Worch Jennifer, Tickenbrock Lara, Schwäble Joachim, Steffen Björn, Cauvet Thomas, Mlody Barbara, Buerger Horst, Koeffler H Phillip, Berdel Wolfgang E, Serve Hubert, Müller-Tidow Carsten
Department of Medicine, Hematology and Oncology, University of Münster, Domagkstr. 3, 48129 Münster, Germany.
Oncogene. 2004 Dec 9;23(57):9162-72. doi: 10.1038/sj.onc.1208164.
Microarray analyses were performed to identify target genes that are shared by the acute myeloid leukemia (AML) translocation products PML-RARalpha, PLZF-RARalpha and AML1-ETO in inducibly transfected U937 cell lines. The cytoplasmic serine and threonine kinase MNK1 was identified as one of the target genes. At the protein level, MNK1 was significantly induced by each of the three fusion proteins. Protein half-life analyses showed that PML-RARalpha enhanced MNK1 protein stability in U937 cells and ATRA exposure decreased MNK1 half-life in NB4 cells. EIF4E, the main MNK1 substrate, plays a role in the pathogenesis of a variety of cancers. Upon MNK1 overexpression, eIF4E phosphorylation increased as a sign of functional activation. Interestingly, MNK1 protein expression decreased during myeloid differentiation. Inhibition of MNK1 activity by a specific inhibitor (CGP57380) enhanced differentiation of HL60 and 32D cells, further suggesting a role for MNK1 in the myeloid differentiation. In addition, kinase dead mutants of MNK1 significantly impaired proliferation of 32D cells. Immunohistochemistry of primary AML bone marrow biopsies showed strong cytoplasmic MNK1 expression in 25 of 99 AML specimens (25%). MNK1 expression was associated with high levels of c-myc expression. Taken together, we identified MNK1 as a target gene of several leukemogenic fusion proteins in AML. MNK1 plays a role in myeloid differentiation. These data suggest a role for MNK1 in the AML fusion protein-associated differentiation block.
进行基因芯片分析以鉴定在可诱导转染的U937细胞系中急性髓细胞白血病(AML)易位产物PML-RARα、PLZF-RARα和AML1-ETO共有的靶基因。细胞质丝氨酸和苏氨酸激酶MNK1被鉴定为靶基因之一。在蛋白质水平上,三种融合蛋白中的每一种都能显著诱导MNK1。蛋白质半衰期分析表明,PML-RARα增强了U937细胞中MNK1蛋白的稳定性,而全反式维甲酸(ATRA)处理则降低了NB4细胞中MNK1的半衰期。EIF4E是MNK1的主要底物,在多种癌症的发病机制中起作用。MNK1过表达时,eIF4E磷酸化增加,作为功能激活的标志。有趣的是,MNK1蛋白表达在髓系分化过程中下降。用特异性抑制剂(CGP57380)抑制MNK1活性可增强HL60和32D细胞的分化,进一步表明MNK1在髓系分化中起作用。此外,MNK1的激酶失活突变体显著损害32D细胞的增殖。原发性AML骨髓活检的免疫组织化学显示,99例AML标本中有25例(25%)的细胞质MNK1表达强烈。MNK1表达与高水平的c-myc表达相关。综上所述,我们将MNK1鉴定为AML中几种致白血病融合蛋白的靶基因。MNK1在髓系分化中起作用。这些数据表明MNK1在AML融合蛋白相关的分化阻滞中起作用。
