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:To compare the miRNA profiles in exosomes derived from optineurin gene knockdown (Optn-KD)BV2s cells and wild type (WT) BV2 cells, BV2 cells were divided into two groups, Optn-KD group or WT group. We treated the Optn-KD group with Optn siRNA for 24 hours. Then, MiRNA profiles for each group were examined by Illumina HiSeq4000. We found differentiated miRNA profiles in the two groups. Compared with WT BV2 cell-derived exosomes, 4 miRNAs (miR-125b-5p, miR-351-5p, miR-505-5p, miR-novel-chr8_37700) were up-regulated and 2 miRNAs (miR-574-5p, miR-99b-5p) were down-regulated in Optn-KD BV2 cell-derived exosomes. This study provides a framework for characterizing the exosomal-miRNAs in Optn-KD BV2 cells.

Project description:Exososmes, potent intercellular communicators, are supposed to contribute to metastasis formation, which we confirmed for exosomes of the metastatic rat pancreatic adenocarcinoma line BSp73ASML that promote metastatic settlement in lymph nodes and lung of poorly metastatic BSp73ASML cells with a selective CD44v4-v7 (BSp73ASML-CD44vkd) knockdown. To define the molecular pathway(s), whereby exosomes contribute to premetastatic niche preparation, we profiled mRNA miRNA of BSp73ASMLwt and BSp73ASML-CD44vkd- exosomes and evaluated the impact on potential target cells. BSp73ASML exosomes are recovered in the draining lymph node after subcutaneous injection. In vitro, they preferentially bind and are taken-up by lymph node stroma cells (LnStr) and lung fibroblasts (LuFb) that were chosen as exosome targets. BSp73ASMLwt and BSp73ASML-CD44kd exosomes contain a restricted repertoire of mRNA and miRNA, hwere the lattter differe significantly between the two lines and even more pronounced, exosomes derived thereof with a not yet explored dominance of tumor-suppressor miRNA in ASML-CD44kd cells and exosomes. Both, exosomal mRNA and miRNA are recovered in target cells and exosome-uptake is accompanied by significant changes in gene expression. We didn't observe a correlation between exosomal mRNA and changes in target cell mRNA or proteins. Instead transferred miRNA significantly affected target cell mRNA translation as demonstrated for selected, most abundant ASML exosomal miRNA besides others, miR-494 known target MAL (myelin and lymphocytes protein)/cadherin17, and miR-542-3p which targets TRAF/cadherin17. Furthermore, MMP transcription suggested to accompany cadherin17 dwon-regulation was upregulated in miR-494 or miR542-3p transfected or exosome co-cultured LnStr. Taken together, tumor exosomes target in vivo non-transformed cells in premetastatic organs. Exosome uptake induced altered target celll gene expression is strongly promoted by exosomal miRNA where we demonstrate for the first time that exosomes/exosomal miRNA from a metastasizing tumor line can modulate stroma cells from premetastatic organs. Endothelial cells lines were treated with pancreatic adenocarcinoma (AS) derived exosomes or pancreatic adenocarcinoma derived exosomes expressing tetraspanin 8. Total RNA was isolated and used to perform the Agilent gene expression microarrays. In this assay a replicate of endothelial cell lines treated with ASTspan8 were also included. Moreover, total RNA from both base line expression of endothelial cells and rat endothelial fibroblasts were also used to perfrom gene expression microarrays. RNA isolated from Rat endothelial fibroblasts treated with the exosomes derived from rat pancreatic adenocarcinoma and exosomes derived from rat pancreatic adenocarcinoma expressing tetraspanin8 were individually used to perfrom gene expression microarrays. RNA isolated from exosomes derived from rat pancreatic adenocarcinoma cell lines expressing tetraspanin were used to peform gene expresiion to see the base line expression. Another replicate were also used. RNA isolated from base line or control of rat pancreatic adenocarcinoma wild type cells and also base line RNA isolated from rat pancreatic adenocarcinoma cells lines where CD44 was knock-down.

