The Laboratory of Cardiovascular Science has a strong commitment to the study of aging myocardium. To identify gene products in heart potentially involved in aging, functional genomic analyses (cDNA microarrays and Serial Analysis of Gene Expression) have been employed to analyze mRNA from left ventricles of Fisher 344 rats with or without caloric restriction, Wistar rats, C57Bl/6 mice during the perinatal period and with aging, CBA mice treated with biopeptides implicated in gerontoprotection, and human biopsies from failing and non-failing myocardium.
The aim of these projects are to determine which gene products are regulated as a function of age or disease, and then use independent methods to determine the underlying mechanisms responsible for the altered changes in gene expression. In 2002, we published a reference dataset (SAGE analysis) of the mouse myocardium that is publicly available, and we have expanded these studies to examine male versus female mice and young versus old mice. ? We have completed a large-scale transcriptome analysis of an aging Fisher 344 aging rat model and compared these results with other rodent strains. We are completing an extensive quantitative-PCR analysis to validate these data, and by independent techniques, to determine the significance of the changes in gene expression with the aging process. We have expanded our aging studies in rodent to include in vitro analyses of cultured cardiomyoyctes and fibroblasts to delineate mechanisms underlying the aging response of cardiac genes, and are in the process of elucidating genetic correlates underlying these changes in transcript abundance.? Finally, we have employed functional genomic techniques (microarrays) to examine the transcriptomes of LVs from failing (n=8) and non-failing human myocardium (n=7). Following identification of a pool of HF-responsive candidate genes by microarrays and statistical methods, we employed Q-PCR on a larger sample population (n=34) to validate and examine the role of contributing biological variables (age and gender). We find that most of the HF-candidate genes (including transcription factors, modifying enzymes, ECM proteins and metabolic enzymes) demonstrated significant changes in gene expression; however, the majority of the putative changes depended on variables such as sex and age, and not on HF alone. Additionally, some putative HF-responsive gene products demonstrated highly significant changes in expression as a function of age and/or sex, but independent of HF. These studies with human samples have now expanded to include hypertension, and we have begun a meta analysis of human heart failure data. The data from each of these projects are being compared in an effort to identify and analyze the function of candidate genes in aging and disease.? ? Our most recent data indicate that OSF1 may potentiate the apoptotic response of cardiomyocytes following cell damage, as well as activate pro-angiogenic responses. These data have been submitted for publication.

Agency
National Institute of Health (NIH)
Institute
National Institute on Aging (NIA)
Type
Intramural Research (Z01)
Project #
1Z01AG000288-08
Application #
7591975
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
8
Fiscal Year
2007
Total Cost
$654,709
Indirect Cost
Name
National Institute on Aging
Department
Type
DUNS #
City
State
Country
United States
Zip Code
Zahn, Jacob M; Poosala, Suresh; Owen, Art B et al. (2007) AGEMAP: a gene expression database for aging in mice. PLoS Genet 3:e201
Tarasov, Kirill V; Brugh, Sheryl A; Tarasova, Yelena S et al. (2007) Serial Analysis of Gene Expression (SAGE): a useful tool to analyze the cardiac transcriptome. Methods Mol Biol 366:41-59
Volkova, Maria; Garg, Rahul; Dick, Salihah et al. (2005) Aging-associated changes in cardiac gene expression. Cardiovasc Res 66:194-204
Boheler, Kenneth R (2004) Functional markers and the ""homogeneity"" of human mesenchymal stem cells. J Physiol 554:592
Boheler, Kenneth R; Volkova, Maria; Morrell, Christopher et al. (2003) Sex- and age-dependent human transcriptome variability: implications for chronic heart failure. Proc Natl Acad Sci U S A 100:2754-9
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Shivakumar, K; Dostal, David E; Boheler, Kenneth et al. (2003) Differential response of cardiac fibroblasts from young adult and senescent rats to ANG II. Am J Physiol Heart Circ Physiol 284:H1454-9
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Anisimov, Sergey V; Tarasov, Kirill V; Stern, Michael D et al. (2002) A quantitative and validated SAGE transcriptome reference for adult mouse heart. Genomics 80:213-22