Project description:Plasma samples from healthy volunteers were used for the microarray analysis. The fresh sample and intentionally hemolyzed one due to negative pressure were examined. Microarray analyses were performed using the 3D-Gene microRNA microarray platform, and RNA extraction was conducted according to the manufacturer’s instructions. Only a very small amount of total RNA was present in the plasma samples; therefore 2 out of the 4 µl of total RNA extracted from 300- µl of plasma samples were used in microarray experiments.

Project description:Human tissue kallikreins (KLKs) are a group of 15 secreted serine proteases encoded by the largest contiguous cluster of protease genes in the human genome. KLKs are involved in coordination of numerous physiological functions including regulation of blood pressure, neuronal plasticity, skin desquamation and semen liquefaction, and thus represent promising diagnostic and therapeutic targets. Until now, quantification of KLKs in biological and clinical samples was accomplished only by enzyme-linked immunosorbent assays (ELISA). In this work, we developed a multiplex selected reaction monitoring (SRM) assay for the simultaneous quantification of all 15 KLKs. Proteotypic peptides for each KLK were carefully selected based on experimental data and then multiplex in a single assay. Assay performance was evaluated using three different mass spectrometry platforms including triple quadrupole, quadrupole-ion trap and quadrupole-orbitrap instruments. Heavy isotope-labeled synthetic peptides with a quantifying tag were used for absolute quantification of KLKs in seminal plasma, sweat and cervico-vaginal fluid, with limits of detection ranging from 5 to 500 ng/mL. Analytical performance of the SRM assay was evaluated by measuring endogenous KLKs in relevant clinical samples and results were compared to selected ELISAs. The multiplex SRM assay was proven to be an accurate, reproducible, sensitive and highly specific alternative to the existing antibody-based assays. Finally, we used immunoenrichment-SRM and ELISA to unambiguously detect and quantify seminal plasma levels of kallikrein-4, a highly prostate-specific protein and a potential biomarker of prostate-related diseases. The presented multiplex SRM assay is an alternative analytical tool to study the biological and pathological roles of human KLKs.

Project description:In the present study, we evaluated miRNA expression profiles of 32 patient aortic aneurysm tissue and plasma samples using Illumina next-generation sequencing platform. A total of 20 miRNA were differentially expressed in tissues, 17 miRNAs - in plasma samples. Differentially expressed miRNAs determined in the present study could be applied for thoracic ascending aneurysm diagnosis.

Project description:Plasma samples from healthy volunteers were used for the microarray analysis. The fresh sample and intentionally hemolyzed one due to negative pressure were examined. Microarray analyses were performed using the 3D-Gene microRNA microarray platform, and RNA extraction was conducted according to the manufacturer’s instructions. Only a very small amount of total RNA was present in the plasma samples; therefore 2 out of the 4 µl of total RNA extracted from 300- µl of plasma samples were used in microarray experiments. The purpose of this study is to identify hemolysis related microRNA. Plasma samples from healthy volunteers were used for the microarray analysis. The fresh sample and intentionally hemolyzed one due to negative pressure were examined.

Project description:Diabetes mellitus (DM) causes the change in the components of the plasma, which may induce tissue and organ injuries, including the heart and kidney. In the diabetic model db/db mice, intravenous injection of purified dipeptidyl peptidase III (DPPIII) attenuated the heart and kidney damages provoked by DM without alteration in blood glucose level. This led us to hypothesize that there might be peptide(s) that are involved in the progression of the DM-mediated damages and are cleaved by DPPIII. To explore the peptides, the whole peptidomics analysis (shotgun peptidomics) was conducted using tandem mass spectrometry, in which peptides derived from the plasma of PBS-infused C57BL/6 mice, PBS-infused db/db mice, and DPPIII-treated db/db mice were compared. The raw mass spectrometry data were deposited to the ProteomeXchange with the dataset identifier PXD025440. Together with the mass spectrometry analysis and other experiments, we identified a peptide named Peptide 2 (AA sequence: RLLWENGNL) as a substrate of DPPIII. Peptide 2 is a part of C3f (53% identical), and C3f can act as an anaphylatoxin like C3a. To quantify the amount in plasma derived from the plasma of PBS-infused C57BL/6 mice, PBS-infused db/db mice, and DPPIII-treated db/db mice, selected reaction monitoring (SRM) assay was performed. All of the chromatograms and quantified data obtained by SRM from the three mouse groups were shown in the Analyst formated and PDF files.

Project description:After mapping to transcriptome using bowtie2 and peak calling by RNA peak caller (cfPeak), count matrix was created by merge 3 pairs of samples. EV-sorting small RNA sites in normal human plasma total RNA-seq were annotated by comparing differentially expressed peaks (EV vs. EV-depleted Plasma).

Project description:Exosomal RNA isolated from plasma was successfully profiled with a total of 65 immunology-related miNRAs in 13 mouse samples

Project description:Human tissue kallikreins (KLKs) are a group of 15 secreted serine proteases encoded by the largest contiguous cluster of protease genes in the human genome. KLKs are involved in coordination of numerous physiological functions including regulation of blood pressure, neuronal plasticity, skin desquamation and semen liquefaction, and thus represent promising diagnostic and therapeutic targets. Until now, quantification of KLKs in biological and clinical samples was accomplished only by enzyme-linked immunosorbent assays (ELISA). In this work, we developed a multiplex selected reaction monitoring (SRM) assay for the simultaneous quantification of all 15 KLKs. Proteotypic peptides for each KLK were carefully selected based on experimental data and then multiplex in a single assay. Assay performance was evaluated using three different mass spectrometry platforms including triple quadrupole, quadrupole-ion trap and quadrupole-orbitrap instruments. Heavy isotope-labeled synthetic peptides with a quantifying tag were used for absolute quantification of KLKs in seminal plasma, sweat and cervico-vaginal fluid, with limits of detection ranging from 5 to 500 ng/mL. Analytical performance of the SRM assay was evaluated by measuring endogenous KLKs in relevant clinical samples and results were compared to selected ELISAs. The multiplex SRM assay was proven to be an accurate, reproducible, sensitive and highly specific alternative to the existing antibody-based assays. Finally, we used immunoenrichment-SRM and ELISA to unambiguously detect and quantify seminal plasma levels of kallikrein-4, a highly prostate-specific protein and a potential biomarker of prostate-related diseases. The presented multiplex SRM assay is an alternative analytical tool to study the biological and pathological roles of human KLKs.

Project description:Total plasma IgA glycosylation was compared between healthy volunteers and volunteers suffering fromo infections with either the influenza A virus or the severe acute respiratory syndrome corona virus 2. Data from functional assays of the same plasma samples, such as neutrophil extracellular trap formation is also available.

Project description:Total RNA from 59 human plasma samples was used to generate signatures of extracellular vesicles used as basis for evaluation of potential disease states