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

The potent tumor promoter, 12-O-tetradecanoylphorbol-13-acetate, produced a 2- to 3-fold increase in the activity of both the low- and high-affinity forms of cyclic adenosine 3':5'-monophosphate phosphodiesterase activity 13 hr after application to mouse skin. The magnitude of the enzyme induction correlated with the tumor-promoting activity of several doses of 12-O-tetradecanoylphorbol-13-acetate and of other phorbol esters. The induction of the low-affinity phosphodiesterase could be blocked by prior i.p. injection of the microtubule poisons, colchicine and vinblastine. The low-affinity cyclic adenosine 3':5'-monophosphate phosphodiesterase activity of the epidermal component of mouse skin papillomas produced by two-stage tumorigenesis was 3 times that of the surrounding uninvolved epidermis.
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PMID:Increased cyclic adenosine 3':5'-monophosphate phosphodiesterase activity in the epidermis of phorbol ester-treated mouse skin and in papillomas. 22 Oct 99

Urethane produces threefold more skin papillomas when administered orally than dermally in SENCAR mice, a strain susceptible to tumorigenesis. To better understand the relation of distribution to the initiation stage, [14C]urethane (0.10 mg/kg, 2.5 muCi/25 g) was administered orally and dermally to male SENCAR and BALB/c mice. Absorption of urethane was greater in the first hour in SENCAR mice by both routes, as indicated by more label in the liver, lung, and stomach than found in these tissues in BALB/c mice. These differences were not observed at later time periods after oral administration. Following dermal application, higher levels were maintained in the liver, lungs, and stomach through 48 h in the SENCAR mice when compared to BALB/c mice. Binding of [14C]urethane (0.062 mg/g body weight, 20 microCi/20 g body weight) to DNA, RNA, and protein 6 h after oral administration varied with tissue (liver greater than stomach greater than skin = lung) but did not differ with strain. Binding to DNA in skin, lung, and stomach, RNA in stomach, and protein in stomach and liver after 48 h were significantly higher in SENCAR mice than in BALB/c mice. Dermal application of [14C]urethane resulted in severalfold higher binding to liver DNA of SENCAR mice than BALB/c mice, but DNA binding was comparable in other tissues after 6 h. At 48 h after dermal application, significantly higher levels of [14C]urethane remained bound to skin DNA, RNA, and protein in BALB/c mice, although all values were lower than at 6 h after treatment. Differences in the distribution and binding of urethane probably do not account for the discrepancies in tumor sensitivity. Liver DNA hydrolysates were examined after 48 h. Thin-layer chromatography showed little incorporation of the 14C into the normal deoxyribonucleotide or deoxyribonucleoside bases, and no modified bases were apparent. Radioactivity was present in the fraction that remained at the origin and was consistent with a dinucleotide fragment resistant to phosphodiesterase cleavage, such as a phosphotriester.
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PMID:Distribution of urethane and its binding to DNA, RNA, and protein in SENCAR and BALB/c mice following oral and dermal administration. 241 23

Autotaxin (ATX), an exo-nucleotide pyrophosphatase and phosphodiesterase, was originally isolated as a potent stimulator of tumor cell motility. In order to study whether ATX expression affects motility-dependent processes such as invasion and metastasis, we stably transfected full-length ATX cDNA into two non-expressing cell lines, parental and ras-transformed NIH3T3 (clone7) cells. The effect of ATX secretion on in vitro cell motility was variable. The ras-transformed, ATX-secreting subclones had enhanced motility to ATX as chemoattractant, but there was little difference in the motility responses of NIH3T3 cells transfected with atx, an inactive mutant gene, or empty vector. In MatrigelTM invasion assays, all subclones, which secreted enzymatically active ATX, demonstrated greater spontaneous and ATX-stimulated invasion than appropriate controls. This difference in invasiveness was not caused by differences in gelatinase production, which was constant within each group of transfectants. In vivo studies with athymic nude mice demonstrated that injection of atx-transfected NIH3T3 cells resulted in a weak tumorigenic capacity with few experimental metastases. Combination of ATX expression with ras transformation produced cells with greatly amplified tumorigenesis and metastatic potential compared to ras-transformed controls. Thus, ATX appears to augment cellular characteristics necessary for tumor aggressiveness.
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PMID:Autotaxin (ATX), a potent tumor motogen, augments invasive and metastatic potential of ras-transformed cells. 1064 2

