Abstract
An accumulation of recent data on genetically engineered mouse models suggests that results from studies done in vitro are not necessarily duplicated in vivo. The genetic manipulation of the adrenergic receptor (AR) signaling system in the heart has afforded us the opportunity to not only study the physiological impact of AR signaling manipulation but also to examine how the various components interact with one another in vivo. In particular, although members of the G protein-coupled receptor kinase family do not exhibit substrate selectivity when overexpressed in cell culture, in vivo selectivity is apparent when examined in the cardiovascular system of genetically engineered mice. Additionally, transgenic expression of peptide inhibitors of signaling represents a powerful tool to examine specific targets in order to determine their contribution to a physiologic phenotype following stimulation. Finally, in vivo manipulation of the AR system has provided a broader understanding of the role that various G protein-coupled receptors play in situations where multiple members contribute to a phenotype. Thus, although in vitro studies allow for a more defined environment in which to study the signaling mediated by various receptors, it is essential to verify these findings in vivo to confirm or refute in vitro results.
Footnotes
- Abbreviations:
- GPCR
- G protein-coupled receptor
- GRK
- GPCR kinases
- AR
- adrenergic receptor
- PLC
- phospholipase C
- DAG
- diacylglycerol
- MAP kinase
- mitogen-activated protein kinase
- GqI
- inhibitor of Gq
- βARK
- β-adrenergic receptor kinase
- βARKct
- carboxyl-terminal portion of βARK
- HEK
- human embryonic kidney
- αMHC
- α-myosin heavy chain
- PLB
- phospholamban
- TAC
- transverse aortic constriction
- Received February 28, 2001.
- Accepted May 10, 2001.
- The American Society for Pharmacology and Experimental Therapeutics
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