Project description:In the current study, we performed deep sequencing analysis of the RNA cargo of plasma EVs collected at the time of diagnosis, during and after the NAC and up to 18 months after the surgery and matched tumor and normal tissues from 35 patients with locally advanced BC, and 30 cancer-free females.

Project description:In the current study, we performed deep sequencing analysis of the RNA cargo of plasma and fecal EVs collected at the time of diagnosis, after the surgery and matched tumor and normal tissues from 23 patients with gastric cancer, and 15 cancer-free donors.

Project description:Healthy brain function is mediated by several complementary signalling pathways, many of which are driven by extracellular vesicles (EVs). EVs are heterogeneous in both size and cargo and are constitutively released from cells into the extracellular milieu. They are subsequently trafficked to recipient cells, whereupon their entry can modify the cellular phenotype. Here, in order to further analyse the mRNA and protein cargo of neuronal EVs, we isolated EVs by size exclusion chromatography from human induced pluripotent stem cell (iPSC)-derived neurons. Electron microscopy and dynamic light scattering revealed that the isolated EVs had a diameter of 30-100 nm. Transcriptomic and proteomics analyses of the EVs and neurons identified key molecules enriched in the EVs involved in cell surface interaction (integrins and collagens), internalisation pathways (clathrin- and caveolin-dependent), downstream signalling pathways (phospholipases, integrin-linked kinase and MAPKs), and long-term impacts on cellular development and maintenance. Overall, we show that key signalling networks and mechanisms are enriched in EVs isolated from human iPSC-derived neurons.

Project description:Necroptosis is a regulated but inflammatory form of cell death. We and others have previously reported that necroptotic cells release extracellular vesicles (EVs). We found that necroptotic EVs are loaded with proteins, including the key necroptosis executor factor, phosphorylated mixed lineage kinase domain-like (pMLKL). However, the exact necroptotic EVs proteins composition and impact have not been delineated yet. To characterize their content, EVs from necroptotic and untreated U937 cells were isolated by ultracentrifugation and analyzed by mass spectrometry. A total of 3337 proteins were identified, sharing high similarity with exosome proteome databases. Unsupervised hierarchical clustering of identified proteins distinguished between necroptotic and control EVs. A total of 353 proteins was significantly upregulated in the necroptotic EVs. Among these are MLKL and caspase-8, as validated by immunoblot. Components of ESCRTIII machinery and inflammatory signaling were found to be enriched in the necroptotic EVs, as well as yet unreported components of vesicles formation and transport and necroptosis signaling pathways. Moreover, we show that necroptotic EVs can be phagocytosed by macrophages to modulate cytokine and chemokine secretion. Finally, we reveal that necroptotic EVs contain tumor neoantigen and are enriched with proteins annotated as “antigen processing and presentation” biological process. In summary, our study reveals a new layer of regulation during the early stage of necroptosis by the secretion of specific EVs that influence their microenvironment and may instigate innate and adaptive immune responses. Future investigation will shed light on new players in the necroptosis signaling and its related EVs, and will uncover the functional tasks accomplished by the cargo of these necroptotic EVs.

Project description:Background: Human milk extracellular vesicles (EVs) affect various cell types in the gastrointestinal tract, including T cells, and play a role in the development of the newborn’s immune system by delivering specific molecular cargo to target cells. Although maternal allergic sensitization alters the composition of milk, it is unknown whether this impacts the function of milk EVs. Therefore, we analyzed the T cell modulatory capacity and compared the protein and miRNA cargo of EVs from milk of allergic and non-allergic mothers. Methods: EVs were isolated from human milk from allergic and non-allergic donors by differential centrifugation, density gradient floatation and size exclusion chromatography. Functional modulation of primary human CD4+ T cells by EVs was assessed in vitro. Proteomic analysis and small RNA sequencing was performed on milk EVs to evaluate protein and miRNA abundance and to identify cellular targets of this EV cargo in relevant T cell signaling pathways. Results: T cell proliferation, activation and cytokine production were suppressed in the presence of milk EVs. Remarkably, milk EVs from allergic mothers modulated T cell activation to a lesser extent than EVs from non-allergic mothers. Integrative multi-omics analysis identified EV cargo of which the cellular targets could be linked to T cell activation-associated processes. Conclusions: Milk EVs from non-allergic mothers are stronger inhibitors of T cell activation compared to milk EVs from allergic mothers. This altered functionality might be linked to small changes in modulation of certain T cell signaling pathways.

