Project description:Using the Illumina Infinium Human Methylation27 BeadChip, we performed a genome-wide analysis of DNA methylation in right coronary artery in the area of advanced atherosclerotic plaques, atherosclerotic-resistant internal mammary arteries, and great saphenous veins obtained from same patients with coronary heart disease. The resulting DNA methylation patterns were markedly different between all the vascular tissues. The genes hypomethylated in athero-prone arteries to compare with atherosclerotic-resistant arteries were predominately involved in regulation of inflammation and immune processes, as well as development. The great saphenous veins exhibited an increase of the DNA methylation age in comparison to the internal mammary arteries. Gene ontology analysis for genes harboring hypermethylated CpG-sites in veins revealed the enrichment for biological processes associated with the development. Four CpG-sites located within the MIR10B gene sequence and about 1 Kb upstream of the HOXD4 gene were also confirmed as hypomethylated in the independent dataset of right coronary arteries in the area of advanced atherosclerotic plaques in comparison with the other vascular tissues.

Project description:Using the Illumina Infinium Human Methylation27 BeadChip, we performed a genome-wide analysis of DNA methylation in right coronary artery in the area of advanced atherosclerotic plaques, atherosclerotic-resistant internal mammary arteries, and great saphenous veins obtained from same patients with coronary heart disease. The resulting DNA methylation patterns were markedly different between all the vascular tissues. The genes hypomethylated in athero-prone arteries to compare with atherosclerotic-resistant arteries were predominately involved in regulation of inflammation and immune processes, as well as development. The great saphenous veins exhibited an increase of the DNA methylation age in comparison to the internal mammary arteries. Gene ontology analysis for genes harboring hypermethylated CpG-sites in veins revealed the enrichment for biological processes associated with the development. Four CpG-sites located within the MIR10B gene sequence and about 1 Kb upstream of the HOXD4 gene were also confirmed as hypomethylated in the independent dataset of right coronary arteries in the area of advanced atherosclerotic plaques in comparison with the other vascular tissues. Bisulfite converted genomic DNA from 24 samples was denatured, whole-genome amplified, fragmented and subsequently hybridized to the Illumina Infinium 27k Human Methylation Beadchip.

Project description:The genetics, social, cultural and environmental factors pose a great challenge for the diagnosis and treatment of coronary heart disease among different racial groups. We aimed to identify the differentially expressed genes involved in coronary heart disease in Chinese Han people as an aid for screening and diagnosing coronary heart disease. We used microarrays to detail the global programme of gene expression to identify the differentially gene between the patients with coronary heart disease and healthy people in Chinese Han people

Project description:The genetics, social, cultural and environmental factors pose a great challenge for the diagnosis and treatment of coronary heart disease among different racial groups. We aimed to identify the differentially expressed genes involved in coronary heart disease in Chinese Han people as an aid for screening and diagnosing coronary heart disease. We used microarrays to detail the global programme of gene expression to identify the differentially gene between the patients with coronary heart disease and healthy people in Chinese Han people Three patients with coronary heart disease and three healthy people in Chinese Han people were recruited,total RNA of each samples were extracted from peripheral blood to hybridize with Affymetrix microarrays.

Project description:Comparison of genomic rearrangements and DNA methylation patterns between different foci of multiple synchronous (multifocal and multicentric) invasive breast cancers.

Project description:Comparison of genomic rearrangements and DNA methylation patterns between different foci of multiple synchronous (multifocal and multicentric) invasive breast cancers

Project description:Research purpose: To explore the key targets and core signal pathways of XHT (Xinhuitong, XHT) in regulating coronary heart disease with Qi deficiency and blood stasis syndrome through transcriptomics, and reveal the transcriptional regulatory network of XHT in treating coronary heart disease with Qi deficiency and blood stasis syndrome. Research method: Using transcriptomics RNA-Seq technology, gene sequencing of myocardial tissues in the ischemic marginal zone of the Qi deficiency and blood stasis syndrome model group and the high-dose Yiqi Huoxue prescription group and searching for differential genes, from the perspective of gene regulation and expression patterns To study the possible effective drug targets and effect mechanism pathways of XHT in the treatment of coronary heart disease with Qi deficiency and blood stasis syndrome, and to further explore the treatment of coronary heart disease with Qi deficiency and blood by Chinese medicine compound prescriptions. The possible pharmacological mechanism of blood stasis syndrome, and the key molecular nodes and effect mechanism pathways suggested by it are verified by molecular biology methods.

Project description:Familial Coronary Heart Disease

Project description:Familial Coronary Heart Disease

Project description:Four male patients were enrolled for this study in collaboration with the Cardiology Unit of Policlinico Tor Vergata-Fondazione PTV (Rome). The first group of patients has chronic coronary artery disease (CAD) confirmed by coronary angiography, the second group are subjects with clinically proven healthy coronary arteries (CTR). On our case study we have performed a genome-wide methylation study on genomic DNA bisulfite-converted and a miRNA-sequencing study using NextSeq 500 ILLUMINA platform. The methylation study showed different methylated regions (DMRs) and single CpG sites (DMCs) in patients sharing the same clinical and pathological features, allowing detecting distinctly different methylation patterns between CTR subjects and CAD patients. Moreover, miRNA-sequencing results displayed a differential expression of several significant miRNAs (p-value<0.05), defining a peculiar miRNAs profile in patients featuring the same clinical data. miRNA-sequencing and genome-wide methylation integreted results, showed hsa-miR-200c-3p down-regulated in CAD patients compared to control subjects (FC CAD=2.97 and p≤0.05) and with two hypermethylated sites (genomic coordinates: chr12:7073122-7073122 and chr12:7072599-7072599) in its promoter region (p-value=0.009). We extended the validation of these results on all case study (n=96; 24 CTR and 72 CAD).