Downregulation of HO-1 promoted apoptosis induced by decitabine via increasing p15 INK4B promoter demethylation in myelodysplastic syndrome

Abstract

Decitabine, which reverses hypermethylation of the p15 INK4B gene in vitro, has been used to relieve cytopenias and blast excess in over 50% of patients with high-risk myelodysplastic syndrome (MDS). In this study, heme oxygenase-1 (HO-1) was overexpressed in MDS cell line SKM-1, which was closely related to resistance to decitabine-induced apoptosis. We aimed to further investigate the role of HO-1 in apoptosis induced by low-dose decitabine in SKM-1 cells. Upregulation of HO-1 by transfecting it into SKM-1 cells with lentivirus vector promoted cell proliferation and protected them against apoptosis. In contrast, downregulation of HO-1 enhanced decitabine-induced apoptosis but reduced accumulation of the S phase in cell cycle. To explore the mechanism, the expressions of cell cycle-related proteins were detected after the cells were treated by decitabine in each group. p15 INK4B and CDK4 were overexpressed in SKM-1 cells in which HO-1 was inhibited, and the expression-depending apoptosis was related to the caspase-3 pathway. Even though HO-1 was silenced, the apoptotic rate never increased as the caspase-3 pathway was blocked. It is well known that p15 INK4B dominantly regulates the S phase of the cell cycle. p15 INK4B was herein demethylated more evidently in the group of SKM-1 cells in which HO-1 was downregulated, as well as in the mononuclear cells of patients suffering from MDS. In the case of poor prognosis, the mRNA level of HO-1 was raised. In conclusion, overexpression of HO-1 indicated resistance to demethylation of p15 INK4B induced by decitabine.