (TP53wt), HCQ treatment did not trigger a BAX and PUMA-dependent apoptotic response in AMLs harboring TP53mut. To further characterize autophagy in the leukemic stem cell-enriched cell fraction AML CD34+ cells were separated into ROSlow and ROShigh subfractions. The immature AML CD34+-enriched ROSlow cells maintained higher basal autophagy and showed reduced survival upon HCQ treatment compared with ROShigh cells. Finally, knockdown of ATG5 inhibits in vivo maintenance of AML CD34+ cells in NSG mice. These results indicate that targeting autophagy might provide new therapeutic options for treatment of AML since it affects the immature AML subfraction.
Highlights
We have explored whether inhibition of autophagy can be used as a treatment strategy for acute myeloid leukemia (AML)
AML CD34+ cells were susceptible for autophagy inhibition, which was demonstrated by in vitro and in vivo experiments
In vitro studies indicated that the subfraction of ROSlow AML CD34+ cells had the highest autophagic flux and were more susceptible to HCQ treatment when compared with
Summary
We have explored whether inhibition of autophagy can be used as a treatment strategy for acute myeloid leukemia (AML). The immature AML CD34+-enriched ROSlow cells maintained higher basal autophagy and showed reduced survival upon HCQ treatment compared with ROShigh cells. Knockdown of ATG5 inhibits in vivo maintenance of AML CD34+ cells in NSG mice These results indicate that targeting autophagy might provide new therapeutic options for treatment of AML since it affects the immature AML subfraction. HPSC homeostasis requires macroautophagy (here referred to as autophagy), which is an alternative cell survival program involved in degradation of redundant organelles and proteins.[6,7,8] Autophagic flux in normal HSPC is most prominent in the immature CD34+CD38− subfraction and declines in more differentiated myeloid cells.[9] Maintenance of an adequate level of autophagy is essential for HPSC homeostasis. Previous studies have shown that lentiviral knockdown of the essential autophagy genes ATG5 and ATG7 results in impaired engraftment of cord blood (CB) CD34+ cells in NSG mice.[9,10] In addition, ATG7null or ATG5null mice develop anemia and during long-term follow-up myelodysplasia.[11,12,13]
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