Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P10145 (IL-8)
 23,849 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To investigate the relationship between serum concentrations of interleukin-8 (IL-8) and disease activity in inflammatory bowel disease, serum IL-8 concentrations were measured by enzyme-linked immunosorbent assay (ELISA) in 93 patients. Interleukin-8 levels were compared with plasma interleukin-6 (IL-6) levels in 80 of these patients. Interleukin-8 levels were also measured in ten patients with active Crohn's disease, before and after treatment with a defined formula polymeric diet. Of these patients, 70 out of 93 IL-8 concentrations were below the detection limit of the assay. Levels were higher in patients with active ulcerative colitis (median < 20 pg/mL, 75th centile value = 190) compared with inactive disease (median and 75th centile value < 20; P < 0.05). Interleukin-8 concentrations correlated with a combined score for disease severity and extent (P = 0.01). Thirty-eight per cent (8/20) of patients with active Crohn's disease also had high levels of IL-8 but there was no significant difference between active and inactive disease. There was no correlation between serum IL-8 and plasma IL-6; on the contrary, very few patients had raised blood levels of both cytokines. In the diet treated group, serum IL-8 fell significantly after treatment (median = 37 pg/mL, range < 20-4615 before treatment, median < 20, range < 20-104 after treatment; P = 0.03). The results suggest that although IL-8 may be involved in the inflammatory process in inflammatory bowel disease, it is a poor marker of disease activity.
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PMID:Serum interleukin-8 in inflammatory bowel disease. 828 Aug 36

We investigated the production of proinflammatory cytokines (IL-1 beta, IL-6, IL-8, and TNF-alpha) and immunoregulatory cytokines (IL-2, IFN-gamma, and IL-10) in the colonic mucosa of patients with active ulcerative colitis (UC), inactive UC, and non-inflammatory bowel disease (IBD) colitis by organ culture. The production of proinflammatory cytokines was significantly increased in all the studied groups compared with controls. In active UC, levels of these cytokines, except for IL-1 beta, were markedly increased compared with non-IBD colitis, and the levels were positively correlated with the degree of inflammation. Patients with non-refractory active UC receiving steroids showed levels of IL-1 beta and TNF-beta production similar to those in controls. IL-10 production was also significantly increased in all the studied groups, the value of being the highest in active UC. In contrast, IL-2- and IFN-gamma production was significantly decreased in both active and inactive UC compared with controls, and the values in active UC were inversely correlated with the degree of inflammation. In non-IBD colitis, decreased IL-2 production was observed, but IFN-gamma production did not differ from that in controls. In an experimental study, each of the proinflammatory cytokines was injected into the colonic mucosa of rats. All of these proinflammatory cytokines, except for IL-1 beta induced colonic mucosal damage that showed some histologic features similar to those of UC. These results suggest that the increased production of proinflammatory cytokines, particularly of IL-6 and IL-8, and the decreased production of IL-2- and IFN-gamma, probably downregulated by the enhanced production of IL-10, play an important role in the pathogenesis of UC.
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PMID:The role of proinflammatory and immunoregulatory cytokines in the pathogenesis of ulcerative colitis. 856 92

Neutrophils are important cellular mediators in inflammatory bowel disease (IBD). Interleukin (IL)8, a powerful neutrophil chemoattractant, is found in increased quantities in inflamed mucosa, but the cells of origin are uncertain. IL8 gene expression was studied by in situ hybridisation in uninflamed intestinal tissue resected for colon carcinoma (n = 7) and in inflamed colonic tissue resected for IBD (n = 11). Immunohistochemistry was used to assess the phenotype of IL8 expressing macrophages and the production of IL8 protein. Macrophages isolated from intestinal resections and lipopolysaccharide stimulated peripheral blood monocytes treated with 5-aminosalicylic acid, hydrocortisone, and cyclosporin A were examined for IL8 mRNA by northern blotting and IL8 secretion by enzyme linked immunosorbent assay (ELISA). In all cases IL8 mRNA was detected by in situ hybridisation in macrophages and neutrophils adjacent to ulceration in inflamed bowel, but not detected in uninflamed mucosa from carcinoma resections. Recently recruited CD14 positive macrophages were responsible for some of this IL8 expression. IL8 protein was present in the same distribution as mRNA. Epithelial cells in normal and inflamed tissue showed neither mRNA nor protein. IL8 mRNA was expressed significantly more commonly by macrophages from IBD affected than from normal mucosa, and IL8 secretion by IBD but not normal colon macrophages was augmented significantly by lipopolysaccharide treatment. IL8 expression and production by lipopolysaccharide treated blood monocytes was inhibited by the therapeutic agents tested. These results show that neutrophils and recently recruited macrophages are responsible for production of IL8 in IBD, suggesting a mechanism for a continuing cycle of neutrophil attraction. Agents used therapeutically in these diseases may be effective in part by disrupting this cycle.
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PMID:Interleukin 8: cells of origin in inflammatory bowel disease. 856 66

