UMLS:C0021390 - FACTA Search

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Query: UMLS:C0021390 (inflammatory bowel disease)
23,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Arachidonate 5-lipoxygenase is the key enzyme in leukotriene biosynthesis and catalyzes the initial steps in the conversion of arachidonic acid to biologically active leukotrienes. Leukotrienes are considered as potent potent mediators of inflammatory and allergic reactions which are locally released by leukocytes and other 5-LO expressing cells and exert their effects via binding to specific membrane receptors and, as suggested recently, the nuclear receptor PPARa. Because of the proinflammatory profile of leukotrienes it was assumed that leukotriene biosynthesis inhibitors and leukotriene receptor antagonists have a therapeutical potential in a variety of inflammatory diseases. Clinical studies confirmed the therapeutic value of the antileukotriene therapy in asthma but the results with leukotriene biosynthesis inhibitors in psoriasis, arthritis and inflammatory bowel disease were more or less disappointing. This review summarizes the biochemistry of the 5-lipoxygenase pathway, the pharmacology of FLAP and 5 lipoxygenase inhibitors and discusses possible criteria for the development of these drugs.
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PMID:5-Lipoxygenase: a target for antiinflammatory drugs revisited. 987 15

Peroxisome proliferator-activated (PPARs) are ligand-activated transcription factors belonging to the nuclear receptor family. PPARs function as regulators of lipid and lipoprotein metabolism and glucose homeostasis and influence cellular proliferation, differentiation and apoptosis. PPARalpha is highly expressed in tissues such as liver, muscle, kidney and heart, where it stimulates the beta-oxidative degradation of fatty acids. PPARgamma is predominantly expressed in intestine and adipose tissue. PPARgamma triggers adipocyte differentiation and promotes lipid storage. The hypolipidemic fibrates and the antidiabetic glitazones are synthetic ligands for PPARalpha and PPARgamma, respectively. Furthermore, fatty acids and eicosanoids are natural PPAR ligands: PPARalpha is activated by leukotriene B4, whereas prostaglandin J2 is a PPARgamma ligand. These observations suggested a potential role for PPARs not only in metabolic but also in inflammation control. The first evidence for a role of PPARalpha in inflammation control came from the demonstration that PPARalpha deficient mice display a prolonged response to inflammatory stimuli. It was suggested that PPARalpha deficiency results in a reduced beta-oxidative degradation of these inflammatory fatty acid derivatives. More recently, PPAR activators were shown to inhibit the activation of inflammatory response genes (such as IL-2, IL-6, IL-8, TNFalpha and metalloproteases) by negatively interfering with the NF- kappaB, STAT and AP-1 signalling pathways. PPAR activators exert these anti-inflammatory activities in different immunological and vascular wall cell types such as monocyte/macrophages, endothelial, epithelial and smooth muscle cells in which PPARs are expressed. These recent findings indicate a modulatory role for PPARs in the control of the inflammatory response with potential therapeutic applications in inflammation-related diseases, such as atherosclerosis and inflammatory bowel disease.
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PMID:Peroxisome proliferator-activated receptors (PPARs): nuclear receptors at the crossroads between lipid metabolism and inflammation. 1108

Macrophages play diverse roles in host defense and in maintenance of homeostasis. Based on their ability to promote inflammatory responses, inappropriate macrophage function also contributes to numerous pathological processes, including atherosclerosis, rheumatoid arthritis and inflammatory bowel disease. Members of the nuclear receptor superfamily of ligand-dependent transcriptions factors have emerged as key regulators of inflammation and lipid homeostasis in macrophages. These include the glucocorticoid receptor (GR), which inhibits inflammatory programs of gene expression in response to natural corticosteroids and synthetic anti-inflammatory ligands such as dexamethasone. Also, in response to endogenous eicosanoids and oxysterols, respectively, peroxisome proliferator-activated receptors (PPARs) and liver X receptors (LXRs) regulate transcriptional programs involved in inflammatory responses and lipid homeostasis. Identification of their mechanisms of action should help guide the development of new therapeutic agents useful in the treatment of diseases in which macrophages play critical pathogenic roles.
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PMID:Nuclear receptor signaling in macrophages. 1469 33

