Background: Cell division cycle 25c (CDC25c) is a gene coding a phosphatase controlling entry into mitosis upon activation through Polo-like kinase 1 (PLK1) and serves as a key regulator of cell division. The CDC25c was reported to be dysregulated in some malignant diseases, but its role in myelofibrosis has not yet been elucidated.
Methods: We have retrospectively investigated CDC25c mRNA expression in bone marrow aspirates of 43 patients with myelofibrosis (28 primary [PMF] and 15 secondary myelofibrosis [SMF]) and 12 controls.
Results: CDC25c mRNA expression did not significantly differ between PMF, SMF and controls (median ∆CT 3.08 vs 2.86 vs 2.29 for PMF, SMF and controls, respectively; P = 0.162). Patients presenting with higher CDC25c mRNA expression were of older age (P = 0.037), had statistically significantly higher white-blood-cells (P = 0.017), larger liver size (P = 0.022), higher absolute neutrophil (P = 0.010), monocyte (P = 0.050), basophil (P = 0.012), and eosinophil counts (P = 0.013). Patients presenting with high CDC25c mRNA expression had statistically significantly inferior overall survival compared to low CDC25c expression group (HR = 2.99; P = 0.049). Median overall survival was not reached in patients with low and was 44 months in patients with high CDC25c expression.
Conclusion: Our data suggest that higher CDC25c expression is associated with more proliferative phenotype of myelofibrosis and is prognostic of worse survival. Future studies investigating these interesting associations are warranted.
Keywords: Cell cycle control; Mitosis; Myeloproliferative neoplasm; Polo-like kinase 1; Prognosis.
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