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)

Rabbit articular chondrocytes synthesize type II collagen [3alpha(1)(II)] in vivo and type I collagen [2alpha(1)(I).alpha(2)] in monolayer cultures. In suspension culture the nature of phenotype depends on extracellular Ca(2+). The relationship of Ca(2+) and 3':5'-cyclic AMP (cAMP) in regulation of collagen synthesis has been investigated. In suspension culture, cAMP levels of chondrocytes increase by 2- to 3-fold and then reach basal values regardless of the presence or absence of extracellular Ca(2+). The cells, however, synthesize primarily type II collagen in the absence of CaCl(2) in the medium and type I collagen in medium containing 1.8 mM CaCl(2). If CaCl(2) is added when intracellular cAMP levels are low, the phenotype is type I collagen. These observations minimize the role of cAMP as a second messenger in the chondrocyte culture system. Increasing endogenous cAMP with a phosphodiesterase inhibitor or adding exogenous dibutyryl-cAMP leads the cells to synthesize type I collagen, although this effect is significantly less pronounced if the medium contains ethylene glycol bis(beta-aminoethyl ether)-N,N'-tetraacetic acid (EGTA). Increased concentrations of cAMP may mobilize the intracellular calcium pools and activate the cells to switch their phenotypic expression. Prostaglandins E(2) and F(2)alpha, thought to be involved in rheumatoid arthritis and bone resorption, have no significant effect on cAMP content of chondrocytes and alter their collagen phenotype to a small extent.
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PMID:Synthesis of collagen by chondrocytes in suspension culture: modulation by calcium, 3':5'-cyclic AMP, and prostaglandins. 19 10

The phosphodiesterase inhibitor oxpentifylline (OXP) has a number of potentially important immunomodulatory actions which include a selective inhibition of the Th1 subset of CD4+ cells in vitro and inhibition of tumor necrosis factor (TNF)-alpha mRNA transcription. In vivo, it has a dramatic protective effect against experimental allergic encephalomyelitis. In this animal model, tissue injury is associated with both a Th1 response and with TNF-alpha production, either of which could be targets for the protective action of OXP. In an attempt to clarify the relative importance of the Th cell subsets and TNF-alpha in pathogenesis, we investigated the effect of OXP on a Th2 model of T cell-dependent disease, mercuric chloride (HgCl2)-induced autoimmunity in the Brown Norway rat. The effects of OXP on the Th1:Th2 response, TNF-alpha mRNA transcription in spleen and ankle joints, and on the incidence and severity of arthritis and cecal vasculitis have been examined and the effects in vivo have been compared with those of a soluble TNF receptor-IgG1 fusion protein (sTNFR) that neutralizes rat TNF-alpha. In two separate experiments, OXP significantly enhanced unstimulated levels of splenic interleukin-4 (IL-4) mRNA (median 62%, of an artificial IL-4 mRNA construct, vs. 36.5% in controls) and in one experiment, exaggerated the total IgE response to HgCl2. OXP inhibited HgCl2-induced TNF-alpha mRNA transcription in spleen and ankle joints. In three separate experiments, OXP had a significant protective effect against arthritis, with the mean incidence reduced from 100% to 30% and mean peak score reduced from 7.2 to 2.59 (experiments 1 and 2). The protection against arthritis was indistinguishable from that produced by sTNFR. There was no such protection against cecal vasculitis with either OXP or sTNFR. These results demonstrate that OXP induces a shift towards a Th2 response, inhibits TNF-alpha mRNA transcription locally in joint and systemically in spleen, and has a protective effect against arthritis similar to that produced by sTNFR in the HgCl2-treated BN rat. We conclude that TNF-alpha is a critical cytokine in the pathogenesis of arthritis but not cecal vasculitis in this model, and that inhibition of TNF-alpha transcription is the most important mode of action of OXP in this situation. OXP may be a potential therapeutic agent in the treatment of other arthritides, such as human rheumatoid arthritis, in which TNF-alpha has been implicated in pathogenesis.
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PMID:Oxpentifylline inhibits tumor necrosis factor-alpha mRNA transcription and protects against arthritis in mercuric chloride-treated brown Norway rats. 758 90

