Project description:Pericardial sac surrounding the heart contains pericardial fluid (PF), which is rich in exosomes. PF exosomes increase angiogenesis in hypoxic endothelial cells and in animal model of hindlimb ischemia by passing the proangiogenic miRNAs to recipient cells. However, under pathological conditions such as diabetes, exosome cargo composition changes and harmful miRNAs can be transferred to the recipient cells and induce more deleterious effects in target tissues. In order to check cargo composition of different PF exosomes, we used PF exosomes from non-diabetic aortic valve replacement (AVR), mitral valve replacement (MVR), coronary artery bypass grafting (CABG) patients and CABG patients with diabetes.
Project description:The pericardial fluid (PF) surrounds the heart and it is contained in the pericardial sac. PF contains myocardial-derived factors. MicroRNAs (miRNAs) are negative post-transcriptional regulators of their target genes and they can be released into extracellular vesicles (EVs) contributing to cell-to-cell communication. We hypothesize that the PF contains miRNAs of myocardial origin and that represents a niche for the exchange of miRNAs between heart cells. In order to investigate whether PF contains functionally active miRNAs, miRNA expression profiles on PF samples collected from three patients undergoing aortic valve replacement (AVR) surgery performed during cardiopulmonary-bypass (CPB), were genereted.
Project description:Pericardial fluid is enriched by biologically active molecules of cardiovascular origin including microRNAs. Investigation of the disease-specific extracellular microRNAs could shed light on the molecular processes underlying disease development. Arrhythmogenic right ventricular cardiomyopathy (ARVC) is an inherited heart disease characterized by life-threatening arrhythmias and progressive heart failure development. The current data about the association between microRNAs and ARVC development are limited. We performed small RNA sequence analysis of microRNAs of pericardial fluid samples obtained during transcutaneous epicardial access for ventricular tachycardia (VT) ablation of six patients with definite ARVC and three post-infarction VT patients. Disease-associated microRNAs of pericardial fluid were identified. Enrichment analysis of differentially expressed microRNAs revealed their close linkage to cardiac diseases.
Project description:we examined 24 pericardial effusion patients and obtained pericardial fluid. To identify novel biomarker for detection cancer, detected transcriptome-based molecualr signature of compare pathologic cancer patients and non-cancer patients.
Project description:We have reported that microRNAs are present in human, bovine, and rat milk whey. Milk whey miRNAs were resistant to acidic condition and to RNase. Thus, milk miRNAs were thought to be present packaged into membrane vesicles like exosome. However, body fluid miRNAs have been reported that there are in different forms. To clarify which miRNAs species are exist in exosome and which species are exist in another form, we used bovine raw milk and purified total RNA from exosome fraction and ultracentrifugated supernatant fraction, and analyzed by miRNA microarray.
Project description:We have identified several nucleotide motifs (caug, cgggag=S2) that promote exosome sorting of miRNA in different cell types including brown adipocytes. In order to identify which proteins might recognize and bind to these motifs, we have performed co-precipitations of proteins binding biotinylated forms of miRNAs containing the aforementioned motifs or none - using streptavidin beads incubated with brown adipocytes cell lysates. We have included two types of controls: negative poly-A control and a scramble miRNA.
Project description:Data-dependent liquid chromatography tandem mass spectrometry (LC-MS/MS) is challenged by the large concentration range of proteins in plasma and related fluids. We adapted the SCoPE method from single-cell proteomics to pericardial fluid, where a myocardial tissue carrier was used to aid protein quantification. The carrier proteome and patient samples were labeled with distinct isobaric labels, which allowed separate quantification. Undepleted pericardial fluid from patients with type 2 diabetes mellitus and/or heart failure undergoing heart surgery was analyzed with either a traditional LC-MS/MS method or with the carrier proteome. In total, 1398 proteins were quantified with a carrier, compared to 265 without, and a higher proportion of these proteins were of myocardial origin. The number of differentially expressed proteins also increased nearly four-fold. For patients with both heart failure and type 2 diabetes mellitus, pathway analysis of upregulated proteins demonstrated enrichment of immune activation, blood coagulation, and stress pathways. Overall, our work demonstrates the applicability of a carrier for enhanced protein quantification in challenging biological matrices such as pericardial fluid, with potential applications for biomarker discovery.
Project description:To investigate the exosomal miRNA changes under the inflammatory reaction, LPS (100 μg/kg body weight) was intraperitoneally injected into the mice at 15 days of pregnancy. Premature births has been found after approximately 48 h of treatment. When bleeding found in vagina, the uterus and other embryo without breaking water were selected in asepsis condition. The amniotic fluid were selected and isolated exosome to analyze the expression of miRNAs compared with cesarean sections.
Project description:Patients with aortic stenosis are often indicated to aortic valve replacement to relief pressure overload. After surgery, patients experience a myocardial response commonly known as reverse remodeling, where structural and functional recovery are expected. Notwithstanding, some patients exhibit an incomplete response, whose biological mechanisms remain poorly understood. The pericardial fluid can be safely collected during valve replacement and its proteome composition reflects heart’s pathophysiological status. Taking this into account, we characterized pericardial fluid proteome of patients with complete and incomplete reverse remodeling following a shotgun LC-MS/MS (Orbitrap Q Exactive HF MS) approach. We aimed to improve the current understanding of the mechanisms underlying an incomplete reverse remodeling and to pinpoint surrogate prognostic markers for this condition. In the future, this data can be important to develop tools for early prognosis of incomplete reverse remodeling and to adjust medical/pharmacological therapies to maximize recovery.