Project description:miR-142-3p is highly expressed in peripheral blood mononuclear cells (PBMCs) and has been described as a hematopoietic-restricted lineage, suggesting immune functions (Chen, Li et al. 2004; Landgraf, Rusu et al. 2007; Merkerova, Belickova et al. 2008). In order to determine the roles of miR-142-3p in B lymphocytes, we over-expressed this miRNA in the Raji B-cell line using a synthetic mimic of miR-142-3p and analyzed gene expression 24 hours after the transfection. Four replicates each of miR-142-3p-mimic transfection and apparied control mimic.

Project description:This study compares changes in gene expression induced by four interrelated miRNAs with similar but staggered 5'-ends: miR-142-3p, miR-142-3p-1, miR-K10a, and miR-K10a+1. miR-K10a and miR-K10a+1 are co-expressed by the Kaposi's sarcoma-associated herpesvirus.

Project description:hematopoiesis and myelopoiesis was tightly controled by microRNAs. In the zebrafish adult kidney, specific sets of genes were dysregulated in myelomonocytes or whole kidney marrow after deletion of miR-142-3p. microarrays were used to clarified the miR-142-3p regulatory network in myelopoiesis in miR-142-3p knockout zebrafish kidney and we identified distinct classes of up-regulated genes in zebrafish myelopoiesis or hematopoiesis after deletion of miR-142-3p.

Project description:miR-142-3p is highly expressed in peripheral blood mononuclear cells (PBMCs) and has been described as a hematopoietic-restricted lineage, suggesting immune functions (Chen, Li et al. 2004; Landgraf, Rusu et al. 2007; Merkerova, Belickova et al. 2008). In order to determine the roles of miR-142-3p in B lymphocytes, we over-expressed this miRNA in the Raji B-cell line using a synthetic mimic of miR-142-3p and analyzed gene expression 24 hours after the transfection.

Project description:This study compares changes in gene expression induced by four interrelated miRNAs with similar but staggered 5'-ends: miR-142-3p, miR-142-3p-1, miR-K10a, and miR-K10a+1. miR-K10a and miR-K10a+1 are co-expressed by the Kaposi's sarcoma-associated herpesvirus. Total RNA was harvested from HEK293 cells transfected with individual miRNAs including a negative control miRNA mimic.

Project description:hematopoiesis and myelopoiesis was tightly controled by microRNAs. In the zebrafish adult kidney, specific sets of genes were dysregulated in myelomonocytes or whole kidney marrow after deletion of miR-142-3p. microarrays were used to clarified the miR-142-3p regulatory network in myelopoiesis in miR-142-3p knockout zebrafish kidney and we identified distinct classes of up-regulated genes in zebrafish myelopoiesis or hematopoiesis after deletion of miR-142-3p. The myelomonocytes and whole kidney marrow (without erythrocytes) were sorted from wild-type or miR-142-3p double knockout zebrafish kidney at 60 dpf (four zebrafish kidneys and two independent repeats for each sample). Total RNA was extracted and hybridization on Affymetrix microarrays.

Project description:MicroRNAs (miRNAs, micro ribonucleic acids) are pivotal post-transcriptional regulators of gene expression. These endogenous small non-coding RNAs play significant roles in tumorigenesis and tumor progression. miR-142-3p expression is dysregulated in several breast cancer subtypes. We aimed at investigating the role of miR-142-3p in breast cancer cell invasiveness. Supported by transcriptomic Affymetrix array analysis and confirmatory investigations at the mRNA and protein level, we demonstrate that overexpression of miR-142-3p in MDA-MB-231, MDA-MB-468 and MCF-7 breast cancer cells leads to downregulation of WASL (Wiskott-Aldrichsyndrome-like, protein: N-WASP), Integrin-aV, RAC1, and CFL2, molecules implicated in cytoskeletal regulation and cell motility. ROCK2, IL6ST, KLF4, PGRMC2 and ADCY9 were identified as additional targets in a subset of cell lines. Decreased matrigel invasiveness was associated with the miR-142-3p-induced expression changes. Confocal immunofluorescence microscopy, nanoscale atomic force microscopy and digital holographic microscopy revealed a change in cell morphology as well as a reduced cell volume and size. A more cortical actin distribution and a loss of membrane protrusions were observed in cells overexpressing miR-142-3p. Luciferase activation assays confirmed direct miR-142-3p-dependent regulation of the 3'-untranslated region of ITGAV and WASL. siRNA-mediated depletion of ITGAV andWASL resulted in a significant reduction of cellular invasiveness, highlighting the contribution of these factors to the miRNA-dependent invasion phenotype. While knockdown of WASL significantly reduced the number of membrane protrusions compared to controls, knockdown of ITGAV resulted in a decreased cell volume, indicating differential contributions of these factors to the miR-142-3p-induced phenotype. Our data identify WASL, ITGAV and several additional cytoskeleton associated molecules as novel invasion-promoting targets of miR-142-3p in breast cancer.