Exisulind (Aptosyn) is a novel antineoplastic drug being developed for the prevention and treatment of precancerous and malignant diseases. In colon tumor cells, the drug induces apoptosis by a mechanism involving cyclic GMP (cGMP) phosphodiesterase inhibition, sustained elevation of cGMP, and protein kinase G activation. We studied the effect of exisulind on bladder tumorigenesis induced in rats by the carcinogen, N-butyl-N-(4-hydroxybutyl) nitrosamine. Exisulind at doses of 800, 1000, and 1200 mg/kg (diet) inhibited tumor multiplicity by 36, 47, and 64% and tumor incidence by 31, 38, and 61%, respectively. Experiments on the human bladder tumor cell line, HT1376, showed that exisulind inhibited growth with a GI(50) of 118 microM, suggesting that the antineoplastic activity of the drug in vivo involved a direct effect on neoplastic urothelium. Exisulind also induced apoptosis as determined by DNA fragmentation, caspase activation, and morphology. Analysis of phosphodiesterase (PDE) isozymes in HT1376 cells showed PDE5 and PDE4 isozymes that were inhibited by exisulind with IC(50)s of 112 and 116 microM, respectively. Inhibition of PDE5 appears to be pharmacologically relevant, because treatment of HT1376 cells increased cGMP and activated protein kinase G at doses that induce apoptosis, whereas cyclic AMP levels were not changed. Immunocytochemistry showed that PDE5 was localized in discrete perinuclear foci in HT1376 cells. Immunohistochemistry showed that PDE5 was overexpressed in human squamous and transitional cell carcinomas compared with normal urothelium. The data lead us to conclude that future clinical trials of exisulind for human bladder cancer treatment and/or prevention should be considered and suggest a mechanism of action involving cGMP-mediated apoptosis induction.
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PMID:Exisulind, a novel proapoptotic drug, inhibits rat urinary bladder tumorigenesis. 1135 13

It has been repeatedly observed that non-steroidal anti-inflammatory drugs, in particular sulindac and derivatives, may effectively prevent colorectal cancer. It has become apparent that exisulind (sulindac sulfone) induces apoptosis in tumor cells. Cell biological studies provided circumstantial evidence that the mechanism by which these agents exert their antitumor effect should be attributed to inhibition of cyclic-GMP phosphodiesterase (cGMP-PDE). The secondary increase of cGMP activates protein kinase G (PKG) and induces transcription of caspase genes, resulting in apoptosis. cGMP-PDEs comprise 11 gene families. Each family of PDEs is characterized by their ability to bind and degrade cAMP and cGMP but differs in physical and kinetic properties. Any single type of cell expresses a limited number of PDE-isoforms in order to regulate cGMP or cAMP levels. The majority of PDE inhibitors that have been investigated until now, except exisulind and a number of its analogs, do not induce apoptosis in tumor cells. Sulindac has a preventive effect on tumorigenesis in patients with polyposis of the colon. The anticancer effect of the novel sulindac derivatives has been demonstrated in over 50 different tumor cell lines, as well as in animal models of a variety of human cancers, such as mammary, prostate, lung and pancreatic carcinomas. Selective apoptotic antineoplastic drugs (SAANDs), as developed by Cell Pathways Inc, represent a novel class of anticancer agents that target a novel form of cGMP-PDE. It is believed that this enzyme is selectively increased in precancerous and cancerous cells. By specifically inhibiting the action of this particular cGMP-PDE, SAANDs enable various tumor cells to process an apoptotic signal and to commit suicide without affecting normal cells. As a result, side effects normally associated with traditional chemotherapeutic agents are not observed. One of the new compounds, CP-461, appeared < or = 100-fold more potent than exisulind in vitro. Studies of human cancer cell lines in vitro and dose-ranging phase I/II studies, both oral and iv, are discussed. Combinations of CP-461 with other chemotherapeutic agents are well tolerated.
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PMID:Sulindac and its derivatives: a novel class of anticancer agents. 1156 47

