Project description:Inflammatory mediators play a role in the pathogenesis/progression of chronic heart failure (CHF). The aim of the present study was to identify diagnostic/prognostic markers and gene expression profiles of CHF vs control. Experiment Overall Design: Gene expression profiling was performed in three patients' groups: 1) Ischemic cardiomyopathy (ICM)- (n=12) and 2) Non ischemic cardiomyopathy (NICM)- (n=12) NYHA III-IV CHF patients ; 3) Age- and gender matched controls (n=12) by Affymetrix microarrays. Data were then subjected to informatic analysis.

Project description:Changes in gene expression contribute to the pathogenesis of heart failure. The sequence, expression level, and structure of the human cardiac transcriptome are incompletely described, as are their changes in heart disease. High throughput transcriptome sequencing (RNA-seq) is a quantitative and unbiased approach to measure transcript level and to identify novel transcribed elements or transcript splicing. Here we acquired 975.2 x 106 mapped RNA-seq reads in 15 control and 15 ischemic cardiomyopathy (ICM) hearts, obtained at the time of heart transplantation. We identified over 1000 differentially expressed transcripts, and thousands of novel transcribed elements, some of which were differentially expressed in between control and ICM groups. We found that transcript processing of several cardiac genes was deranged in ICM. For instance, the ratio between specific MYH6 exons was significantly changed in ICM compared to controls, while this type of inter-exon variation was not observed for the adjoining gene MYH7. This RNA-seq study of the human heart failure transcriptome revealed the diversity of transcripts expressed in the human heart and their complex patterns of expression in the diseased heart. Transcriptome profiling (RNA-seq) of 15 control and 15 ischemic cardiomyopathy (ICM) hearts using Illumina GAII and SOLiD

Project description:Global gene expression is altered in heart failure. This syndrome can be caused by cardiovascular diseases, including dilated cardiomyopathy (DCM), ischemic cardiomyopathy (ICM), hypertrophic cardiomyopathy, viral or toxic myocarditis, hypertension, and valvular diseases. We used microarrays to evaluate the impact of heart failure on human nucleocytoplasmic transport-related genes examining simultaneoulsly both dilated and ischemic human cardiomyopathies compared to normal hearts.

Project description:We wanted to see whether the set of affected genes in ischemic cardiomyopathy (ICM) is the same or different as compared to dilated cardiomyopathy (DCM). To find this out, we placed the single DCM sample on the same microarray slide with the ICM samples. Analysis of microarray data with ICM samples only showed 63 affected genes, while that carried out with 2 ICM samples PLUS one DCM sample reduced this number to just four genes. From this result we conclude that ICM and DCM affect different sets of genes in ventricular myocytes. Keywords: Expression profiling by array From the associated publication: To find out whether the splice microarray results reported in Table 3 are disease-type specific, we supplemented the same splice microarray of ICM ventricular myocytes with one additional sample prepared from left ventricle of a 41-years old dilated cardiomyopathy male donor. The top-list ANOVA gene score annotation for combined altered CE&P genes in ventricular myocytes (Table 3) was reduced from 63 to just 4 genes (FXYD1 (Gfold = +2.4), HCN2 (-1.5), GLRA1 (-1.8) and GJC1 (-2.3)).

Project description:End stage heart failure due to ischemic cardiomyopathy (ICM) and dilated cardiomyopathy (DCM) have similar characteristics, enlargement of the ventricles, relatively thin-walled ventricle, which leads to a limited contraction force and blood loading. Nevertheless, the response for present therapeutics is very variable and the prognosis is still very bad for ICM and DCM in general. Thus, the ability to differentiate the etiologies of heart failure based structural and physiological changes of the heart would be a step forward to enhance the specificity and the success of given therapy.

Project description:We wanted to see whether the set of affected genes in ischemic cardiomyopathy (ICM) is the same or different as compared to dilated cardiomyopathy (DCM). To find this out, we placed the single DCM sample on the same microarray slide with the ICM samples. Analysis of microarray data with ICM samples only showed 63 affected genes, while that carried out with 2 ICM samples PLUS one DCM sample reduced this number to just four genes. From this result we conclude that ICM and DCM affect different sets of genes in ventricular myocytes. Keywords: Expression profiling by array

Project description:Neural cell adhesion molecule 1 (NCAM1; also known as CD56) is expressed in up to 20% of acute myeloid leukemia (AML) patients. Expression of NCAM1 is widely used as a marker of minimal residual disease; however, the biological function of this cell surface protein in AML remains elusive. In this study we investigated the impact of aberrant NCAM1 expression on leukemogenesis, drug resistance and its role as a biomarker to guide therapy.Gene expression profiling was performed with RNA-seq in three cell lines (SKM-1, NOMO-1, MOLM-14) after doxycycline-mediated induction of scrambled shRNA or shNCAM1 at timepoint 72 hours.

Project description:Isoform-specific regulation of NCAM1 gene expression in ischemic cardiomyopathy

Project description:The microtubule (MT) cytoskeleton can provide a mechanical resistance that can impede the motion of contracting cardiomyocytes. Yet a role of the MT network in human heart failure is unexplored. Here we utilize mass spectrometry to characterize changes to the cytoskeleton in human heart failure. Proteomic analysis of left ventricle tissue reveals a consistent upregulation and stabilization of intermediate filaments and MTs in human heart failure. This dataset includes left ventricular (LV) myocardium from 34 human hearts – either non-failing (NF) or failing hearts. NF hearts are subdivided into normal or compensated hypertrophy (cHyp), while failing hearts are subdivided into ischemic cardiomyopathy (ICM), dilated cardiomyopathy (DCM), and hypertrophic cardiomyopathy with preserved or reduced ejection fraction (HCMpEF and HCMrEF, respectively). Further details on patient classification and in vivo parameters on each heart are listed in sample details.txt.

Project description:Ischemic cardiomyopathy(ICM) and dilated cardiomyopathy(DCM), with distinct long-term prognosis and responses to treatment, are two major problems that lead to heart failure(HF) ultimately. In this study, we investigated the lncRNA and mRNA expressions in the plasma of patients with DCM and ICM and analyzed the different lncRNA profile between the two groups. These findings revealed for the first time the specific expression pattern of both protein-coding RNAs and lncRNAs in plasma of HF patients due to DCM and ICM which may provide some important evidence to conveniently identify the etiology of myocardial dysfunctions and help to explore a better strategy for future HF prognosis evaluation.