To test whether there is a difference in the expression of interleukin 8 (IL8) between Crohn's disease and ulcerative colitis and to determine the main site of its synthesis this study analysed IL8 in mucosal biopsy specimens of patients with Crohn's disease and ulcerative colitis by enzyme linked immunosorbent assay (ELISA) and by in situ hybridisation. IL8 was measured by ELISA in 38 normal control patients, eight inflammatory control patients, 55 Crohn's disease biopsy specimens (26 patients), and 67 ulcerative colitis biopsy specimens (35 patients). IL8 mRNA was determined in samples by in situ hybridisation using a specific IL8 RNA probe. IL8 protein was significantly increased in macroscopically inflamed specimens of Crohn's disease (median 118 pg/specimen, p < 0.0001), ulcerative colitis (median 140 pg/specimen, p < 0.001), and inflammatory controls (median 30 pg/specimen, p = 0.010) compared with normal controls (median 4 pg/specimen). IL8 was also increased in uninflamed specimens of Crohn's disease (median 46 pg/specimen, p < 0.001) but not of ulcerative colitis patients (median 9 pg/specimen, p = 0.3). IL8 protein in the mucosa correlated significantly with macroscopic inflammation in Crohn's disease (r = 0.47, p < 0.001) and in ulcerative colitis (r = 0.60, p < 0.001). IL8 mRNA was detected by in situ hybridisation in 31 of 55 biopsy specimens (56%) of Crohn's disease patients, in 38 of 67 specimens of ulcerative colitis patients (57%), in five of eight inflammatory controls (63%) and in five of 38 normal controls (13%). Mucosal IL8 mRNA expression correlated with mucosal IL8 protein (r = 0.46, p < 0.001). IL8 mRNA was only detected in inflammatory cells of the interstitium but not in mucosal epithelial cells. IL8 is produced mainly in the lamina propria of the colon in inflammatory bowel disease and correlates with mucosal inflammation.
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PMID:Increased interleukin 8 expression in the colon mucosa of patients with inflammatory bowel disease. 880 Dec

If one reviews the literature with zeal, it is increasingly apparent that few organs escape recruitment when IBD is chronic or progressive. Insights into mucosal pathophysiology have helped with understanding the more frequent extraintestinal manifestations, but the mechanisms attendant to the development of less common events (e.g. acute pancreatitis, concurrent gluten sensitive enteropathy, or active pulmonary disease) remain either poorly studied or obscure. It is particularly interesting, however, to read reports of abnormal pulmonary function, generally of the obstructive type, correlated to measurements of abnormal intestinal permeability in patients with either active pulmonary sarcoid or pulmonary involvement in Crohn's disease. It has been further speculated that similarities in the mucosal immune system of the lung and intestine are responsible for evidence of bronchial hyperreactivity in patients with active IBD. Finally, it is important to recognize that extensions of the inflammatory process are not restricted to the development of organ-based events but may be responsible for some of the most frequent systemic abnormalities detected in IBD patients. It is now also well confirmed that the cytokine environment in IBD can support activated coagulation and, in some clinical situations, overt vascular thrombosis. The cerebrovascular complications of IBD are well recognized and range from peripheral venous thrombosis to central stroke syndromes and pseudotumor cerebri. Reports of focal white matter lesions in the brains of patients with IBD or an increased incidence of polyneuropathy may be other clinical examples of regional microvascular clotting. Microvascular injury appears to be more ubiquitously present, with reports ranging from a speculated primary causative role (e.g., granulomatous vasculitis in the mesenteric circulation) to the utility of nailbed vasospasm, in Crohn's disease, as a clinical marker for disease activity. It is also reported that IL-6 suppression of erythropoietin production is a major feature of the chronic anemia seen in active IBD. Moreover, the capacity of peripheral monocytes from active IBD patients to secrete TNF and IL-8 is reported predictive for the degree of therapeutic response from recombinant erythropoietin. These collected observations constitute another excellent example of the symmetry between basic science and clinical utility. It is from the context of applied basic science that many future therapies will arise. Empiricism will lose much of its appeal as clinical observations will be increasingly translated into cellular language. Already in animal models, elemental diets diminish IL-6-related acute inflammatory injury, and reductions in dietary lipid alter the antigenicity of bacteria. Provocatively, in humans, unconfirmed reports have even associated diet therapy with the resolution of uveitis and pyoderma gangrenosum. It is likely that efforts will also be made to induce oral tolerance if specific triggering proteins are discovered or to alter bowel flora if such an arcane area of investigation becomes resurgent.
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PMID:Extraintestinal considerations in inflammatory bowel disease. 880 40