Project description:To identify target genes of miR-142-5p and miR-130a-3p that are involved in M2 polarization, we examined the mRNA expression profile changes after altering miR-142-5p or miR-130a-3p expression in IL-4-treated macrophages.

Project description:MicroRNAs (miRNAs) are a class of endogenous non-coding RNAs of about 22 nt in length. Uveal melanoma is the most common intraocular malignant tumor in adults. Our previous result of microarray analysis showed that miR-142-3p was distinctly downregulated in uveal melanoma cells on which miR-142-3p was speculated to have important regulatory effect. In order to better understand the function of miR-142-3p in uveal melanoma and identify its gene targets, we performed transcriptomic microarray analysis. This was done by comparing gene expression profile changes in uveal melanoma cells transfected with miR-142-3p with that transfected with a negative control.

Project description:MiR-142 is dynamically expressed and plays a regulatory role in hematopoiesis. Based on the simple observation that miR-142 levels are significantly lower in CD34+CD38- cells from blast crisis (BC) chronic myeloid leukemia (CML). CML patients compared with chronic phase (CP) CML patients (p=0.002), we hypothesized that miR-142 deficit plays a role in BC transformation. To test this hypothesis, we generated a miR-142 KO BCR-ABL (i.e., miR-142−/−BCR-ABL) mouse by crossing a miR-142−/− mouse with a miR-142+/+BCR-ABL mouse. While the miR-142+/+BCR-ABL mice developed and died of CP CML, the miR-142−/−BCR-ABL mice developed a BC-like phenotype in the absence of any other acquired gene mutations and died significantly sooner than miR-142+/+BCR-ABL CP controls (p=0.001). Leukemic stem cell (LSC)-enriched Lineage-Sca-1+c-Kit+ cells (LSKs) from diseased miR-142−/−BCR-ABL mice transplanted into congenic recipients, recapitulated the BC features thereby suggesting stable transformation of CP-LSCs into BC-LSCs in the miR-142 KO CML mouse. Single cell (sc) RNA-seq profiling showed that miR-142 deficit changed the cellular landscape of the miR-142−/−BCR-ABL LSKs compared with miR-142+/+BCR-ABL LSKs with expansion of myeloid-primed and loss of lymphoid-primed factions. Bulk RNA-seq analyses along with unbiased metabolomic profiling and functional metabolic assays demonstrated enhanced fatty acid β-oxidation (FAO) and oxidative phosphorylation (OxPhos) in miR-142−/−BCR-ABL LSKs vs miR-142+/+BCR-ABL LSKs. MiR-142 deficit enhanced FAO in miR-142−/−BCR-ABL LSKs by increasing the expression of CPT1A and CPT1B, that controls the cytosol-to-mitochondrial acyl-carnitine transport, a critical step in FAO. MiR-142 deficit also enhanced OxPhos in miR-142−/−BCR-ABL LSKs by increasing mitochondrial fusion and activity. As the homeostasis and activity of LSCs depend on higher levels of these oxidative metabolism processes, we then postulate that miR-142 deficit is a potentially druggable target for BC-LSCs. To this end, we developed a novel CpG-miR-142 mimic oligonucleotide (ODN; i.e., CpG-M-miR-142) that corrected the miR-142 deficit and alone or in combination with a tyrosine kinase inhibitor (TKI) significantly reduced LSC burden and prolonged survival of miR-142−/−BCR-ABL mice. The results from murine models were validated in BC CD34+CD38- primary blasts and patient-derived xenografts (PDXs). In conclusion, an acquired miR-142 deficit sufficed in transforming CP-LSCs into BC-LSCs, via enhancement of bioenergetic oxidative metabolism in absence of any additional gene mutations, and likely represent a novel therapeutic target in BC CML.