Project description:Background: Exosomes and extracellular vesicles (EVs) are increasingly recognized as important sources of biomarkers for disease study and diagnosis. Results: A synthetic peptide, Vn96, allows for capture of EVs from biological fluids using basic laboratory equipment. Conclusion: The Vn96-captured EVs are qualitatively equivalent or superior to exosomes isolated by ultracentrifugation. Significance: The Vn96 peptide provides an effective affinity-capture method for the isolation of EVs from biological fluids.

Project description:Background: Exosomes and extracellular vesicles (EVs) are increasingly recognized as important sources of biomarkers for disease study and diagnosis. Results: A synthetic peptide, Vn96, allows for capture of EVs from biological fluids using basic laboratory equipment. Conclusion: The Vn96-captured EVs are qualitatively equivalent or superior to exosomes isolated by ultracentrifugation. Significance: The Vn96 peptide provides an effective affinity-capture method for the isolation of EVs from biological fluids. In order to compare different methods of exosome purification, we compared RNA content of exosomes purified with each method. We used two different breast cancer cell lines MCF7 and MDA-MB-231. We processed data in order to identify large RNAs as well as small RNA by using different methods for the alignment

Project description:RNA m5C methylation profile of MCF10A and MDA486 by using MeRIP-Seq protocol Immunoprecipitation of Methylated mRNA at Cytosine (m5C) residues: Affinity purified of anti-methyl cytosine (m5C) polyclonal antibody 7ug (Zymo Research, Catalog#A3001-50) was conjugated with protein-A magnetic beads for 2 h at 4°C in end to end rotator. After that, conjugated beads were extensively washed with RNA immunoprecipitation (RIP) wash buffer to remove unbound antibody. Fragmented 25 ug polyA RNA (mRNA) was incubated with m5C conjugated beads for overnight at 4°C in in the rotating platform in RIP buffer. RIP was done using Megna RNA Immunoprecipitation kit (Millipore, Catalog#17-700). m5C mRNA-immune bead complex was treated with proteinase K buffer to release m5C mRNA from the conjugated antibody. To isolate m5C, mRNA was treated with phenol:chloroform:isoamyl and mixed with 400 ul of chloroform, which was centrifuged at 14000 rpm for 10 minutes to separate aqueous phase. The aqueous phase was ethanol precipitated at -80°C for overnight, to get m5C mRNA. This precipitated m5C mRNA pellet was washed twice with 70% ethanol and air dried. Finally, m5C mRNA pellet was dissolved in nuclease free Water. The m5C mRNA integrity and conentration was quantified by bioanalyzer (Agilent) and Qubit 2.0 flurometer (Invitrogen). The fragmented mRNA was used by following TruSeq RNA Sample Preparation Guide to develop RNA-Seq library for sequencing.

Project description:Circulating extracellular vesicles (EVs) have gained significant attention for discovering tumor biomarkers. However, isolating EVs with well-defined homogeneous populations from complex biological samples is challenging. Different methods have been found to derive different EV populations carrying different biomolecules, which significantly confound biomarker discovery for developing clinical diagnostics. Building a rigorous EV isolation and standardizing assessment platform associated with -omics is essential to overcome this challenge. We introduced a novel isolation approach using a pH-responsive peptide conjugated with NanoPom magnetic beads (ExCy) for homogeneous EV isolation. Additionally, we introduced the first statistical algorithm for EV quality assessment (ExoQuality Index, EQI), which enables multi-assay quantification to provide a consistent and accurate definition of EV purity and quality; ExoQuality’s algorithm intakes multi-assay information to deconvolute complex EV heterogeneity. We analyzed our next generation sequencing on EV RNAs from pancreatic cancer patient plasma using four isolation methods; results highlighting ExCy’s isolation and EQI assessment improved biomarker identification. We identified a novel EV tumor biomarker, ATP6V0B, validated with Quantitative PCR (qPCR) by screening a pilot cohort of 23 individuals. With random forest modeling the ATP6V0B cycling threshold, we reported an AUC of 0.91, showcasing an enabling and clinically translatable liquid biopsy approach using circulating EVs.

Project description:We used a zebrafish model of inducible rod photoreceptor death and investsgate the effect of Dexamethasone and nanoparticle-conjugated Dex on regeneration kinetics

Project description:Ovarian tumor tissues were obtained from patients with informed consent, which was approved by the Institutional Review Board of the Swedish Hospital in Seattle. Tissue acquisition, processing and storage were conducted by the Pacific Ovarian Cancer Research Consortium (POCRC) at the Fred Hutchinson Cancer Research Center. The quality of tumor tissues, the percentage of cancer cells and the histological analysis of the tumors were determined via a centralized pathology review at the POCRC repository. All samples were distributed in a de-identified manner and cannot be traced back to patients. The tumor tissues were disrupted in a Biospec Tissue-Tearor Model 985370-395 in the presence of TRIzol (Invitrogen) with a ratio of 10ml TRIzol per 50mg of tissue. Following an extraction step of 0.2 ml of Chloroform per 1ml of TRIzol, the upper aqueous phase was removed for RNA isolation. The remaining inter-phase and the phenol phase was briefly stored in 4??C for DNA isolation. The upper aqueous phase was processed for total RNA according to Invitrogen protocol and further purified using RNeasy Mini kit (Qiagen). Genomic DNA was isolated by back-extraction from the TRIzol inter-phase and the phenol phase as described on Ambion website (page 4). Detailed amplification and labeling protocols are available at the Brown lab website

Project description:DNA isolation and sampling kits comparison

Project description:An integrative analysis of human biofluid data in the exRNA Atlas revealed the existence of distinct extracellular RNA cargo types. To determine whether different RNA isolation kits biased detection of certain exRNA cargo types, an integrative analysis was performed using pooled plasma and serum samples, where 10 different RNA isolation kits were applied.

Project description:Ovarian tumor tissues were obtained from patients with informed consent, which was approved by the Institutional Review Board of the Swedish Hospital in Seattle. Tissue acquisition, processing and storage were conducted by the Pacific Ovarian Cancer Research Consortium (POCRC) at the Fred Hutchinson Cancer Research Center. The quality of tumor tissues, the percentage of cancer cells and the histological analysis of the tumors were determined via a centralized pathology review at the POCRC repository. All samples were distributed in a de-identified manner and cannot be traced back to patients. The tumor tissues were disrupted in a Biospec Tissue-Tearor Model 985370-395 in the presence of TRIzol (Invitrogen) with a ratio of 10ml TRIzol per 50mg of tissue. Following an extraction step of 0.2 ml of Chloroform per 1ml of TRIzol, the upper aqueous phase was removed for RNA isolation. The remaining inter-phase and the phenol phase was briefly stored in 4??C for DNA isolation. The upper aqueous phase was processed for total RNA according to Invitrogen protocol and further purified using RNeasy Mini kit (Qiagen). Genomic DNA was isolated by back-extraction from the TRIzol inter-phase and the phenol phase as described on Ambion website (page 4). Detailed amplification and labeling protocols are available at the Brown lab website Using regression correlation

Project description:Human pancreatic islets were isolated from pancreas of deceased donors by Ricordi's procedure and cultured in CMRL 1066 medium additioned with human albumin. EVs were isolated from conditioned medium derived from islet culture after isolation. Once isolated, RNA of islets and islet-derived EVs was extracted and analyzed for microRNA expression within 48 hours after isolation.