Project description:Purpose: Analysis of exosomal miRNA in plasma of patients with metastatic and non-metastatic pancreatic cancer. To identify exosomes cargo specific miRNAs promoting cancer metastasis. Methods: We divide the plasma samples into five groups according to whether they have metastasis and undergo surgery.The five groups are Health(20),Metastasis Pre-operation and Post-operation (14),Non-metastasis Pre-operation and Post-operation(9).Then we collected the exosomes by ultracentrifugation and extracted the small RNA in each sample.Then, we analyzed the expression changes of miRNA by small RNA sequencing. Result: Different groups have different expression of small RNA. Compared with the non-metastatic group, the expression of miR-92a-3p , miR-148-3p and miR-25-3p increased in the metastatic group. Conclusion:Exosomal miRNA in pancreatic cancer patient derived plasma were analyze using Hiseq2500 sequencing technique. We identified that miR-92a-3p, miR-148-3p and miR-25-3p enriched in metastatic pancreatic cancer patient plasma derived exosomes.

Project description:Exosomes are 30-100 nm sized membrane vesicles released by cells into extracellular space and mediate the intercellular communication via transfer of proteins and RNAs. To better understand the function of these microvesicles in lung carcinogenesis, we employed a Triple SILAC quantitative proteomic strategy to examine the differential protein abundance between exosomes derived from an immortalized normal bronchial epithelial cell line and two non-small cell lung cancer (NSCLC) cell lines harboring distinct activating mutations in the cell signaling molecules Kirsten rat sarcoma viral oncogene homolog (KRAS) or epidermal growth factor receptor (EGFR). We were able to quantify 727 exosomal proteins derived from the three cell lines. Proteins associated with signal transduction are enriched in NSCLC exosomes which are functionally active in regulating cell proliferation. The study is the first to investigate protein abundance differences in exosomes derived from NSCLC cells and their normal counterparts, and reveals the role of exosomes in NSCLC cancer progression, which may have clinical implications in biomarker development for patients with NSCLC.

Project description:Bi-directional communication with the microenvironment is essential for homing and survival of cancer cells with implications for disease biology and behaviour. In chronic lymphocytic leukemia (CLL) the role of the microenvironment on malignant cell behaviour is well described. However, how CLL cells engage and recruit nurturing cells is poorly characterised. Here we demonstrate that CLL cells secrete exosomes that are nanovesicles originating from the fusion of multivesicular bodies with the plasma membrane, to shuttle proteins, lipids, microRNAs (miR) and mRNAs to recipient cells. We characterise and confirm the size (50 - 100 nm) and identity of the CLL-derived exosomes by Electron microscopy (EM), Atomic force microscopy (AFM), flow cytometry and western blotting using both exosomes-specific and CLL-specific markers. Incubation of CLL-exosomes, derived either from cell culture supernatants or from patient plasma, with human stromal cells shows that they are readily taken up into endosomes, and induce expression of genes such as c-fos and ATM as well as enhance proliferation of recipient HS-5 cells. Furthermore, we show that CLL exosomes encapsulate abundant small RNAs and are enriched in certain miRs and specifically hsa-miR-202-3p. We suggest that such specific packaging of miR-202-3p impacts on the expression of 'suppressor of fused' (Sufu), a Hedgehog (Hh) signalling intermediate, in the parental CLL cells. Thus, our data show that CLL cells secrete exosomes that alter the transcriptome and behaviour of recipient cells. Such communication with microenvironment is likely to have an important role in CLL disease biology. miR analysis was carried out on 3 exosomal samples and 3 corresponding cellular samples from CLL patients. Exosomes are a discrete population of small (50-100 nm diameter) EVs of endosomal origin with a lipid membrane bilayer and a cup-shaped morphology. We used common reference design which allows visualization of variations between the samples. Each sample equals one array and each sample compared with common reference (Pool). The pool or common reference was a collection of 23 RNA samples isolated from 23 CLL cases. We hypothesised that CLL derived exosomes should contain unique miRs that are reflective of CLL cell content and additionally relevant for disease biology.

