Project description:Here, we have screened a miRNA expression library in a pre-B cell expression system to identify miRNAs with a potential oncogenic activity in early lymphocytes. We show that miR-125b is sufficient to transform B cell precursors in vitro as defined by growth factor independence, and demonstrate that continuous expression of miR-125b is necessary to keep cells in the transformed cells. Mechanistically, we find that expression of miR-125b protects against apoptosis induced by growth factor withdrawal, and that miR-125 interferes with the differentiation of pre-B to immature B cells. In consequence, transformed cells express the pre-BCR on the cell surface, which appears to provide signals for ongoing proliferation and survival. Using microarray analysis, we identified several previously known and novel putative target genes of miR-125b in B cell precursors. To evaluate their contribution to the miR-125b-mediated phenotype, transformed cells were reconstituted with expression constructs of validated target genes. Surprisingly, we only find that reconstitution of MAP3K11 interferes with the cellular fitness of transformed cells in vitro as well as in vivo. This indicates that MAP3K11 functions as an important tumor suppressor in the context of miR-125b.

Project description:RNA sequencing technology has been carried out in order to evaluate mRNA expression changes after manipulation of miR-26a in both MCF-7 and MDA-MB-231 breast cancer cell lines. To evaluate the entire set of genes modulated by miR-26a in breast cancer, we performed RNA-seq after ectopic manipulation of this miRNA. We over-expressed miR-26a in MCF-7 epithelial cancer cell lines and also reduced its activity by stably transfecting MDA-MB-231 mesenchymal-like cancer cell lines with a specific sponge vector. GO terms and pathway enriched analysis of the transcripts that significantly change upon miR-26 ectopic manipulation implicates miR-26ab in cell cycle, apoptosis, cell spreading and cell adhesion in breast cancer

Project description:Here, we have screened a miRNA expression library in a pre-B cell expression system to identify miRNAs with a potential oncogenic activity in early lymphocytes. We show that miR-125b is sufficient to transform B cell precursors in vitro as defined by growth factor independence, and demonstrate that continuous expression of miR-125b is necessary to keep cells in the transformed cells. Mechanistically, we find that expression of miR-125b protects against apoptosis induced by growth factor withdrawal, and that miR-125 interferes with the differentiation of pre-B to immature B cells. In consequence, transformed cells express the pre-BCR on the cell surface, which appears to provide signals for ongoing proliferation and survival. Using microarray analysis, we identified several previously known and novel putative target genes of miR-125b in B cell precursors. To evaluate their contribution to the miR-125b-mediated phenotype, transformed cells were reconstituted with expression constructs of validated target genes. Surprisingly, we only find that reconstitution of MAP3K11 interferes with the cellular fitness of transformed cells in vitro as well as in vivo. This indicates that MAP3K11 functions as an important tumor suppressor in the context of miR-125b. Gene expression in cells expressing a control vector or a vector encoding hsa-miR-125b-1 was measured either in the presence or 24 hours after withdrawal of the growth factor IL-7. Two independent experiments were performed, using independently generated cell clones for each repetition.

Project description:Effects of miR-26a expression and miRNA-sponge-mediated miR-26 family knockdown on the transcriptome of B cell precursors

Project description:To reveal the potential regulation target genes of miR-26a and miR-23a/b clusters in articular chondrocytes, we performed a multi-omics analysis of LC-MSMS and RNA-seq using cultured chondrocytes samples, which were primarily isolated from 3-week-old wild-type, miR-26a -/- (with or without miR-26a mimic transfection afterwards) or miR-23a/b cluster flox/flox;Col2a1-cre mice. For LC-MSMS, protein from TRIZOL reagent was extracted, nanoLC-MSMS was performed. An expression list was made to further explore the regulation targets of miR-26a and miR-23a/b clusters.