Project description:Escherichia coli release Extracellular Vesicles (EVs) which carry diverse molecular cargo. Pathogenic E.coli EVs contain virulence factors which assist during infection in the host in different mechanisms.The RNA cargo of E.coli EVs has not been assessed in their effect in the host. We used microarray data to asses and compare the global response of bladder cells to EV-RNA from pathogenic E.coli (Uropathogenic UPEC 536) and non-pathogenic E. coli (probiotic Nissle 1917)

Project description:Oral squamous cell carcinoma (OSCC) has high mortality rates that are largely associated with lymph node metastasis. However, the molecular mechanisms that drive OSCC metastasis are unknown. Extracellular vesicles (EVs) are membrane-bound particles that play a role in intercellular communication and impact cancer development and progression. Thus, profiling EVs would be of great significance to decipher the role of EV cargo in OSCC metastasis. For that purpose, we used a reductionist approach to map the proteomic, miRNA, metabolomic, and lipidomic profiles of extracellular vesicles (EVs) derived from human primary tumor (SCC-9) cells and matched lymph node metastases (LN1) cells. Distinct omics profiles were associated with the metastatic phenotype, including 670 proteins, 217 miRNAs, 26 metabolites, and 64 lipids differentially abundant between LN1- and SCC-9-derived EVs. A multi-omics integration identified 11 ‘hub proteins’ significantly decreased at the metastatic site compared to primary tumor-derived EVs. We confirmed the validity of these findings with analysis of data from multiple public databases, and found that low abundance of seven hub proteins in metastatic EVs is correlated with reduced survival and tumor aggressiveness in cancer patients. In summary, this multi-omics approach identified proteins transported by EVs that are associated with metastasis, and which may potentially serve as prognostic markers in OSCC.

Project description:Extracellular vesicles (EVs) and their microRNA (miRNA) cargo have been suggested as potential biomarkers for mammary gland health in cattle. However, milk is a dynamic fluid, and its biologically active components, including miRNAs, could be subject to changes throughout the day. The current study aimed to evaluate the circadian fluctuation of milk EVs miRNA cargo to assess the feasibility of milk EVs as future biomarkers for mammary gland health management. Milk from four healthy dairy cows was collected manually from one quarter during four consecutive days in the two daily milking sessions in the morning and the afternoon. The SCC was determined, and the milk EVs were isolated from skimmed milk. The presence of EVs was confirmed by transmission electron microscopy (TEM), tunable resistive pulse sensing (TRPS), and western blot (WB). Small RNA libraries were produced from 10 ng of extracted RNA and sequenced in two lanes of a HiSeq2500. The heterogeneity and integrity of EVs and the protein EV markers CD9, CD81, and TSG101 were confirmed by TEM and WB. The sequencing revealed that despite daily fluctuation in other milk components, like the somatic cells during milking sessions, the miRNA cargo abundance in milk EVs stayed constant. Our results show that the miRNA cargo of milk EVs is very stable regardless of the hour of the day, supporting their potential use as diagnostic markers for mammary gland health.

Project description:Plasma derived extracellular vesicles (EVs) have emerged as critical mediators of complications following traumatic injuries and after exposure to radiation. In response to injury, the cargo of these EVs is altered and can contain potent cargo that can influence cell function, including alterations in miRNA cargo. Here, we utilized NanoString's mouse miRNA panel to compare the alterations in miRNA content following exposure to 2 or 9 Gys of whole-body irradiation isolated 3 days after exposure and compared these changes to sham mice.

Project description:Extracellular vesicles (EVs) have been characterized from many species of parasitic helminths, and recent experimental evidence supports important functions for their cargo in host-parasite relationships. Here, we carried out a detailed proteomic analysis of two populations of EVs – exosome like vesicles (ELVs) and microvesicles (MVs) – from Schistosoma mansoni. We profiled the proteins present in these EVs (including external trypsin-liberated peptides, cargo proteins, integral membrane proteins (IMPs) and peripheral membrane proteins (PMPs) using LC-MS/MS.