Effects and Mechanisms of Homoharringtonine on Expression of CEBPA Protein

Abstract

To investigate the effect of homoharringtonine (HHT) on CEBPA protein and explore the mechanism of HHT in the treatment of acute myeloid leukemia (AML) with double CEBPA mutations. The K562 cell line expressing CEBPA p30 (K562 CEBPA p30) was established. Western blot was used to determine the changes of the expression of CEBPA protein in K562 CEBPA p30, U937 and MOLM-13 cell lines before and after treatments with HHT, daunorubicin (DNR) or cytarabine (Ara-C). The effects of protease inhibitors and protein synthesis inhibitors on the expression of CEBPA protein were also determined. RNA-seq was used to analyze the difference of gene expressions and pathway enrichments between HHT group and DNR group. Both the endogenous CEBPA protein in U937 and MOLM-13 cell lines and the exogenous CEBPA protein in K562 CEBPA p30 were decreased by HHT (P<0.05) while were not by DNR or Ara-C. Proteasome inhibitors can increase the expression of CEBPA protein (P<0.05) while protein synthesis inhibitors can decrease the expression of CEBPA protein (P<0.05). The ribosome biogenesis related pathways in K562 CEBPA p30 were upregulated in HHT group while were not in DNR group. HHT can inhibit the synthesis of CEBPA and reduce the expression of CEBPA protein and this may be the mechanism of HHT in the treatment of CEBPA-double-mutant AML.