Abstract
BackgroundCurrently, cytogenetic and genetic markers are the most important for risk stratification and treatment of patients with acute myeloid leukemia (AML). Despite the identification of many prognostic factors, relatively few have made their way into clinical practice. Therefore, the identification of new AML biomarkers is useful in the prognosis and monitoring of AML and contributes to a better understanding of the molecular basis of the disease. Homeobox (HOX) genes are transcription factors that lead to cell differentiation blockade and malignant self-renewal. However, the roles of HOX genes in AML are still not fully understood and need further exploration, which may provide new strategies for the prognosis and monitoring of AML.MethodsWe analyzed the RNA sequencing and clinical data from The Cancer Genome Atlas (TCGA), VIZOME, GSE13159, and GSE9476 cohorts. Analyses were performed with GraphPad 7, the R language, and several online databases. We applied quantitative polymerase chain reaction, Western Blotting, CCK8 cell proliferation assays, and flow cytometry to verify the conclusions of the bioinformatics analysis.ResultsWe identified HOXB5 as the only gene among the HOX family that was not only elevated in AML but also a significant prognostic marker in AML patients. HOXB5 was highly expressed in AML patients with NPM1, FLT3, or DNMT3A mutations and was expressed at the highest level in patients with NPM1-FLT3-DNMT3A triple-mutant AML. Gene Ontology analysis and gene set enrichment analysis revealed that HOXB5 showed a negative correlation with the myeloid cell differentiation signature and that the tumor necrosis factor/nuclear factor κB signaling pathway was involved in the molecular mechanism. Moreover, we performed in silico protein–protein interaction analysis and 450K TCGA DNA methylation data analysis and found that HOXB5 interacted with two HOX genes (HOXA7 and HOXB4) that were commonly regulated by DNA methylation levels.ConclusionHOXB5 is associated with the malignant development of AML and may be a treatment target and biomarker for AML prognosis prediction.
Highlights
Acute myeloid leukemia (AML) is a hematopoietic neoplasm characterized by clonal proliferation and differentiation blockade and inhibited apoptosis of malignant stem or progenitor cells (Alharbi et al, 2013; Chen et al, 2019; Nagy et al, 2019; MacPherson et al, 2020)
The results showed that high expression levels of most HOXA and HOXB family members indicated poor prognosis in AML
We estimated the overall survival (OS) of AML patients stratified according to the expression of the four HOX genes with the log-rank test by employing the The Cancer Genome Atlas (TCGA) and VIZOME (Tyner et al, 2018) databases
Summary
Acute myeloid leukemia (AML) is a hematopoietic neoplasm characterized by clonal proliferation and differentiation blockade and inhibited apoptosis of malignant stem or progenitor cells (Alharbi et al, 2013; Chen et al, 2019; Nagy et al, 2019; MacPherson et al, 2020). Cytogenetic risk is estimated according to chromosomal structural variations and is commonly used to predict the likelihood of CR and relapse, as well as overall survival (OS) (Alharbi et al, 2013; Nagy et al, 2019). The roles of HOX genes in AML are still not fully understood and need further exploration, which may provide new strategies for the prognosis and monitoring of AML
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