Fanconi anemia (FA) is a congenital aplastic anemia, characterized as congenital bone marrow failure, developmental malformation, and the malignant tendency, which may develop into acute myeloid leukemia (AML). However, few studies have been conducted on the progression from FA to AML. In this study, we used proteomic profiling, together with bioinformatics analyses, to explore the molecular mechanisms by which FA progresses to AML. Quantitative proteomic analyses of bone marrow samples identified 168 differentially expressed proteins (DEPs), including 7 upregulated proteins and 161 downregulated proteins in the bone marrow of the FA patient compared with the healthy people. The upregulated proteins were enriched in response to stress, oxygen transport, and hydrogen peroxide catabolic process. The downregulated proteins were enriched in myeloid leukocyte mediated immunity, response to interleukin-12, platelet degranulation and regulation of ATPase activity. Based on these results, we discovered 155 DEPs (142 upregulated and 13 downregulated) in the bone marrow samples between FA and AML patients, of which HIST1H1D, HIST1H3A, PSME1 and THRAP3 may play important roles in the progression of FA to AML and may be used as markers for AML early diagnosis. Finally, cell-line based experiments confirmed that PSME1 had an important effect on the proliferation of leukemia cells.
Keywords: Fanconi anemia; acute myeloid leukemia; bone marrow samples.
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