In recent years, remarkable progress has been made in the understanding of the pathogenesis of pituitary tumors. Pituitary tumors originate from the uncontrolled proliferation of a single transformed cell in which an initiating event has caused a gain of proliferative function. After the initiation, promoting factors cooperate in the clonal expansion. Common oncogenes, such as ras, are only exceptionally involved. The only activating mutations identified so far are gsp mutations causing the constitutive activation of cAMP pathway. However, gsp-positive adenomas are not associated to a more aggressive tumoral phenotype. The oncogenic potential of gsp mutations is limited by a more rapid degradation of the mutant Gs(alpha) with respect to the wild-type protein, and by a faster removal of cAMP due to increased phosphodiesterase activity. Estrogen-inducible gene sequences with transforming properties (pituitary tumor-transforming gene (PTTG)) have been identified in human pituitary tumors. Human pituitary tumor-transforming gene (hPTTG) is involved both in early pituitary tumorigenesis, as it causes in vitro and in vivo transformation acting as a transcription activator, and in tumor progression, as it regulates the production of basic fibroblast growth factor (bFGF), a potent activator of angiogenesis and mitogenesis. Moreover, a role of cyclin D1 in pituitary tumorigenesis is emerging. The allelic loss of loci for unknown oncosuppressor genes are currently under investigation, while an exceedingly limited role for menin gene and RB1 has been demonstrated for sporadic pituitary tumors. Abnormal methylation that predisposing toward genetic instability may favor the allelic loss or the reduced expression of oncosuppressor genes, is also an emerging field of investigation. Several promoting factors, including the excessive action of physiological stimulators, the defective action of inhibitors, the susceptibility to respond to inappropriate stimuli and the locally produced growth factors, help in tumor progression. The study of homeobox genes that intervene in pituitary cell differentiation may help in expanding our knowledge in pituitary tumor cell genealogy.
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PMID:Genesis of pituitary adenomas: state of the art. 1176 37

Alkaline sphingomyelinase (alk-SMase) is a new member of the NPP (nucleotide pyrophosphatase/phosphodiesterase) family that hydrolyses SM (sphingomyelin) to generate ceramide in the intestinal tract. The enzyme may protect the intestinal mucosa from inflammation and tumorigenesis. PAF (platelet-activating factor) is a pro-inflammatory phospholipid involved in pathogenesis of inflammatory bowel diseases. We examined whether alk-SMase can hydrolyse and inactivate PAF. [3H]Octadecyl-labelled PAF was incubated with purified rat intestinal alk-SMase or recombinant human alk-SMase expressed in COS-7 cells. The hydrolytic products were assayed with TLC and MS. We found that alkSMase cleaved the phosphocholine head group from PAF and generated 1-O-alkyl-2-acetyl-sn-glycerol. Differing from the activity against SM, the activity against PAF was optimal at pH 7.5, inhibited by EDTA and stimulated by 0.1-0.25 mM Zn2+. The activity was abolished by site mutation of the predicted metal-binding sites that are conserved in all NPP members. Similar to the activity against SM, the activity against PAF was dependent on bile salt, particularly taurocholate and taurochenodeoxycholate. The V(max) for PAF hydrolysis was 374 mumol x h(-1) x (mg of protein)(-1). The hydrolysis of PAF and SM could be inhibited by the presence of SM and PAF respectively, the inhibition of PAF hydrolysis by SM being stronger. The PAF-induced MAPK (mitogen-activated protein kinase) activation and IL-8 (interleukin 8) release in HT-29 cells, and chemotaxis in leucocytes were abolished by alk-SMase treatment. In conclusion, alk-SMase hydrolyses and inactivates PAF by a phospholipase C activity. The finding reveals a novel function, by which alk-SMase may counteract the development of intestinal inflammation and colon cancer.
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PMID:Intestinal alkaline sphingomyelinase hydrolyses and inactivates platelet-activating factor by a phospholipase C activity. 1625 17