Rolipram is a type IV phosphodiesterase inhibitor that suppresses inflammation and TNF-alpha production. As anti-TNF-alpha therapy is effective in rheumatoid arthritis, we investigated the effect of rolipram on collagen-induced arthritis (CIA), a murine model of rheumatoid arthritis. Rolipram was administered after the onset of clinical arthritis at doses of 0.5, 3, 5, or 10 mg/kg twice daily, with a dose-dependent therapeutic effect on clinical severity and joint erosion. Immunohistochemical analysis of joints of rolipram-treated mice revealed 67% reduction in TNF-alpha-expressing cells compared with control arthritic mice. In vitro studies using bone marrow-derived macrophages confirmed that rolipram directly suppressed TNF-alpha and IL-12 production following stimulation with IFN-gamma and LPS. The effect of rolipram on T cell activity was studied by measuring Th1/Th2 cytokine production by collagen-stimulated draining lymph node cells from arthritic mice treated in vivo with rolipram. Rolipram reduced IFN-gamma production and increased IL-10, indicating that rolipram down-regulated the ongoing Th1 response to type II collagen. Finally, the effect on CIA of combination therapy was studied using rolipram plus either anti-TNF-alpha or anti-CD4 mAbs. Rolipram plus anti-TNF-alpha was not therapeutically additive, whereas rolipram plus anti-CD4 mAb was clearly additive. This result indicates that the therapeutic effects of rolipram overlap with TNF-alpha blockade, but are complementary to anti-CD4 treatment. It is therefore proposed that a major mechanism of action of rolipram in CIA is suppression of TNF-alpha activity. These findings suggest that type IV phosphodiesterase inhibitors may be effective in pathologic conditions, such as RA, with overexpression of TNF-alpha.
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PMID:Suppression of TNF-alpha expression, inhibition of Th1 activity, and amelioration of collagen-induced arthritis by rolipram. 955 Apr 29

Preclinical and clinical studies of phosphodiesterase 4 inhibitors have shown that these agents may find utility in a wide range of inflammatory disorders, including asthma, chronic obstructive pulmonary disease, atopic dermatitis, rheumatoid arthritis, multiple sclerosis and various neurological disorders. The future of this class of drugs will depend upon the ability to demonstrate a reasonable safety margin against emesis and other typical phosphodieserase (PDE4) side effects, as well as in identification of the inflammatory disorder(s) most relevant to PDE4 inhibition.
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PMID:Phosphodiesterase 4 inhibitors as novel anti-inflammatory agents. 1041 56

There is increasing interest in the use of combination therapy for rheumatoid arthritis and in the possibility of combining the conventional drug approach with newer biological therapies. Animal models of arthritis provide important tools for evaluating novel forms of therapy and for eludicating mechanisms of drug action. In this paper, we review the results of our own research into combination therapy in collagen-induced arthritis using biological therapies such as anti-tumor necrosis factor alpha, anti-CD4, and anti-interleukin 12 monoclonal antibodies, and small molecular weight compounds such as cyclosporin and the phosphodiesterase IV (PDE IV) inhibitor rolipram.
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PMID:Combination therapy with DMARDs and biological agents in collagen-induced arthritis. 1058 69

There has been much interest in strategies which modulate tumour necrosis factor-alpha (TNF-alpha) levels and/or function in rheumatoid arthritis. The elevation of intracellular levels of cyclic AMP in leukocytes by phosphodiesterase 4 inhibitors is accompanied by significant inhibition of the production of TNF-alpha. Nevertheless, these drugs may enhance the hyperalgesia induced by a range of inflammatory mediators, including TNF-alpha. In the present study, we examined the effects of the phosphodiesterase 4 inhibitor rolipram on the local inflammatory infiltrate and hyperalgesia in a rat model of adjuvant-induced arthritis. Rolipram (3 mg/kg) was administered by oral gavage from day 10 to 14 after disease induction. Pretreatment with rolipram abrogated oedema formation and significantly inhibited hyperalgesia. Histopathological analysis revealed a marked inhibition of cellular influx as well as bone and cartilage destruction. Serum and local TNF-alpha levels were suppressed in treated animals whereas there were little changes in interleukin-1beta levels. Although cyclic AMP elevating agents may affect nociceptor threshold to increase the hyperalgesic responses acutely, they also possess significant anti-inflammatory activity, which may hinder local mediator release and/or action. The anti-inflammatory effects of rolipram predominate during this chronic arthritis model in the rat.
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PMID:Anti-inflammatory and analgesic effects of the phosphodiesterase 4 inhibitor rolipram in a rat model of arthritis. 1088 26

The cell adhesion receptors that participate in the extravasation and migration of leucocytes towards inflammatory foci mainly include the selectins and different members of the integrin and immunoglobulin superfamilies. These adhesion receptors mediate the sequential steps of leucocyte-endothelial cell interaction and, together with chemoattractant molecules (e.g., chemokines), direct the influx of inflammatory cells and define the characteristics of the cell infiltrate. Many different drugs, including non-steroidal anti-inflammatory drugs (NSAIDs), glucocorticoids, rheumatoid arthritis disease-modifying agents and phosphodiesterase inhibitors, interfere with the expression and/or function of cell adhesion receptors and this effect accounts for, at least in part, their anti-inflammatory activity. In recent years, novel approaches for the modulation of the cell membrane receptors involved in inflammation have been active areas in pharmaceutical research. Upgraded synthetic blocking compounds, chimeric monoclonal antibodies or improved antisense oligonucleotides represent important advances in this field. The proper development of these novel approaches, as well as other alternative strategies, will allow a better and more specific pharmacological modulation of the inflammatory phenomenon.
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PMID:Drugs, inflammation and cell adhesion receptors. 1133 64

