Project description:Background: MiRNAs from body fluids gain more and more attraction as biomarker candidates. Besides serum, patterns from whole blood are increasingly considered as markers for human pathologies. Usually, the contribution of different cell types to the respective signature remains however unknown. In this study we provide insights into the human miRNome of different compounds of the blood including CD3, CD14, CD15, CD19, CD56 positive cells as well as exosomes. Methods: We measured the miRNA repertoire for each cell type and whole blood for two individuals at three time points over the course of one year in order to provide evidence that the cell type miRNomes can be reproducibly detected. Results: For measurements repeated after 24 hours we found on average correlation of 0.97, even after one year profiles still correlated with 0.96, demonstrating the enormous stability of the cell type specific miRNomes. Highest correlation was found for CD15 positive cells, exceeding Pearson correlation of 0.99. For exosomes a significantly higher variability of miRNA expression was detected. In order to estimate the complexity and variability of the cell type specific miRNomes, we generated profiles for all considered cell types in a total of seven unaffected individuals. While CD15 positive cells showed the most complex miRNome consisting of 328 miRNAs, we detected significantly less miRNAs (186, p = 1.5*10-5) in CD19 positive cells. Moreover, our analysis showed functional enrichment in many relevant categories such as onco-miRNAs and tumor miRNA suppressors. Interestingly, exosomes were enriched just for onco-miRNAs but not for miRNA tumor suppressors. Conclusion: In sum, our results provide evidence that blood cell type specific miRNomes are very consistent between individuals and over time.

Project description:Recently, extra-cellular components, such as serum and exosome, attract more and more attention as biomarker candidates for mammalian health. However, the contribution of different blood components to the signature of respective microRNAs (miRNAs) remains unknown, especially in cattle. In this study we aimed to investigate the miRNAs from bovine sera and exosomes, and to provide insights into their future applications. Blood collected from four healthy dairy cows were used for this study. The sera and exosomes RNAs were extracted using two commonly used commercial kits (Norgen and Invitrogen total RNA isolation kit), respectively. Sera showed higher complexity of miRNome consisting of 328 miRNAs, while significantly less miRNAs (260, p = 0.001) were detected in exosomes. The profile of total detected miRNAs in sera and exosomes was different, while exosomes represented about 78% of total miRNAs expressed in sera, suggesting that exosomes are the major miRNAs carriers in bovine sera. There were 24 and 3 miRNAs (RPM > 5) that exclusively expressed in sera and exosomes, respectively. In addition, 12 miRNAs were differentially expressed between sera and exosomes (FDR < 0.05). Moreover, functional analysis showed that uniquely and highly expressed miRNAs in sera targeted functions of diseases and disorders, while the functions of those in exosomes were enriched in tissue development and lipid metabolism. Our results provide evidence that bovine sera and exosomes miRNomes are different with regarding to miRNA numbers, types and expressions. Based on their distinct profiles, miRNAs from sera and exosomes may reflect different aspects of physiological and pathological conditions in cattle. The functional analysis suggest that sera may be preferable for the purpose of detecting inflammation in cattle, while exosomes may be a better choice for monitoring the status of muscle development and lipid metabolism.

Project description:Bulk ATAC-Seq was performed on human cord-blood derived hematopoietis popuations using the following markers: LT-HSC; CD34+CD38-CD45RA-CD90+CD49f+ ST-HSC; CD34+CD38-CD45RA-CD90-CD49f- MLP; CD34+CD38-CD45RA+ CMP; CD34+CD38+ CD10-CD45RA-Flt3+CD71- GMP; CD34+CD38+ CD10-CD45RA+ CD71- MEP; CD34+CD38+ CD10-CD45RA-Flt3-CD71+ T cell; CD3+CD19- B cell; CD19+CD3- NK cell; CD56+CD3-CD19-CD14- Granulocyte; CD14+CD15+CD3-CD19- Monocyte; CD14+CD15-CD3-CD19- DC; CD11c+CD45+ Erythroid cell; CD71+GPA+