Phosphodiesterase-Ialpha/autotaxin (PD-Ialpha/ATX) was originally identified as a cell-motility-stimulating factor secreted by a variety of tumor cells. Thus, studies related to its potential functional roles have traditionally focused on tumorigenesis. PD-Ialpha/ATX's catalytic activity, initially defined as nucleotide pyrophosphatase/phosphodiesterase, was soon recognized as being necessary for its tumor cell-motility-stimulating activity. However, only the discovery of PD-Ialpha/ATX's identity with lysophospholipase D, an extracellular enzyme that converts lysophosphatidylcholine into lysophosphatidic acid (LPA) and potentially sphingosylphosphoryl choline into sphingosine 1-phosphate (S1P), revealed the actual effectors responsible for PD-Ialpha/ATX's ascribed motogenic functions, i.e., its catalytic products. PD-Ialpha/ATX has also been detected during normal development in a number of tissues, in particular, the central nervous system (CNS), where expression levels are high. Similar to tumor cells, PD-Ialpha/ATX-expressing CNS cells secrete catalytically active PD-Ialpha/ATX into the extracellular environment. Thus, it appears reasonable to assume that PD-Ialpha/ATX's CNS-related functions are mediated via lysophospholipid, LPA and potentially S1P, signaling. However, recent studies identified PD-Ialpha/ATX as a matricellular protein involved in the modulation of oligodendrocyte-extracellular matrix interactions and oligodendrocyte remodeling. This property of PD-Ialpha/ATX was found to be independent of its catalytic activity and to be mediated by a novel functionally active domain. These findings, therefore, uncover PD-Ialpha/ATX, at least in the CNS, as a multifunctional protein able to induce complex signaling cascades via distinct structure-function domains. This Mini-Review describes PD-Ialpha/ATX's multifunctional roles in the CNS and discusses their potential contributions to CNS development and pathology.
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PMID:Phosphodiesterase-Ialpha/autotaxin (PD-Ialpha/ATX): a multifunctional protein involved in central nervous system development and disease. 1626 28

Alkaline sphingomyelinase (alk-SMase) is present in the intestinal tract and additionally human bile. It hydrolyses sphingomyelin in both intestinal lumen and the mucosal membrane in a specific bile salt dependent manner. The enzyme was discovered 36 years ago but got real attention only in the last decade, when sphingomyelin metabolism was realized to be a source of multiple lipid messengers, and when dietary sphingomyelin was found to inhibit colonic tumorigenesis in animals. The enzyme shares no structural similarity with other SMases and belongs to the nucleotide pyrophosphatase/phosphodiesterase family. The enzyme is of specific properties, such as bile salt dependency, trypsin resistance, high stability, and tissue specific expression. In the colon, the enzyme may play antiproliferative and antiinflammatory roles through generating ceramide, reducing the formation of lysophosphatidic acid, and inactivating platelet-activating factor. The enzyme is down regulated in human long-standing ulcerative colitis and colonic adenocarcinoma, and mutation of the enzyme has been found in colon cancer cells. In the small intestine, alk-SMase is the key enzyme for sphingomyelin digestion. The hydrolysis of sphingomyelin may affect the cholesterol uptake and have impact on sphingomyelin levels in plasma lipoproteins. The review summarizes the new information of alk-SMase from biochemical, cell and molecular biological studies in the last decade and evaluates its potential implications in development of colon cancer, inflammatory bowel diseases, and atherosclerosis.
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PMID:Alkaline sphingomyelinase: an old enzyme with novel implications. 1663 5

Agonists of guanylyl-C receptor, such as guanylin/uroguanylin, are correlated not only with the intestinal cell epithelial physiology but also with the colorectal cancer tumorigenesis. Activation of the second intracellular messenger cyclic guanosine monophosphate by guanylyl cyclase-C receptor results in a complex intracellular signalling cascade involving the phosphodiesterase, the ion channels and the protein kinase. After an analytical review of relevant new knowledge, new diagnostic and therapeutic approaches for colorectal cancer are discussed.
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PMID:Guanylin peptides and colorectal cancer (CRC). 1758 27


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