Phosphodiesterase (PDE) enzymes are responsible for the inactiviation of cyclic adenosine monophosphate (cAMP) and cyclic guanosine monophosphate (cGMP). Phosphodiesterase 4 (PDE4) is a cAMP specific phosphodiesterase expressed in inflammatory cells such as eosinophils. Inhibition of PDE4 results in an elevation of cAMP in these cells, which in turn downregulates the inflammatory response. The anti-inflammatory effects of PDE4 inhibitors have been well documented both in vitro and in vivo in a range of animal models. The potential use of PDE4 inhibitors as anti-inflammatory agents for the treatment of diseases such as asthma, chronic obstructive pulmonary disease (COPD) and multiple sclerosis (MS), has received considerable attention from the pharmaceutical industry but to date, there are no selective PDE4 inhibitors on the market. Early PDE4 inhibitors, such as rolipram suffered from dose limiting side effects, including nausea and emesis, which severely restricted their therapeutic utility. Second generation compounds such as cilomilast have been identified with reduced side effect liability. Indeed, cilomilast is showing good therapeutic effects in clinical trials for asthma and COPD and represents the most advanced selective PDE4 inhibitor for any indication. The utility of this class of inhibitor in other inflammatory diseases is less well advanced. However, data in animal models of rheumatoid arthritis (RA) and MS suggests that there is also significant potential for PDE4 inhibitors as treatments for these diseases and the results of clinical trials in these disease areas are eagerly awaited.
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PMID:Update on the therapeutic potential of PDE4 inhibitors. 1177 17

The phosphodiesterases (PDEs) are responsible for the hydrolysis of intracellular cyclic adenosine and guanosine monophosphate (cAMP and cGMP, respectively). They are classified into 11 major families (PDE1-11) and the type 4 phosphodiesterase (PDE4) is a cAMP-specific enzyme localized in airway smooth muscle cells as well as in immune and inflammatory cells. The PDE4 activity is associated with a wide variety of diseases some of which have been related to an inflammatory state, (e.g. asthma, chronic obstructive pulmonary disease (COPD), rheumatoid arthritis (RA)) while others have recently been connected to autoimmune pathology. Therefore, an intense effort toward the development of PDE4 inhibitors has been generated for the last decade. Unfortunately, the effects of prototype PDE4 inhibitors have been compromised by side effects such as nausea and emesis and the clinical use of those compounds is still limited. Several companies have focused on the design of a new generation of PDE4 inhibitors dissociating beneficial activity and adverse effects. This review highlights the recent data of the most advanced clinical candidates, the design and structure activity relationships of the recent structural series reported in the literature over the last two years, as well as recent advances in the multiple therapeutic indications of PDE4 inhibitors (a review with 375 references).
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PMID:Recent advances in PDE4 inhibitors as immunoregulators and anti-inflammatory drugs. 1205 19

Vasoactive intestinal peptide (VIP) is an anti-inflammatory immunomodulatory neuropeptide with therapeutic potential demonstrated for collagen-induced arthritis. The aim of this study was to characterise its potential anti-arthritic effect on human monocytes, macrophages, T cells, and rheumatoid arthritis synovial membrane cells. Monocytes, macrophages, and T cells derived from human peripheral blood were treated with VIP and compared with other cAMP-elevating drugs for a range of activating stimuli. Cytokine production was assessed for cell cultures and, in addition, the ability of VIPs to activate cAMP response element binding protein. VIP partially suppressed monocyte- and macrophage-derived tumour necrosis factor alpha (TNF-alpha) with no effect on IL-10, whereas VIP fails to regulate IL-10 and TNF-alpha production by T lymphocytes. No such modulation of cytokine profile was observed for rheumatoid arthritis synovial membrane cells. Elevation of intracellular cAMP, on the other hand, potently suppressed macrophage TNF-alpha production and modulated T-cell response by inhibiting TNF-alpha and IFN-gamma. VIP's lack of effect on IL-10 and its slight effect on TNF-alpha results from cAMP being rapidly degraded as the phosphodiesterase IV inhibitor, rolipram, rescues cAMP-dependent activation of cAMP response element binding protein. Interestingly, macrophages stimulated with phorbol 12-myristate 13-acetate/ionomycin displayed an augmented IL-10 response upon addition of dibutyryl cAMP, with corresponding downregulation in TNF-alpha, suggesting a complex interaction between protein kinase C and protein kinase A in cytokine regulation. In conclusion, VIP may represent an efficaceous anti-arthritic treatment modulating macrophage and T-cell cytokine profiles when used alongside a phosphodiesterase inhibitor.
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PMID:Impact of VIP and cAMP on the regulation of TNF-alpha and IL-10 production: implications for rheumatoid arthritis. 1468 May 6


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