Project description:Purpose: Fat storage in adult mammals is a highly regulated process that involves the mobilization of adipocyte progenitor cells (APCs) that differentiate to produce new adipocytes. Here we report an unexpected role for the broadly conserved miR-26 family of microRNAs (miR-26a-1, miR-26a-2, and miR-26b) as key regulators of APC differentiation. Global loss of miR-26 resulted in a dramatic expansion of adipose tissue in adult mice fed normal chow. Conversely, transgenic overexpression of miR-26a protected mice from high fat diet-induced obesity. These effects were attributable to a cell-autonomous function of miR-26 as a potent inhibitor of APC differentiation. miR-26 blocks adipogenesis, at least in part, by repressing expression of Fbxl19, a conserved miR-26 target without a previously known role in adipocyte biology that encodes a component of SCF-type E3 ubiquitin ligase complexes. These findings have therefore revealed a new pathway that plays a critical role in regulating adipose tissue formation in vivo and suggest new potential therapeutic targets for obesity and related disorders.

Project description:Through a series of mouse genetic studies, we concluded that miR-26 overexpression in intestinal epithelial cells inhibits tumor formation in Apcmin/+ mice. We isolated intestinal epithelial cells from M2rtTA and M2rtTA; eGFP.miR-26a to assess gene expression changes after the induction of miR-26a expression.

Project description:Through a series of mouse genetic studies, we concluded that miR-26 overexpression in intestinal epithelial cells inhibits tumor formation in Apcmin/+ mice. We isolated intestinal epithelial cells from M2rtTA and M2rtTA; eGFP.miR-26a to assess gene expression changes after the induction of miR-26a expression. Intestinal epithelial cells were isolated from three M2rtTA and three M2rtTA; eGFP.miR-26a mice after treatment with doxycycline for 10 days. Gene expression was profiled using Illumina microarrays.

Project description:A common experimental setup to investigate the function of a microRNA is a â??gain-of-functionâ?? approach, in which the microRNA of interest is overexpressed to analyze its impact on a given process. However, a major drawback of this technique is that microRNAs, when expressed significantly above endogenous levels, may target genes that are not affected under physiological conditions. To circumvent this problem, we have generated a retroviral microRNA-knockdown library encompassing the majority of the microRNA families expressed throughout lymphocyte development. MicroRNA knockdown is mediated by sponges, mRNAs that possess multiple binding sites for a certain microRNA family in their 3â??-UTR region. MiRNA sponges function as competitive inhibitors that sequester all specific microRNA/RISC complexes, thereby de-repressing the endogenous target genes. Using this library in pre-B cells as a model system, we have characterized all microRNAs expressed in early B cells development according to their impact on processes such as apoptosis and differentiation. In doing so, we show that functional knockdown of the known tumor-suppressive miR-15 family has only slight effects under cellular steady-state conditions. Upon withdrawal of the growth factor IL-7, however, loss of miR-15 function almost completely inhibits pre-B to immature B cell differentiation, partially protects from apoptosis and enables prolonged proliferation. In correspondence with that, knockdown of the miR-15 family confers a competitive advantage in suboptimal IL-7 concentrations, indicating that levels of miR-15 determine the sensitivity of cells towards growth factor receptor signaling. Moreover, IL-7 withdrawal seems to increase the activity of endogenous miR-15 family members in pre-B cells. Using microarray analysis, we have identified cyclin E1 as a direct and cyclin D3 as an indirect putative target gene of the miR-15 family in B cell precursors. Exogenous expression of cyclin E1 or cyclin D3 recapitulates the miR-15 loss-of-function phenotype in B cell precursors, validating their biological importance. Together, this suggests that the miR-15 family functions as a central element in a positive feedback loop that reinforces cell-cycle arrest at low growth factor concentrations, which is considered a prerequisite for light chain gene recombination and differentiation. Gene expression in cells expressing a scrambled sponge as a control vector or a sponge designed to sequester all members of the miR-15 family (miR-15a, miR-15b, miR-16, miR-497, miR-195, miR-322) was measured either in the presence or 36 hours after withdrawal of the growth factor IL-7. Two independent experiments were performed, using independently generated cell clones for each repetition.

Project description:To elucidate the dependence of B-ALL cells on PTEN we analysed the transcriptional changes upon inducible Pten KO in BCR-ABL1 transformed pre-B cells.