Project description:The aim of this study was to gain insight into the potential mechanism of resistance to arsenic trioxide (ATO). The gene expression profile of naive (NB4) (Acute promyelocytic leukemia (APL) cell line and one of its in house generated ATO resistant sub clone (NB4-VM-AsR1) was done using whole genome microarray and compared to generate the differential expression profile which will give insight into the mechanisms of ATO resistance in APL. Agilent one-color experiment,Organism: Human ,Agilent Whole Genome Human 4x44k (AMADID: 014850) , Labeling kit: Agilent Quick-Amp labeling Kit (p/n5190-0442) naive versus arsenic trioxide resistant acute promyelocytic leukemia cell line NB4
Project description:The aim of this study was to gain insight into the potential mechanism of resistance to arsenic trioxide (ATO). The gene expression profile of naive (NB4) (Acute promyelocytic leukemia (APL) cell line and one of its in house generated ATO resistant sub clone (NB4-VM-AsR1) was done using whole genome microarray and compared to generate the differential expression profile which will give insight into the mechanisms of ATO resistance in APL.
Project description:To identify the top 20 up-regulated genes in NB4 TRIB3 shRNA cells in comparison with NB4 control shRNA cells, we examined the microarray gene expression profile of these groups above. Despite the fact that combined therapy of all-trans retinoic acid (ATRA) with arsenic trioxide (ATO) or chemotherapy dramatically improves the prognosis of patients with acute promyelocytic leukemia (APL), these regimens can cause systemic infections and secondary leukemias. Here we report that expression of the pseudokinase Tribble 3 (TRIB3) associates positively with APL progression and therapeutic resistance. The elevated TRIB3 expression promotes APL by interacting with PML-RARa and suppressing its sumoylation, ubiquitylation and degradation. This represses PML nuclear body assembly, p53-mediated senescence, cell differentiation, and supports cellular self-renewal. Genetically inhibiting Trib3 expression or disturbing the TRIB3/PML-RARa interaction produces potent therapeutic efficacy against APL and has synergic anti-APL effects when used in combination with ATRA or ATO by promoting PML-RARa degradation and PML expression. Our study provides new insight into APL pathogenesis and a new therapeutic option against APL.
Project description:Previous and our results show that cells with mutant p53 are more sensitive to arsenic trioxide (ATO) induced cell growth inhibition. To explore the underling mechanisms, we conduct a detailed analysis of the globe transcriptional profiles of ATO regulated genes in breast, colon and lung cancer cells with different p53 status. We find p53 wild type cells are resistant to ATO induced globe dynamic transcriptional changes, thus resistant to ATO induced cell growth inhibition. P53 inhibitor PFTα releases p53 mediated transcriptional resistance and increases the sensitivity of ATO in p53 wild type tumor cells.
Project description:To identify the top 20 up-regulated genes in CD34+ cells from AML patients in comparison with healthy donors, we examined the microarray gene expression profile of CD34+ blasts from patients with newly diagnosed AML vs CD34+ normal cells from healthy donors. Despite the fact that combined therapy of all-trans retinoic acid (ATRA) with arsenic trioxide (ATO) or chemotherapy dramatically improves the prognosis of patients with APL, these regimens can cause systemic infections and secondary leukemias. Here we report that expression of the pseudokinase Tribble 3 (TRIB3) associates positively with APL progression and therapeutic resistance. The elevated TRIB3 expression promotes APL by interacting with PML-RARa and suppressing its sumoylation, ubiquitylation and degradation. This represses PML nuclear body assembly, p53-mediated senescence, cell differentiation, and supports cellular self-renewal. Genetically inhibiting Trib3 expression or disturbing the TRIB3/PML-RARa interaction produces potent therapeutic efficacy against APL and has synergic anti-APL effects when used in combination with ATRA or ATO by promoting PML-RARa degradation and PML expression. Our study provides new insight into APL pathogenesis and a new therapeutic option against APL.
Project description:A microarray study of altered gene expression in acute myeloid leukemia cell lines Experiment Overall Design: Two highly Ara-C resistant cell lines, B117H and B140H were derived from Ara-C sensitive parental cell lines, B117P and B140P. Variations in gene expression between these resistant/sensitive sets were studied
Project description:Using two independently derived murine BXH2 cell lines, Ara-C resistant derivatives were developed by exposure to increasing concentrations of Ara-C. Microarray analysis comparing the Ara-C resistant cells to their Ara-C sensitive parental cell lines identified potential genes involved in Ara-C resistance. Two highly Ara-C-resistant cell lines, B117H and B140H, were derived from Ara-C-sensitive parental cell lines, B117P and B140P. Variations in gene expression between these Ara-C-resistant and -sensitive sets were studied. Three replicates per cell line.