Ulcerative colitis (UC) and Crohn's disease (CD) are immunologically mediated disorders characterized by a chronic, relapsing inflammatory response. Elevation of several cytokines, with important immunoregulatory and proinflammatory activities have been demonstrated during active inflammatory bowel disease (IBD). These cytokines, including interleukin-1 (IL-1), IL-6, IL-8 and GM-CSF, may play an important role in the initiation and amplification of the inflammatory response leading to intestinal injury. There is increasing evidence that IL-1 is activated early in the cascade of events leading to inflammation. Therefore, IL-1 has been implicated as a primary target for therapeutic intervention for the treatment of several inflammatory diseases, including IBD. In addition, a mucosal imbalance of intestinal IL-1 and IL-1ra is present in patients with IBD, suggesting that insufficient production of endogenous IL-1ra may contribute to the pathogenesis of chronic gut inflammation. Preliminary studies examining the association between newly described polymorphisms in the IL-1 gene cluster and IBD have provided new insight into the genetic predisposition to UC. This article will review current progress in understanding the role of Il-1 and Il-1ra in IBD, as well as discuss recently described polymorphisms in the Il-1 gene cluster and their association with UC and CD.
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PMID:Interleukin-1 and interleukin-1 receptor antagonist in inflammatory bowel disease. 889 1

Glucocorticoids inhibit the expression and action of most cytokines. This is part of the in vivo feed-back system between inflammation-derived cytokines and CNS-adrenal produced corticosteroids with the probable physiological relevance to balance parts of the host defence and anti-inflammatory systems of the body. Glucocorticoids modulate cytokine expression by a combination of genomic mechanisms. The activated glucocorticoid-receptor complex can (i) bind to and inactivate key proinflammatory transcription factors (e.g. AP-1, NF kappa B). This takes place at the promotor responsive elements of these factors, but has also been reported without the presence of DNA; (ii) via glucocorticoid responsive elements (GRE), upregulate the expression of cytokine inhibitory proteins, e.g. I kappa B, which inactivates the transcription factor NF kappa B and thereby the secondary expression of a series of cytokines; (iii) reduce the half-life time and utility of cytokine mRNAs. In studies with triggered human blood mononuclear cells in culture, glucocorticoids strongly diminish the production of the 'initial phase' cytokines IL-1 beta and TNF-alpha and the 'immunomodulatory' cytokines IL-2, IL-3, IL-4, IL-5, IL-10, IL-12 and IFN-gamma, as well as of IL-6, IL-8 and the growth factor GM-CSF. While steroid treatment broadly attenuates cytokine production, it cannot modulate it selectively, e.g. just the TH0, the TH1 or the TH2 pathways. The production of the 'anti-inflammatory' IL-10 is also inhibited. The exceptions of steroid down-regulatory activity on cytokine expression seem to affect 'repair phase' cytokines like TGF-beta and PDGF. These are even reported to be upregulated, which may explain the rather weak steroid dampening action on healing and fibrotic processes. Some growth factors, e.g. G-CSF and M-CSF, are only weakly affected. In addition to diminishing the production of a cytokine, steroids can also often inhibit its subsequent actions. Because cytokines work in cascades, this means that steroid treatment can block expression of the subsequent cytokines. The blocked cytokine activity does not depend on a reduced cytokine receptor expression; in fact available in vitro investigations show that while the cytokine expression is blunted, its receptor is upregulated. The cellular studies presented here may represent the maximum potential of steroids to modulate cytokine expression in human mononuclear cells. It remains to be determined by clinical-experimental studies how effective cytokine modulation can be achieved in situ in inflamed bowel by systemic or by topical steroid therapy. Such studies may also answer whether a blocked cytokine production/action is the key or just a secondary mechanism behind the unique efficacy of steroids in active inflammatory bowel disease.
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PMID:Cytokine modulation by glucocorticoids: mechanisms and actions in cellular studies. 889 6

