Program: Oral and Poster Abstracts
Session: 602. Disordered Gene Expression in Hematologic Malignancy, including Disordered Epigenetic Regulation: Poster II
Methods: We conducted miR array profiling to identify differentially expressed miRs in the mouse Pten deficient T-ALLs compared with preneoplastic thymocyte controls. We validated expression levels of several miRs, including miR-26b, that are differentially expressed in mouse and human T-ALL cells using quantitative RT-PCR. We also overexpressed miR-26b using a lentivirus based vector in human T-ALL cell lines to assess its effect on cell growth and apoptosis.
Results: Employing miR array profiling, we identified a subset of miRs that exhibited marked altered expression in the mouse Pten deficient T-ALL cells. Quantitative RT-PCR validated that the expression level of miR-26b in the mouse Pten deficient T-ALL cells was markedly lower in comparison to that of preneoplastic thymocytes. To determine if miR-26b expression level is also altered in human T-ALL, we performed quantitative RT-PCR on a panel of human T-ALL cell lines. Indeed, the expression level of miR-26b is significantly lower in the human T-ALL cell lines when compared with that of normal thymocytes. To functionally assess if miR-26b plays a role in the cell growth of human T-ALL cells, we expressed exogenous miR-26b in a panel of human T-ALL cell lines. We demonstrated that the expression of exogenous miR-26b significantly reduced the proliferation and promoted apoptosis of several human T-ALL cell lines.
Conclusions: Our results demonstrated that miR-26b is down-regulated in T-ALL and the expression of exogenous miR-26b elicits deceased cell proliferation and increased apoptosis of human T-ALL. These results suggest that miR-26b may function as a tumor suppressor in the development of T-ALL and further characterization of the target and regulation of miR-26b may have therapeutic implications.
Disclosures: No relevant conflicts of interest to declare.
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