Mapping and Antagonizing the Interaction Between Phosphodiesterase 3B and Exchange Protein Activated by cAMP-1 Elucidates Their Roles in Endothelial Cell Adhesion
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Authors
Pritchard, Lisa
Date
2009-10-07T17:50:17Z
Type
thesis
Language
eng
Keyword
Phosphodiesterase 3B , EPAC , Endothelial Cells , cAMP Signalling , SPOT Synthesis Technology , Adhesion
Alternative Title
Abstract
The ubiquitous second messenger cAMP acts to integrate and translate information encoded by extracellular messenger molecules, including hormones and neurotransmitters. Intracellular cAMP concentrations are regulated through coordinated changes in the activities of adenylyl cyclases (ACs) and cyclic nucleotide phosphodiesterases (PDEs). Freely diffusing cAMP can reach concentrations sufficient to activate cAMP effector proteins, such as protein kinase A (PKA) or the exchange protein activated by cAMP (EPAC), except in defined compartments where PDEs are localized which allows for spatial and temporal control of the cAMP signal. In human aortic vascular endothelial cells (HAECs) and HEK293T cells we recently identified a macromolecular complex consisting of PDE3B and EPAC and showed that this complex coordinated cAMP-induced effects on adhesion of these cells to fibronectin-coated surfaces. Using “pull-down” assays and peptide array-based approaches we have identified the molecular determinants which coordinate the formation of this complex. Our evidence suggests that the extreme N-terminal 13 amino acids of PDE3B represent the portion of PDE3B that interacts with EPAC. In addition, although several EPAC-encoded peptides were shown to bind PDE3B, immunoprecipitation-based studies identified a region proximal to the cAMP-binding domains as likely to have a dominant role in this binding. Of functional relevance, a cell permeable peptide containing these amino-terminal 13 amino acids of PDE3B antagonizes PDE3B-EPAC interactions in cells. In addition, this peptide impacted the ability of cAMP-elevating agents to coordinate EPAC-dependent cell adhesions.
Description
Thesis (Master, Pathology & Molecular Medicine) -- Queen's University, 2009-10-06 19:07:12.01
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