OBJECTIVE: To investigate the global changes accompanying human dilated cardiomyopathy (DCM) we performed a large-scale expression screen using myocardial biopsies from a group of DCM patients with moderate heart failure. By hierarchical clustering and functional annotation of the deregulated genes we examined extensive changes in the cellular and molecular processes associated to DCM. METHODS: The expression profiles were obtained using a whole genome covering library (UniGene RZPD1) comprising 30336 cDNA clones and amplified RNA from myocardiac biopsies from 10 DCM patients in comparison to tissue samples from four non-failing, healthy donors. RESULTS: By setting stringent selection criteria 364 differentially expressed, sequence-verified non-redundant transcripts were identified with a false discovery rate of <0.001. Numerous genes and ESTs were identified representing previously recognised, as well as novel DCM-associated transcripts. Many of them were found to be upregulated and involved in cardiomyocyte energetics, muscle contraction or signalling. Two hundred and twenty-two deregulated transcripts were functionally annotated and hierarchically clustered providing an insight into the pathophysiology of DCM. Data was validated using the MLP-deficient mouse, in which several differentially expressed transcripts identified in the human DCM biopsies could be confirmed. CONCLUSIONS: We report the first genome-wide expression profile analysis using cardiac biopsies from DCM patients at various stages of the disease. Although there is a diversity of links between the cytoskeleton and the initiation of DCM, we speculate that genes implicated in intracellular signalling and in muscle contraction are associated with early stages of the disease. Altogether this study represents the most comprehensive and inclusive molecular portrait of human cardiomyopathy to date.
OBJECTIVE: To investigate the global changes accompanying humandilated cardiomyopathy (DCM) we performed a large-scale expression screen using myocardial biopsies from a group of DCMpatients with moderate heart failure. By hierarchical clustering and functional annotation of the deregulated genes we examined extensive changes in the cellular and molecular processes associated to DCM. METHODS: The expression profiles were obtained using a whole genome covering library (UniGene RZPD1) comprising 30336 cDNA clones and amplified RNA from myocardiac biopsies from 10 DCMpatients in comparison to tissue samples from four non-failing, healthy donors. RESULTS: By setting stringent selection criteria 364 differentially expressed, sequence-verified non-redundant transcripts were identified with a false discovery rate of <0.001. Numerous genes and ESTs were identified representing previously recognised, as well as novel DCM-associated transcripts. Many of them were found to be upregulated and involved in cardiomyocyte energetics, muscle contraction or signalling. Two hundred and twenty-two deregulated transcripts were functionally annotated and hierarchically clustered providing an insight into the pathophysiology of DCM. Data was validated using the MLP-deficient mouse, in which several differentially expressed transcripts identified in the humanDCM biopsies could be confirmed. CONCLUSIONS: We report the first genome-wide expression profile analysis using cardiac biopsies from DCMpatients at various stages of the disease. Although there is a diversity of links between the cytoskeleton and the initiation of DCM, we speculate that genes implicated in intracellular signalling and in muscle contraction are associated with early stages of the disease. Altogether this study represents the most comprehensive and inclusive molecular portrait of humancardiomyopathy to date.
Authors: S Szmit; M Jank; H Maciejewski; M Grabowski; R Glowczynska; A Majewska; K J Filipiak; T Motyl; G Opolski Journal: J Appl Genet Date: 2010 Impact factor: 3.240
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Authors: Cristian T Badea; Laurence W Hedlund; Julie F Boslego Mackel; Lan Mao; Howard A Rockman; G Allan Johnson Journal: Mol Imaging Date: 2007 Jul-Aug Impact factor: 4.488
Authors: Junying Zheng; Danielle M Yancey; Mustafa I Ahmed; Chih-Chang Wei; Pamela C Powell; Mayilvahanan Shanmugam; Himanshu Gupta; Steven G Lloyd; David C McGiffin; Chun G Schiros; Thomas S Denney; Gopal J Babu; Louis J Dell'Italia Journal: Circ Heart Fail Date: 2013-12-02 Impact factor: 8.790
Authors: Stefan Kääb; Andreas S Barth; Daniel Margerie; Martin Dugas; Mathias Gebauer; Ludwig Zwermann; Sylvia Merk; Arne Pfeufer; Klaus Steinmeyer; Markus Bleich; Eckart Kreuzer; Gerhard Steinbeck; Michael Näbauer Journal: J Mol Med (Berl) Date: 2004-04-23 Impact factor: 4.599