Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.1 (phosphodiesterase)
 18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Antibodies raised in rabbits to detergent-solubilized pig kidney microvillar proteins have been used to investigate the membrane hydrolases by crossed immunoelectrophoresis. Eight enzymes were detected by specific staining methods: aminopeptidase M, dipeptidylpeptidase IV, neutral endopeptidase, aminopeptidase A, carboxypeptidase P, gamma-glutamyltransferase, trehalase and phosphodiesterase I. The mobility of all these enzymes, with the exception of trehalase and neutral endopeptidase, was increased by treatment of the detergent-solubilized preparation with papain. The difference between the detergent and proteinase forms of these enzymes is attributed to the removal of a small, non-antigenic peptide to which detergent is bound in significant quantities. This interpretation was further supported by experiments in which the microvillus fraction was labelled with an intramembrane photolabelling reagent, 1-azido-4-[125I]iodobenzene. After photolysis, the radioactivity in the membrane could be solubilized by detergent treatment but not by papain treatment. Radioautography after crossed charge-shift immunoelectrophoresis showed a good correlation between charge-shift (signifying the presence of detergent bound to a hydrophobic domain) and the presence of the label.
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PMID:Proteins of the kidney microvillar membrane. Immunoelectrophoretic analysis of the membrane hydrolases: identification and resolution of the detergent- and proteinase-solubilized forms. 48 90

In this work we have characterized the ability of a carboxyl peptide-specific antibody (AS/7), raised against the alpha subunit of transducin (alpha T), to potentiate the stimulation of the cyclic GMP phosphodiesterase (PDE) by transducin. The complexation of the purified guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S)-bound form of alpha T (alpha T.GTP gamma S) with AS/7 results in a 2-5-fold enhancement in the total levels of cyclic GMP hydrolysis measured after 1 min. This potentiation by AS/7 cannot be attributed simply to an increase in the apparent affinity of alpha T.GTP gamma S for the effector enzyme, nor to an increased affinity of the enzyme for the substrate cyclic GMP. The AS/7-induced potentiation is specific for alpha T.GTP gamma S-PDE interactions; this antibody has no effect on the activity of the trypsin-activated PDE nor on the ability of the GDP-bound form of alpha T to inhibit the trypsin-activated enzyme (Kroll, S., Phillips, W. J., and Cerione, R. A. (1989) J. Biol. Chem. 264, 4490-4497). Phosphatidylcholine vesicles also will enhance the alpha T.GTP gamma S-stimulated PDE activity (1.5-2-fold) relative to that measured in the absence of a lipid milieu. However, the potentiations of alpha T-stimulated cyclic GMP hydrolysis elicited by AS/7 and lipids represent separate events. Titration profiles describing the AS/7-induced potentiation, as a function of the amount of antibody added to the assay mixtures, indicate that maximal activity occurs when there is one molecule of AS/7 per two molecules of alpha T.GTP gamma S; the AS/7-induced potentiation is lost when AS/7 much greater than alpha T. GTP gamma S, i.e. conditions which favor the formation of monovalent AS/7-alpha T.GTP gamma S complexes. When the AS/7 is papain-treated to yield monovalent antibody molecules, complexation between these monovalent antibodies and alpha T still occurs (as reflected by the ability of these antibodies to block rhodopsin-alpha T coupling); however, the potentiation of the alpha T.GTP gamma S-stimulated PDE activity is lost. Taken together, these results suggest that the AS/7-induced potentiation of alpha T-stimulated activity is dependent on the bivalent nature of the antibody, and maximal stimulation of PDE activity is achieved by the interactions of two activated-alpha T molecules with a single molecule of PDE.
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PMID:An antibody-induced enhancement of the transducin-stimulated cyclic GMP phosphodiesterase activity. 255 Apr 53

