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  • Title: [Growth inhibition and differentiation of imatinib-resistant chronic myeloid leukemia cell induced by cell differentiation agent in vitro].
    Author: Wang XD, Qiu L, Lu RZ, Chen LJ, Zhan ZM, Han BH, Zhang BL, Ma J.
    Journal: Zhonghua Yi Xue Za Zhi; 2007 Dec 25; 87(48):3399-405. PubMed ID: 18476538.
    Abstract:
    OBJECTIVE: To investigate the effects of uroacitide (CDA-2), a cell differentiation agent, on the growth inhibition and differentiation of imatinib-(IM) resistant chronic myeloid leukemia (CML) cells. METHODS: IM resistant CML cell line K562R was established from the line K562. K562 and K562R CML cells were cultured with CDA-2 of different concentrations. MTI method was used to detect the survival rates. Bone marrow cells of IM-resistant and non-IM-resistant CML patients were collected and co-incubated with K562 and K562R cells. MTT and colony-forming assays were used to evaluate the efficacy of CDA-2 treatment for cell growth in K562 and K562R cell lines, and IM-resistant or non-IM-resistant bone marrow cells of the CML patients; Annexin-V staining was employed to detect the apoptosis. Cell differentiation was assessed by flow cytometry analysis with CD11b/CD14 markers, reverse transcriptase PCR (RT-PCR) for mRNA levels of NCF-1 and ORM-1 genes and Giemsa staining for the observation in morphology. Cell cycle distribution was detected by stained with propidium iodide and then analyzed by flow cytometer. RT-PCR also was employed for the expression of DNA methyltransferase. RESULTS: Significant cell growth inhibition was found at a dose-dependent manner in the IM-resistant K562R cell line and IM-resistant bone marrow cells of the CML patients compared with the non-resistant K562 cell line and bone marrow cells of the CML patients following 7 days exposure to CDA-2. Although CDA-2 could significantly induce the apoptosis of K562R (15.38%) compared with K562 (5.28%) (P < 0.05), the major reason for the cell growth inhibition of K562R is CDA-2-induced cell differentiation, including the increase of expression of differentiation-related antigens CD11b/CD14, mRNA expression of NCF-1 and ORM-1, and cell cycle arrest in G1-phase at a dose-dependent manner. Because CDA-2 could significantly activate the p21 and p27 gene expression, downregulate the expression of cyclin D1, and down-regulate the expressions of DNMT1 and DNMT(3B) at mRNA level, CDA-2 might be a DNMT inhibitor for restoring some gene function that involved in cell cycle control by demethylation. CONCLUSION: Inhibiting the growth and inducing the differentiation of K562R cells, CDA-2 is very likely to be a potential agent for the treatment of IM resistance CML patients.
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