Peroxisome proliferator-activated receptors (PPARs) are members of the nuclear receptor family. After activation by specific ligands, they regulate the transcription of genes involved in lipid and lipoprotein metabolism, glucose and energy homeostasis, as well as cellular differentiation. Recent studies have identified expression of the three PPARs in all cells of the arterial wall, where they control cholesterol homeostasis as well as the inflammatory response and, as a consequence, modulate atherogenesis. More generally, PPARs influence cell proliferation as well as the immune and inflammatory response in different tissues and cells. In this review, we will summarize the evidence indicating that PPARs are modulators of the inflammatory response with potential therapeutic applications not only in atherosclerosis, but potentially also in other inflammation-related diseases, such as hepatic inflammation and inflammatory bowel disease.
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PMID:Peroxisome proliferator-activated receptors and inflammation: from basic science to clinical applications. 1470 43

Peroxisome proliferator-activated receptors (PPARs) are transcription factors belonging to the nuclear receptor superfamily and form heterodimers with retinoid X receptor. To date, three PPARs isoforms have been isolated and termed alpha, beta (or delta), and gamma. Although PPAR gamma is expressed predominantly in adipose tissue and associated with adipocyte differentiation and glucose homeostasis, it has been recently demonstrated that PPAR gamma is present in a variety of cell types. Synthetic antidiabetic thiazolidinediones (TZDs) and natural prostaglandin D(2) (PGD(2)) metabolite, 15-deoxy-Delta(12, 14)-prostaglandin J(2) (15d-PGJ(2)), are well-known as ligands for PPAR gamma. After it has been reported that activation of PPAR gamma suppresses production of proinflammatory cytokines in activated macrophages, medical interest in PPAR gamma have grown and a huge research effort has been concentrated. PPAR gamma, is currently known to be implicated in various human chronic diseases such as diabetes mellitus, atherosclerosis, rheumatoid arthritis, inflammatory bowel disease, and Alzheimer's disease. Moreover, PPAR gamma ligands have potent tumor modulatory effects against colorectal, prostate, and breast cancers. Recent studies suggest that TZDs not only ameliorate insulin sensitivity but also have pleiotropic effects on many tissues and cell types. Although activation of PPAR gamma seems to have beneficial effects on atherosclerosis and heart failure, the mechanisms by which PPAR gamma ligands prevent the development of cardiovascular diseases are not fully understood. This review will focus on the latest developments in the PPAR gamma field and the roles of PPAR gamma-dependent pathway in cardiovascular diseases.
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PMID:Pleiotropic actions of PPAR gamma activators thiazolidinediones in cardiovascular diseases. 1532 Jul 43

The peroxisome proliferator-activated receptor-alpha (PPAR-alpha) is a member of the nuclear receptor superfamily of ligand-dependent transcription factors related to retinoid, steroid and thyroid hormone receptors. The aim of the present study was to examine the effects of endogenous and exogenous PPAR-alpha ligand on the development of experimental colitis. To address this question, we used an experimental model of colitis, induced by dinitrobenzene sulfonic acid (DNBS). When compared to DNBS-treated PPAR-alpha wild-type (WT) mice, DNBS-treated PPAR-alpha knockout mice (PPAR-alphaKO) mice experienced a higher rate of the extent and severity of the histological signs of colon injury. After administration of DNBS PPAR-alphaWT mice experienced hemorrhagic diarrhea, weight loss and large areas of necrosis in the mucosa of the colon were also observed. Neutrophil infiltration was associated with upregulation of ICAM-1. Immunohistochemistry for nitrotyrosine showed an intense staining in the inflamed colon. Absence of a functional PPAR-alpha gene in PPAR-alphaKO mice resulted in a significant augmentation of all the above-described parameters. On the contrary, the treatment of PPAR-alphaWT with Wy-14643 (1 mg/kg daily i.p) significantly reduced: (i) the degree of hemorrhagic diarrhea and weight loss, (ii) the degree of colon injury, (iii) the rise in MPO activity (mucosa), (iv) the increase in staining (immunohistochemistry) for nitrotyrosine, as well as (v) the upregulation of ICAM-1 caused by DNBS in the colon. In order to elucidate whether the protective effects of Wy-14643 is related to activation of the PPAR-alpha receptor, we also investigated the effect the of Wy-14643 treatment on PPAR-alpha-deficient mice. The absence of the PPAR-alpha receptor significantly abolished the protective effect of the PPAR-alpha agonist against DNBS-induced colitis. Thus, endogenous and exogenous PPAR-alpha ligands reduce the degree of colitis caused by DNBS. We propose that PPAR-alpha ligand may be useful in the treatment of inflammatory bowel disease.
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PMID:Role of endogenous and exogenous ligands for the peroxisome proliferators activated receptors alpha (PPAR-alpha) in the development of inflammatory bowel disease in mice. 1549 55

