Xiao Tang scite author profile

cGMP-speci®c, cGMP-binding phosphodiesterase (PDE5) regulates such physiological processes as smooth muscle relaxation and neuronal survival. PDE5 contains two N-terminal domains (GAF A and GAF B), but the functional roles of these domains have not been determined. Here we show that recombinant PDE5 is activated directly upon cGMP binding to the GAF A domain, and this effect does not require PDE5 phosphorylation. PDE5 exhibited time-and concentration-dependent reversible activation in response to cGMP, with the highest activation (9-to 11-fold) observed at low substrate concentrations (0.1 mM cGMP). A monoclonal antibody directed against GAF A blocked cGMP binding, prevented PDE5 activation and decreased basal activity, revealing that PDE5 in its non-activated state has low intrinsic catalytic activity. Activated PDE5 showed higher sensitivity towards sildena®l than non-activated PDE5. The stimulatory effect of cGMP binding on the catalytic activity of PDE5 suggests that this mechanism of enzyme activation may be common among other GAF domain-containing proteins. The data also suggest that development of agonists and antagonists of PDE5 activity based on binding to this site might be possible.

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Molecular Determinants for Cyclic Nucleotide Binding to the Regulatory Domains of Phosphodiesterase 2A

Tang

Martinez

et al. 2004

Journal of Biological Chemistry

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Binding of cGMP to the GAF-B domain of phosphodiesterase 2A allosterically activates catalytic activity. We report here a series of mutagenesis studies on the GAF-B domain of PDE2A that support a novel mechanism for molecular recognition of cGMP. Alanine mutations of Phe-438, Asp-439, and Thr-488, amino acids that interact with the pyrimidine ring, decrease cGMP affinity slightly but increase cAMP affinity by up to 8-fold. Each interaction is required to provide for cAMP/cGMP specificity. Mutations of any of the residues that interact with the phosphate-ribose moiety or the imidazole ring abolish cGMP binding. Thus, residues that interact with the pyrimidine ring collectively control cAMP/cGMP specificity, whereas residues that bind the phosphateribose moiety and imidazole ring are critical for high affinity binding. Similar decreases in binding were found for mutations made in a bacterially expressed GAF-A/B plus catalytic domain construct. Because these constructs had very high catalytic activity, it appears that these mutations did not cause a global denaturation. The affinities of cAMP and cGMP for wild-type GAF-B alone were ϳ4-fold greater than for the holoenzyme, suggesting that the presence of neighboring domains alters the conformation of GAF-B. More importantly, the PDE2A GAF-B, GAF-A/B, GAF-A/B؉C domains, and holoenzyme all bind cGMP with much higher affinity than has previously been reported. This high affinity suggests that cGMP binding to PDE2 GAF-B activates the enzyme rapidly, stoichiometrically, and in an all or none fashion, rather than variably over a large range of cyclic nucleotide concentrations.

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Blood Pressure Is Regulated by an α1D-Adrenergic Receptor/Dystrophin Signalosome

Lyssand

DeFino

Tang

et al. 2008

Journal of Biological Chemistry

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Hypertension is a cardiovascular disease associated with increased plasma catecholamines, overactivation of the sympathetic nervous system, and increased vascular tone and total peripheral resistance. A key regulator of sympathetic nervous system function is the ␣ 1D -adrenergic receptor (AR), which belongs to the adrenergic family of G-protein-coupled receptors (GPCRs). Endogenous catecholamines norepinephrine and epinephrine activate ␣ 1D -ARs on vascular smooth muscle to stimulate vasoconstriction, which increases total peripheral resistance and mean arterial pressure. Indeed, ␣ 1D -AR KO mice display a hypotensive phenotype and are resistant to salt-induced hypertension. Unfortunately, little information exists about how this important GPCR functions because of an inability to obtain functional expression in vitro. Here, we identified the dystrophin proteins, syntrophin, dystrobrevin, and utrophin as essential GPCR-interacting proteins for ␣ 1D -ARs. We found that dystrophins complex with ␣ 1D -AR both in vitro and in vivo to ensure proper functional expression. More importantly, we demonstrate that knock-out of multiple syntrophin isoforms results in the complete loss of ␣ 1D -AR function in mouse aortic smooth muscle cells and abrogation of ␣ 1D -AR-mediated increases in blood pressure. Our findings demonstrate that syntrophin and utrophin associate with ␣ 1D

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Xiao Tang

Cyclic nucleotide analogs as probes of signaling pathways

PDE5 is converted to an activated state upon cGMP binding to the GAF A domain

Molecular Determinants for Cyclic Nucleotide Binding to the Regulatory Domains of Phosphodiesterase 2A

Blood Pressure Is Regulated by an α1D-Adrenergic Receptor/Dystrophin Signalosome

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