Controlled clinical trials have shown that several immunosuppressive drugs are efficacious in patients with inflammatory bowel disease. These drugs each have multiple effects on the immune system and the exact mechanism of their beneficial effect in inflammatory bowel disease is unknown. None of these agents directly inhibits the 'inflammatory cytokines' such as IL-1 beta, IL-6, IL-8, or TNF-alpha. However, they can all inhibit generation of leukocyte precursors in the bone marrow, that is, the cells that produce such cytokines. The effects of current agents on T-cell subsets and their associated cytokines remains unclear. Based on insights from novel mouse models of chronic colitis, the goal of 'immunotherapy' going into the next decade should be either to inhibit specifically the effector T cells mediating disease or to enhance the regulatory T cells that inhibit such effector cells or, ideally, to do both. Therapy meeting this goal, which will need to based on a more thorough understanding of the immunopathogenesis of inflammatory bowel disease, should allow a more specific or 'surgical' approach to immunotherapy and simultaneously reduce its risks and adverse effects.
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PMID:The effects of immunosuppressive agents on cytokines. 889 8

Interleukin-8 (IL-8) and nitric oxide (NO) may be important mediators in the pathogenesis of chronic idiopathic inflammatory bowel disease (CIIBD), but their roles in disease activity in ulcerative colitis (UC) and Crohn's disease (CD) are uncertain. The aim of this study was to measure mRNA for IL-8 and inducible NO synthase (iNOS) in small mucosal biopsies from untreated patients at first presentation and to relate these measurements to the histological levels of polymorph infiltration graded on a ten-point scale. For this purpose, a sensitive enzyme-linked oligonucleotide chemiluminescent assay (ELOCA) was developed to quantitate reverse transcription-polymerase chain reaction (RT-PCR) products amplified from RNA from paired biopsy samples. The levels of IL-8 and iNOS mRNAs were calculated as ratios of the RT-PCR products to glyceraldehyde-3-phosphate dehydrogenase (GAPDH) RT-PCR product. In UC patients, median values of IL-8/GAPDH and iNOS/GAPDH were significantly elevated compared with controls and CD. However, in both UC and CD, the IL-8/GAPDH and iNOS/GAPDH ratios correlated significantly with polymorph infiltration. ELOCA enabled quantitation of multiple mRNAs in small mucosal biopsies from untreated patients with CIIBD and supported a role for IL-8 and iNOS in acute inflammation in both UC and CD.
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PMID:Interleukin-8 and inducible nitric oxide synthase mRNA levels in inflammatory bowel disease at first presentation. 907 8

The intestinal epithelium plays an important role in the recognition of pathogenic organisms and in the recruitment of inflammatory cells to the mucosa. Epithelial chemokine production may constitute a key target in future therapies for inflammatory bowel disease (IBD). Chemokines are divided into two subfamilies, the C-C family and C-X-C family. Most C-C chemokines target mononuclear cells and many C-X-C chemokines attract neutrophils. Interleukin-8 (IL-8), a C-X-C chemokine, acts as a motor for the recruitment of neutrophils into the non-inflamed mucosa and is present in both enterocytes and mucosal inflammatory cells. Epithelial cells may be the first to signal the presence of pathogens, as well as contributing to IL-8 production in IBD. Data have also shown that intestinal epithelial cells are able to respond to IL-1 and tumour necrosis factor-alpha (TNF-alpha) at concentrations known to occur in the inflamed mucosa. Monocyte chemotactic protein-1 (MCP-1), a member of the C-C chemokine family, is noticeably increased in IBD. These data show that C-X-C and C-C chemokines are equally important properties of mucosal epithelial cells. The effects of two anti-inflammatory drugs (dexamethasone and cyclosporin) on chemokine production are significantly different and this provides a rationale for combination therapy.
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PMID:Review article: Chemokine production by intestinal epithelial cells: a therapeutic target in inflammatory bowel disease? 946 86


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