Purified calmodulin-stimulated cyclic nucleotide phosphodiesterase from brain, a homodimer of 59-kDa subunits, was activated by limited proteolysis with trypsin, alpha-chymotrypsin, Pronase, or papain and could not be further stimulated by addition of Ca2+ and calmodulin. Proteolysis increased Vmax and had little effect on the Km for cGMP. Treatment with alpha-chymotrypsin in the presence of ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA) produced, sequentially, 57- and 45-kDa peptides from the bovine and 55-, 53-, and 38-kDa peptides from the ovine enzyme. This protease-treated phosphodiesterase exhibited a Stokes radius of 3.9 nm and an S20,w value of 4.55; comparison with the hydrodynamic properties observed for native enzyme (4.3 nm, 5.95 S) strongly suggests a dimeric protein of Mr approximately 80,000-90,000. The proteolyzed species does not interact significantly with calmodulin immobilized on agarose, nor does it show complex formation with 2-dimethylaminonaphthalene-1-sulfonyl-calmodulin even at micromolar concentrations of protein. Proteolysis, in the presence of calmodulin plus Ca2+, fully activated phosphodiesterase, producing the same intermediate peptides; however, final peptides from the bovine and ovine enzymes were 47 and 42 kDa, respectively, indicating a new, specific conformation of the enzyme. When EGTA was added to such incubations, these peptides were cleaved to those of the size seen when proteolysis was carried out entirely in the presence of EGTA. The initial rate of activation was increased by the presence of Ca2+ and calmodulin, suggesting that, in complex, phosphodiesterase exhibits a site with increased susceptibility to proteolysis. Since calmodulin can still interact with a fully activated form of the enzyme, it appears that retention of calmodulin binding can occur concomitantly with damage to that portion of the phosphodiesterase molecule responsible for suppression of its basal catalytic activity.
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PMID:Proteolytic activation of calmodulin-dependent cyclic nucleotide phosphodiesterase. 299 Dec 33

Soluble enzymes, extracted from bovine retinal rod outer segments (ROS), were recombined with native ROS discs and discs which had been modified either by protease treatment or phosphorylation with rhodopsin kinase. The effect of these modifications on rhodopsin's ability to light-activate the ROS phosphodiesterase was determined. Trypsin, short-term thermolysin, and papain-digested discs were more effective in activating the phosphodiesterase than were undigested discs, whereas phosphorylated discs showed reduced ability to activate the phosphodiesterase. When a non-hydrolyzable analogue was employed in place of GTP in the assay, the same differences in the activation of phosphodiesterase as described above were observed between control discs and discs which were digested with thermolysin or phosphorylated. The proteolysis treatments remove various segments of amino acids from the carboxyl terminus of rhodopsin. In addition, at least seven phosphorylation sites are located in the terminal 15 amino acid residues of the carboxyl terminus of rhodopsin. Hence, it would appear from these studies that modifications of rhodopsin which affect the carboxyl terminus result in marked changes in the level of light-activatable phosphodiesterase activity, strongly suggesting a regulatory involvement in the light-activation process for this portion of rhodopsin.
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PMID:Activation of rod outer segment phosphodiesterase by enzymatically altered rhodopsin: a regulatory role for the carboxyl terminus of rhodopsin. 608 65

A phosphodiesterase activity is shown to copurify with the plasma membrane fraction prepared by the two-phase partition method. The enrichment in phosphodiesterase parallels that of alkaline phosphatase, which is thought to be a typical membranous enzyme. Up to 66% of the phosphodiesterase activity can be solubilized by a treatment with 0.2% Triton X-100. Higher doses were ineffective in solubilizing more activity. Analysis by native gel electrophoresis showed that an activity extracted by 2 M NaCl migrated at the same position as 'soluble' phosphodiesterase of cytosolic or extracellular origin. In contrast, the Triton-solubilized enzyme had an apparently higher molecular weight. When subjected to charge shift electrophoresis on agarose gels in the presence of an ionic detergent, the Triton-solubilized phosphodiesterase displayed a hydrophobic character. This behaviour contrasts with that of 'soluble' phosphodiesterases, the electrophoretic mobility of which is unaffected by the presence of an anionic detergent. The hydrophobic character of the membranous enzyme was lost after gentle hydrolysis by papain.
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PMID:The hydrophobic character of the membrane-bound phosphodiesterase from Dictyostelium discoideum. 626 Feb 58

Protein expression and secretion in insect cells have been widely studied in the baculovirus-infected insect cell system. In directly transfected insect cells only intracellular expression and purification of recombinant proteins have been studied in detail. To examine multiple recombinant protein variants, easy and fast expression and a purification screening system are required. The aim of this study was to establish an effective and rapid secretion system for human azurocidin using directly transfected insect cells. We also constructed and tested expression vectors possessing heterologous signal peptides derived from human azurocidin, yellow lupin diphosphonucleotide phosphatase/phosphodiesterase (PPD1), and papaya papain IV to secrete yellow lupin and red kidney bean purple acid phosphatases, PPD1, and papain IV. Our results demonstrate that the secretion vectors used here can direct recombinant proteins to the culture medium very effectively, allowing their simple purification on a small/medium scale. Based on secretion and activity analyses it seems that the azurocidin signal peptide is one of the most potent secretion signals.
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PMID:Comparison of different signal peptides for protein secretion in nonlytic insect cell system. 1704 7