Project description:Parkinson's disease (PD) is a chronic and progressive degenerative disease of the central nervous system. Degenerative neuropathy can occur in patients with PD even before typical clinical symptoms appear in the preclinical stage. Therefore, if the early diagnosis of degenerative diseases can be timely and the correlation with the disease progression can be explored, the disease progression will be slowed down and the quality of life of patients will be improved. In this study, the circRNA microarray was employed to screen the dysregulated circRNA in plasma samples of PD

Project description:In order to explore the role of circRNA in diabetic kidney disease (DKD), we employed circRNAs microarray expression profile in the plasma of daibetes patients (n=6), diabetic kidney disease patients (n=6) and healthy controls (n=6). According to the microarray data, we found 2079 differentially expressed circRNA in the plasma of DKD patients compared to the healthy people, including 1182 up-regulated and 897 down-regulated.Among the differentially expressed circRNA, nine DKD-related circRNAs were chosen and further validated by qRT-PCR.The results revealed that circUBXN7 was significantly elevated in the plasma of DKD patients, and might be a diagnostic plasma marker for DKD.

Project description:NINDS Parkinson’s Disease

Project description:CLL plasma circRNA microarray

Project description:Stroke is one of the major causes of death and long-term disability, of which acute ischemic stroke (AIS) is the most common type. Although circRNA expression profiles of AIS patients have been reported to be significantly altered in blood and peripheral blood mononuclear cells, the role of exosome-contained circRNAs after AIS is still unknown. Plasma exosomes from ten AIS patients and ten controls were isolated, and through microarray and bioinformatics analysis, profile and putative function of circRNAs in the plasma exosomes were studied. A total of 198 circRNAs were differentially quantified (|log2 FoldChange|≥1.00, P<0.05) between AIS patients and controls.The functions of host genes of differentially quantified circRNAs, including RNA and protein process, focal adhesion and leukocyte transendothelial migration, were associated with the development of AIS. As miRNA sponge, differentially quantified circRNAs had the potential to regulate pathways related to AIS, like PI3K-Akt, AMPK and chemokine pathways. Of 198 differentially quantified circRNAs, 96 circRNAs possessing strong translational ability could affect cellular structure and activity, like focal adhesion, tight junction and endocytosis. Most differentially quantified circRNAs were predicted to bind to EIF4A3 and AGO2- two RNA binding proteins (RBPs)- and play a role in AIS. In conclusion, plasma exosome-derived circRNAs were significantly differentially quantified between AIS patients and controls, and participated in the occurrence and progression of AIS by sponging miRNA/RBPs or translating into proteins, indicating that circRNAs from plasma exosomes could be crucial molecules in the pathogenesis of AIS and promising candidates as diagnostic biomarkers and therapeutic targets for the condition.

Project description:The differential expression of circular RNAs (circRNAs) in individuals with very severe chronic obstructive pulmonary disease (COPD) and healthy individuals was screened using microarray technology. The related functions and mechanisms were analyzed using bioinformatic methods to explore the potential of target circRNAs as biomarkers of COPD and provide insights for future pathogenesis.

Project description:Role of circRNAs in active tuberculosis (TB) remains unknown. The present study was aimed to determine plasma circRNA expression profile in active TB patients to identify potential biomarker by circRNA microarrays.

Project description:circRNAs microarray analysis in colorectal caner tissues

Project description:Dysregulated circRNAs in plasma from active tuberculosis patients

Project description:The Gut Microbiome in Parkinson’s Disease