Molecular mechanisms of reduced {beta}-adrenergic signaling in the aged heart as revealed by genomic profiling

doi:10.1152/physiolgenomics.00076.2003

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Physiol. Genomics 15: 142-147, 2003. First published August 5, 2003; doi:10.1152/physiolgenomics.00076.2003
1094-8341/03 $5.00

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Received 30 April 2003; accepted in final form 30 June 2003.
Physiological Genomics 15:142-147 (2003)
1094-8341/03 $5.00 © 2003 American Physiological Society

Molecular mechanisms of reduced ß-adrenergic signaling in the aged heart as revealed by genomic profiling

James G. Dobson, Jr. ¹, John Fray ¹, Jack L. Leonard ¹ and Richard E. Pratt ²

¹ Genomic Physiology Group, Department of Physiology, University of Massachusetts Medical School, Worcester 01655
² Laboratory of Genetic Physiology, Department of Medicine, Brigham and Women’s Hospital, Boston, Massachusetts 02115

Myocardial aging leads to a reduction of ß-adrenergicreceptor-induced metabolic and contractile responsiveness. Wehypothesize that a change in the patterns of gene expressionis important in these age-related events. To test this, heartswere harvested from young and aged male rats (3–4 and20–22 mo, respectively). Total mRNA was extracted andprepared for hybridization to Affymetrix U34A GeneChips. Filteringcriteria, involving fold change and a statistical significancecutoff were employed, yielding 263 probe pairs exhibiting differentialsignals. Of the 163 annotated genes, at least 56 (34%) wereclassified as signaling/cell communication. Of these 56, approximatelyhalf were directly involved in G protein-coupled receptor signalingpathways. We next determined which of these changes might beinvolved in anti-adrenergic activity and identified 19 potentiallyimportant gene products. Importantly, we observed a decreasein ß₁-adrenergic receptor and adenylyl cyclase mRNAs,whereas the mRNA encoding ß-arrestin increased. Furthermore,the results demonstrate an increase in mRNAs encoding the adenosineA₁ receptor and phospholipase D, which could increase anti-adrenergiceffects. Moreover, the mRNAs encoding the muscarinic M3 receptor,nicotinic acetylcholine receptor ß3, and nicotinicacetylcholine receptor-related protein were increased as wasthe mRNA encoding guanylate kinase-associated protein. Interestingly,we also observed eight mRNAs whose abundance changed three-to sixfold with aging that could be considered as being compensatory.Although these results do not prove causality, they demonstratethat cardiac aging is associated with changes in the profilesof gene expression and that many of these changes may contributeto reduced adrenergic signaling.

gene expression; aging; anti-adrenergic; G protein-coupled receptors; physiological genomics

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