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A phosphodiesterase is any enzyme that breaks a phosphodiester bond. Usually, people speaking of phosphodiesterase are referring to cyclic nucleotide phosphodiesterases, which have great clinical significance and are described below. However, many other enzyme families are, in the technical sense, phosphodiesterases, including phospholipases C and D, autotaxin, sphingomyelin phosphodiesterase, DNAses, RNAses, and restriction endonucleases (which all break the phosphodiester backbone of DNA or RNA), as well as numerous less-well-characterized small-molecule phosphodiesterases. The remainder of this article discusses the cyclic nucleotide phosphodiesterases:
The cyclic nucleotide phosphodiesterases (PDE) comprise a group of enzymes that degrade the phosphodiester bond in the second messenger molecules cAMP and cGMP. They regulate the localization, duration, and amplitude of cyclic nucleotide signaling within subcellular domains. PDEs are therefore important regulators of signal transduction mediated by these second messenger molecules.
Additional recommended knowledge
These multiple forms (isoforms or subtypes) of phosphodiesterase were initially isolated from rat brain by Uzunov and Weiss in 1972 and were soon afterward shown to be selectively inhibited by a variety of drugs in brain and other tissues.
The potential for selective phosphodisterase inhibitors to be used as therapeutic agents was predicted as early as 1977 by Weiss and Hait. This prediction has now come to pass in a variety of fields.
Classification and nomenclature
The PDE superfamily of enzymes is classified into 11 families, namely PDE1-PDE11, in mammals. The classification is based on:
PDE3 is sometimes referred to as cGMP-inhibited phosphodiesterase.
The nomenclature for PDE indicates PDE family by an Arabic numeral that is followed by a capital letter to denote the gene within a family. A second Arabic numeral indicates the splice variant derived from a single gene (e.g., PDE1C3: family 1, gene C, splicing variant 3)
PDE enzymes are often targets for pharmacological inhibition due to their unique tissue distribution, structural properties, and functional properties. 
Inhibitors of PDE can prolong or enhance the effects of physiological processes mediated by cAMP or cGMP by inhibition of their degradation by PDE.
Cilostazol (Pletal) inhibits PDE3. This inhibition allows Red Blood Cells to be more able to bend. This is useful in conditions such as intermittent claudication, as the cells can maneuver through constricted veins and arteries more easily.
|This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Phosphodiesterase". A list of authors is available in Wikipedia.|