Project description:To identify the miRNAs that are differentially expressed and secreted between the MDA-MB-231 metastatic breast cancer cells and the MCF-10A non-cancerous human mammary epithelial cells, we profiled the cellular and exosomal small RNAs (between 17 and 52 nt) isolated from these two cell lines by Solexa deep sequencing. MiRNAs that are significantly different between the two cell lines are identified. RNA was extracted from cultured MDA-MB-231 and MCF-10A cells or purified exosomes secreted by these cells, and subjected to library construction and Solexa deep sequencing.
Project description:MicroRNAs (miRNAs), small (18–22 nucleotides) non-coding RNAs, suppress the translation of target mRNAs by binding to their 3′ untranslated region. Evidence suggests that miRNAs are key regulators of several cellular processes, including angiogenesis. Recent findings indicate that Secreted miRNAs enclosed in exosomes also play an important role in cell–cell communication. To elucidate whether miRNAs secreted from neoplastic cells transfer into endothelial cells and are functionally active in the recipient cells, we investigated the interaction of a leukemia cell line and human umbilical vein endothelial cells (HUVECs).
Project description:Although long thought to act cell autonomously, mutant KRAS colorectal cancer (CRC) cells release protein-laden exosomes that can alter the tumor microenvironment. We have previously shown that mutant KRAS induces EGFR-ligand trafficking to exosomes and drastically alters exosomal protein contents, leading to activities that contribute to neoplastic growth. We have performed small library RNAseq analysis on cells and matched exosomes from isogenic CRC cell lines differing only in KRAS status to determine whether mutant KRAS regulates the composition of secreted small RNAs. Exosomal small RNA profiles were distinct from cellular profiles, with principle component analysis showing clusters of mutant KRAS cell-derived exosomes distinct from wild type KRAS cell-derived exosomes. Secreted RNA species encompassed several different classes of small RNAs, including ribosomal and tRNA fragments, as well as mature miRNA sequences. miR-10b, was selectively increased in wild type KRAS-derived exosomes, whereas miR-100 was selectively increased in mutant KRAS-derived exosomes. Ceramide inhibition resulted in accumulation of miR-100 in mutant KRAS cells, suggesting KRAS-dependent miRNA export. In Transwell cell culture experiments, mutant, but not wild type, KRAS donor cells conferred miR-100-mediated target repression in wild type KRAS recipient cells miRNAseq deep sequencing for both cell and exosome mirnas of Dks-8, DLD-1, and DKO-1 cell lines. The DKs-8 line contains a wild type KRAS alleles, the DLD-1 line contains both wild type and mutant (G13D) KRAS alleles, and the DKO-1 line contains only a mutant KRAS allele.
Project description:MicroRNAs (miRNAs) are intrinsic regulators in the various cellular processes, and their abnormalities are considered to be involved in the onset of human disorders, including cancer. Circulating miRNA is focused as new cancer biomarker however it is regarded that circulating RNA are released not only from tumor but also by various pathways. Recently, exosomes, small membrane vesicles, have been a major interest in cancer research field, because of their unique biological properties. Exosomes are secreted from various cells and the components (Lipids, mRNAs, miRNAs and proteins) reflect origin of the cells secreting them. Identification of exosomal miRNAs from cancer cells is expected to provide useful biomarkers of cancer. To identify specific exosomal miRNAs as candidate biomarkers for colorectal cancer, we compared exosomal miRNA profiles of 5 colon cancer cell lines with that of normal colon-derived epithelial cells, and isolated a subset of miRNAs as commonly-secreted miRNAs from colon cancer cells Endogenously expression of microRNAs were analyzed by Agilent Human miRNA V3 Microarray (G4470C) using total RNA of three human colon cancer cell lines (HT-29 cells, SW48 cells, and RKO cells) at two independent experiments. Exosomal microRNAs were analyzed by microRNA microarray using total RNA of exosomes from conditioned media of three human colon cancer cell lines, HT-29 cells, SW48 cells, and RKO cells at three independent experiments. Exosomes were prepared by step-wise ultra-centrifugation methods. RNA was prepared by Trizol or Trizol-LS reagent (Invitrogen) and RNeasy mini spin column (Qiagen).
Project description:Exosomes are small extracellular vesicles released through fusion of multivesicular bodies with the plasma membrane. The aim of this study was to investigate whether there are any differences in miRNAs in exosomes secreted from the prostate cancer cell line PC-3 and in parent cells, as well as to investigate whether there are any differences in miRNAs in cell lysates from PC-3 cells and the non-cancerous prostate cell line RWPE-1. Exosomes isolated from media of PC-3 cells, RNA isolated from exosomes and parent cells, as well as from RWPE-1 cells. Using 3 biological replicates, 1 replicate per array
Project description:Although long thought to act cell autonomously, mutant KRAS colorectal cancer (CRC) cells release protein-laden exosomes that can alter the tumor microenvironment. We have previously shown that mutant KRAS induces EGFR-ligand trafficking to exosomes and drastically alters exosomal protein contents, leading to activities that contribute to neoplastic growth. We have performed small library RNAseq analysis on cells and matched exosomes from isogenic CRC cell lines differing only in KRAS status to determine whether mutant KRAS regulates the composition of secreted small RNAs. Exosomal small RNA profiles were distinct from cellular profiles, with principle component analysis showing clusters of mutant KRAS cell-derived exosomes distinct from wild type KRAS cell-derived exosomes. Secreted RNA species encompassed several different classes of small RNAs, including ribosomal and tRNA fragments, as well as mature miRNA sequences. miR-10b, was selectively increased in wild type KRAS-derived exosomes, whereas miR-100 was selectively increased in mutant KRAS-derived exosomes. Ceramide inhibition resulted in accumulation of miR-100 in mutant KRAS cells, suggesting KRAS-dependent miRNA export. In Transwell cell culture experiments, mutant, but not wild type, KRAS donor cells conferred miR-100-mediated target repression in wild type KRAS recipient cells
Project description:Breast milk is a complex liquid that enriched in immunological components and affect the development of the infant immune system. Exosomes, the membranous vesicles of endocytic origin, are ubiquitously in various body fluids which can mediate intercellular communication. MicroRNAs (miRNAs), a well-defined group of non-coding small RNAs, in human breast milk are packaged inside exosomes. Here, we present the identification of miRNAs in human breast milk exosomes using deep sequencing technology. We found that the immune-related miRNAs are enriched in breast milk exosomes, and are resistant to the general harsh conditions. Four small RNA libraries in human breast milk exosomes from four healthy women (30 +/- 0.9 years old, primiparity) when the infant were aged at 60 days were sequenced.