The vitamin D receptor (VDR) is a nuclear receptor expressed in a number of different cells of the immune system. This study was performed to determine the effect of VDR deficiency on immune function and inflammation of the gastrointestinal tract in a model of inflammatory bowel disease, namely interleukin-10 (IL-10) knockout mice. IL-10 knockout mice were generated which either could or could not respond to vitamin D (double IL-10/VDR knockout; DKO). The distribution and function of lymphocytes in both the primary and secondary lymphoid organs were compared and determined as a function of the severity of intestinal inflammation. DKO mice had normal thymic development and peripheral T-cell numbers at 3 weeks of age, but a week after intestinal disease was detected the thymus was dysplastic with a reduction in cellularity. The atrophy was coupled with increased apoptosis. The spleen weight of DKO mice increased as a result of the accumulation of red blood cells; however, there was a 50% reduction in the numbers of T and B cells. Conversely, the mesenteric lymph nodes were enlarged and contained increased numbers of lymphocytes. The T cells from DKO mice were of a memory phenotype and were hyporesponsive to T-cell receptor stimulation. Colitis in the DKO mice was associated with local and high expression of IL-2, interferon-gamma, IL-1beta, tumour necrosis factor-alpha and IL-12. The primary and secondary lymphoid organs in DKO mice are profoundly altered as a consequence of the fulminating inflammation in the gastrointestinal tract. VDR expression is required for the T cells and other immune cells to control inflammation in the IL-10 KO mice.
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PMID:Vitamin D receptor is required to control gastrointestinal immunity in IL-10 knockout mice. 1647 50

Liver receptor homolog-1 (LRH-1) is a nuclear receptor involved in intestinal lipid homeostasis and cell proliferation. Here we show that haploinsufficiency of LRH-1 predisposes mice to the development of intestinal inflammation. Besides the increased inflammatory response, LRH-1 heterozygous mice exposed to 2,4,6-trinitrobenzene sulfonic acid show lower local corticosterone production as a result of an impaired intestinal expression of the enzymes CYP11A1 and CYP11B1, which control the local synthesis of corticosterone in the intestine. Local glucocorticoid production is strictly enterocyte-dependent because it is robustly reduced in epithelium-specific LRH-1-deficient mice. Consistent with these findings, colon biopsies of patients with Crohn's disease and ulcerative colitis show reduced expression of LRH-1 and genes involved in the production of glucocorticoids. Hence, LRH-1 regulates intestinal immunity in response to immunological stress by triggering local glucocorticoid production. These findings underscore the importance of LRH-1 in the control of intestinal inflammation and the pathogenesis of inflammatory bowel disease.
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PMID:LRH-1-mediated glucocorticoid synthesis in enterocytes protects against inflammatory bowel disease. 1767 Sep 46

It is well known that the steroid hormone glucocorticoid and its nuclear receptor regulate the inflammatory process, a crucial component in the pathophysiological process related to human diseases that include atherosclerosis, obesity and type II diabetes, inflammatory bowel disease, Alzheimer's disease, multiple sclerosis, and liver tumors. Growing evidence demonstrates that orphan and adopted orphan nuclear receptors, such as peroxisome proliferator-activated receptors, liver x receptors, the farnesoid x receptor, NR4As, retinoid x receptors, and the pregnane x receptor, regulate the inflammatory and metabolic profiles in a ligand-dependent or -independent manner in human and animal models. This review summarizes the regulatory roles of these nuclear receptors in the inflammatory process and the underlying mechanisms.
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PMID:Nuclear receptors and inflammatory diseases. 1837 23

The pregnane X receptor (PXR; NR1I2), a member of the nuclear receptor superfamily, regulates the expression of drug-metabolic enzymes and transporters involved in the responses of mammals to their chemical environment. The same enzyme and transporter systems are also involved in the homeostasis of numerous endogenous chemicals. The regulatory function of PXR is implicated in normal physiology and diseases, such as drug-drug interactions, hepatic steatosis, vitamin D homeostasis, bile acids homeostasis, steroid hormones homeostasis and inflammatory bowel diseases. As such, any genetic variations of this receptor could potentially have widespread effects on the disposition of xenobiotics and endobiotics. Knowledge concerning the genetic polymorphisms of PXR may help to understand the variations in human drug response and ensure safe drug use. The correlation of PXR genetic polymorphisms with several disease conditions also suggests that this receptor may represent a valid therapeutic for hepato-intestinal disorders such as inflammatory bowel disease and primary sclerosing cholangitis.
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PMID:PXR: a xenobiotic receptor of diverse function implicated in pharmacogenetics. 1901 24

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