Project description:Bi-directional communication with the microenvironment is essential for homing and survival of cancer cells with implications for disease biology and behaviour. In chronic lymphocytic leukemia (CLL) the role of the microenvironment on malignant cell behaviour is well described. However, how CLL cells engage and recruit nurturing cells is poorly characterised. Here we demonstrate that CLL cells secrete exosomes that are nanovesicles originating from the fusion of multivesicular bodies with the plasma membrane, to shuttle proteins, lipids, microRNAs (miR) and mRNAs to recipient cells. We characterise and confirm the size (50 - 100 nm) and identity of the CLL-derived exosomes by Electron microscopy (EM), Atomic force microscopy (AFM), flow cytometry and western blotting using both exosomes-specific and CLL-specific markers. Incubation of CLL-exosomes, derived either from cell culture supernatants or from patient plasma, with human stromal cells shows that they are readily taken up into endosomes, and induce expression of genes such as c-fos and ATM as well as enhance proliferation of recipient HS-5 cells. Furthermore, we show that CLL exosomes encapsulate abundant small RNAs and are enriched in certain miRs and specifically hsa-miR-202-3p. We suggest that such specific packaging of miR-202-3p impacts on the expression of 'suppressor of fused' (Sufu), a Hedgehog (Hh) signalling intermediate, in the parental CLL cells. Thus, our data show that CLL cells secrete exosomes that alter the transcriptome and behaviour of recipient cells. Such communication with microenvironment is likely to have an important role in CLL disease biology. miR analysis was carried out on 3 exosomal samples and 3 corresponding cellular samples from CLL patients. Exosomes are a discrete population of small (50-100 nm diameter) EVs of endosomal origin with a lipid membrane bilayer and a cup-shaped morphology. We used common reference design which allows visualization of variations between the samples. Each sample equals one array and each sample compared with common reference (Pool). The pool or common reference was a collection of 23 RNA samples isolated from 23 CLL cases. We hypothesised that CLL derived exosomes should contain unique miRs that are reflective of CLL cell content and additionally relevant for disease biology.

Project description:Exosomes play important roles in intercellular communication through the delivery of their cargoes, which include proteins, lipids, and RNAs. Increasingly, multiple studies have reported the association between exosomal small non-coding RNAs and cancer, due to their regulatory functions in gene expression. Hence, analysis of the features of small non-coding RNA expression and their incorporation into exosomes is important for cancer research. Here, we performed deep sequencing to investigate the expression of small RNAs in plasma exosomes from lung adenocarcinoma patients, lung squamous cell carcinoma patients, and healthy controls. We found that 5’ YRNA hY4-derived fragments are significantly upregulated in non-small cell lung cancer (NSCLC) exosomes, and may serve as a novel class of circulating biomarkers for NSCLC diagnosis. We also identified that the RNY4P7 gene on chromosome 2 may not be a pseudogene, because the corresponding transcript hY4 reverse fragment was detected in exosomes and cells. Further, we demonstrated that a panel of small RNAs, including miR-451a and miR-122-5p, may be selectively sorted into NSCLC exosomes. Overall, our studies have indicated a wider range of biological effects in NSCLC that may be mediated by exosomal small RNAs than previously known.

Project description:<p>Although multi-agent combination chemotherapy is curative in a significant fraction of childhood acute lymphoblastic leukemia (ALL) patients, 20% of cases relapse and most die due to chemo-refractory disease. Here we used whole-exome and whole-genome sequencing to analyze the mutational landscape and pattern of clonal evolution at relapse in pediatric ALL cases. These analyses showed that ALL relapses originate from a common ancestral precursor clone of the diagnosis and relapsed populations and frequently harbor mutations implicated in chemotherapy resistance. RAS-MAPK pathway activating mutations in NRAS, KRAS and PTPN11 were present in 24/55 (44%) cases in our series. Notably, while some cases showed emergence of RAS mutant clones at relapse, in others, RAS mutant clones present at diagnosis were replaced by RAS wild type populations. Mechanistically, functional dissection of mouse and human wild type Kras and mutant Kras (Kras G12D) isogenic leukemia cells demonstrated induction of methotrexate resistance, but also improved response to vincristine, in mutant Kras- expressing lymphoblasts. These results identify chemotherapy driven selection as a central mechanism of leukemia clonal evolution and pave the road for the development of tailored personalized therapies for the treatment of relapsed ALL. </p>

Project description:Recently, exosome has been treated as a key mechanism for cell-to-cell communication. We thus demonstrated the roles of exosomes for the encoding messages between primary tumors and metastases. To investigate the difference between pTDE miRNA (primary tumor-derived exosomal miRNA) and mDE miRNA (metastases-derived exosomal miRNA), we isolated exosomal miRNA from each cell lines. Next, we performed small RNA sequencing for miRNA profiling. Compared with pTDE and mDE miRNAs, miR-1 is specifically abundunt in pTDE and also shows therapeutic effects to repress the growth of metastases after primary tumor resection.