Project description:Most cancer-related deaths are caused by distant metastases, which are tumour cells that have escaped from a primary tumour and passed into the bloodstream to colonize a new organ. In this context, communication between tumour and stromal cells is essential. Indeed, tumor cells interact with cells in the tumor microenvironment and are able to modify them to their advantage. Both extracellular vesicles (EVs) and exosomes are heterogeneous populations of small vesicles present in the tumor microenvironment and in body fluids that have recently emerged as powerful mediators involved in this communication and their transport in fluids. Tumor cells release large quantities of exosomes containing tumor markers, which can then spread to distant locations. The exosomes are of endosomal origin. They are composed of proteins, lipids, RNA and DNA, and they circulate in the bloodstream. They can be internalized by specific distant cells and thus deliver a functional message. It has recently been shown that tumor exosomes containing pro-metastatic factors form pre-metastatic niches, before the tumor cells actually arrive, while determining the metastatic organotropism of tumors. These properties are now opening up new avenues of research in tumor biomarkers. In recent years, several studies have highlighted different markers contained specifically in exosomes derived from cancer cells. Consequently, exosomes are considered as potential reservoirs of tumor biomarkers that could be clinically useful for the non-invasive diagnosis of cancer, with the advantage of being performed by liquid biopsy. The study of microRNA (miRNA) is of particular interest. Indeed, miRNAs are small non-coding RNAs (between 21 and 25 nucleotides) involved in the regulation of gene expression and which are frequently deregulated in cancer. Several studies underline that the variation of free miRNAs in the blood is correlated with the progression of the disease, particularly in colon cancer. However, the stability of free miRNAs is controversial. Therefore, exosomes represent a very advantageous means of transporting miRNAs in the blood, as they are able to protect miRNAs from degradation by RNAase. The hypothesis of the project is that circulating exosomes derived from tumours contain markers including specific miRNAs that could be used as biomarkers of early prognosis (survival and progression), easily measured in blood samples from patients with colon cancer. But other molecules contained in exosomes could also be of interest.

Project description:Tobacco smoking alters DNA methylation profiles of immune cells which may underpin some of the pathogenesis of smoking-associated diseases. However, approaches linking smoking-driven epigenetic effects in specific immune cell types with disease risk are limited. We isolated six leukocyte subtypes, CD14+ monocytes, CD15+ granulocytes, CD19+ B cells, CD4+ T cells, CD8+ T cells, and CD56+ natural killer cells, from whole blood of healthy adult smokers and nonsmokers for epigenome-wide association study (EWAS).

Project description:An in-depth analysis of miRNomes in 3 human myeloid leukemia cell lines was carried out to comprehensively identify miRNAs that distinguish acute and chronic myeloid leukemias and relate to myeloid cell differentiation. Characterization the miRNomes in 3 myeloid leukemia cell lines.

Project description:we examined the effects of IL6 inhibition treatment on biologic molecular pathways in a 59 year old patient well diagnosed with RA with inadequate response to DMARD thus treated with tocilizumab. To assess the immunological outcome we used quantitative proteome analysis to evaluate changes in the proteome profile of different biologic pathways in leukocyte cell populations important to RA pathogenesis isolated by positive enrichment of CD14, CD4, CD8, CD19, and CD56.

Project description:We applied Illumina massively parallel signature sequencing to identify miRNomes in CD11c+Ia high and CD11c+Ia low cells.The miRNomes of these DC subsets will contribute to investigate the significance of miRNAs in DC immunobiology. Examination of miRNome in CD11c+Ia high and CD11c+Ia low cells . All two mouse cell types.

Project description:Exosomes are released by most cells to the extracellular environment, and are involved in cell-to-cell-communication. Exosomes contain specific repertoires of mRNAs, miRNAs and other non-coding RNAs that can be functionally transferred to recipient cells. However, the mechanisms that control the specific loading of RNA species into exosomes remain unknown. Here we describe short sequence motifs present in miRNAs that control their localization into exosomes. The protein hnRNPA2B1 specifically binds exosomal miRNAs through the recognition of these motifs and controls their loading into exosomes. Moreover, hnRNPA2B1 in exosomes is sumoylated, and sumoylation controls the binding of hnRNPA2B1 to miRNAs. The loading of miRNAs into exosomes can be modulated by mutagenesis of the identified motifs or changes in hnRNPA2B1 expression levels. These findings identify hnRNPA2B1 as a key player in miRNA sorting into exosomes and provide potential tools for the packaging of selected regulatory RNAs into exosomes and their use in biomedical applications.

Project description:Exosomes are small membrane bound cell-derived vesicles that are present in biological fluids include blood and cell culture medium. Exosomes contain various functional proteins, mRNAs and microRNAs (miRNAs). We used miRNA microarrays to detail the miRNA content in the GW627368-induced and PGE2-induced exosomes from non-adherent mammary epithelial cells (NAMECs).