Un nouveau marqueur sérique de la pathologie inflammatoire de l’intestin : la protéine S100A12

S100A12 is a calcium binding protein with pro-inflammatory properties. It is secreted by activated neutrophils and interacts with the multiligand receptor for advanced glycation end products (RAGE), found on macrophages, endothelium and lymphocytes. It is strongly expressed in inflamed intestinal tissues of patients with active Crohn's disease and ulcerative colitis and circulating levels of S100A12 seem to be reliable markers of inflammation in monitoring disease activity. An Elisa-kit is under process by Cisbio international to measure concentrations of S100A12 in serum.     

Lack of lymphatic vessel phenotype in LYVE‐1/CD44 double knockout mice

The receptor for advanced-glycation-end-products (RAGE) has been implicated as a pro-inflammatory factor in chronic inflammatory conditions such as diabetes mellitus and rheumatoid arthritis. The aim of this study was to investigate the inhibitory effect of the soluble-RAGE (sRAGE), the extracellular domain of RAGE, on RAGE expression and NF-κB translocation in human-salivary gland-cell-lines (HSG). Cells were stimulated with agonist S100A4, fusion protein of RAGE encompassing the extracellular domain of RAGE (ex-RAGE), ex-RAGE followed by S100A4, or S100A4 followed by ex-RAGE. Our study indicates that RAGE expression was highest at 150 µg/µl of S100A4 and efficiently down-regulated by 1.8-fold (P < 0.05) when ex-RAGE was incubated prior to agonist S100A4. RAGE protein was also consistently down-regulated by 20–40% with pre-incubation of ex-RAGE. More importantly, nuclear translocation of p65 and p52 of NF-κB by S100A4 was inhibited in the presence of ex-RAGE, confirming anti-inflammatory function of ex-RAGE. In conclusion, ex-RAGE down-regulates RAGE expression and inhibits p65 and p52 activation in HSG, providing evidence that ex-RAGE functions as a “decoy” to RAGE–ligand interaction and thus potentially dampening inflammatory conditions. J. Cell. Physiol. 221: 430–434, 2009. © 2009 Wiley-Liss, Inc.     

Inducible nitric oxide synthase activity in colon biopsies from inflammatory areas: correlation with inflammation intensity in patients with ulcerative colitis but not with Crohn's disease

Summary. Nitric oxide synthase (NOS) activities are responsible for the enzymatic conversion of L-arginine into NO and L-citrulline. Relatively low amounts of NO are produced in intestinal epithelial cells or are released from nerve endings. The effects of NO production are related to the maintenance of epithelial integrity and permeability. A pathological role of an increased NO production has been suggested to play a role in models of experimental colitis. In humans, NOS activity in colon mucosa from patients with ulcerative colitis is clearly increased when compared with the activity of the control group. In contrast, an increase of NOS activity in the colon mucosa from patients with Crohn's disease remains controversial. In the present work, we have measured NOS activity in colon biopsies originating from the control group (n = 16), from patients with ulcerative colitis (n = 23) and Crohn's disease (n = 17) using the radiochemical method of the conversion of L-[guanido-¹⁴C] arginine into radioactive L-citrulline. In the control group, NOS activity was mainly of the inducible type (88% of total NOS activity) since it was characterised by its insensibility to the absence of calcium in the assay medium. In colon biopsies originating from patients with ulcerative colitis, inducible NOS activity was increased 3 fold (p < 0.005) and in patients with Crohn's disease, inducible NOS activity was increased 5 fold (p < 0.005). Correlations between NOS activity in colon biopsies and the intensity parameters of the disease i.e. Truelove index, endoscopic score and histo-logical parameters were evidenced in patients with ulcerative colitis. In contrast, in patients with Crohn's disease, the high inducible NOS activity was not correlated with any intensity parameters of the disease. From these data, we concluded that although inducible NOS activity was increased several fold in colon biopsies originating from patients with both ulcerative colitis and Crohn's disease, a correlation between this activity and the severity of bowel inflammation was not found in either cases. Received August 7, 1999     

S100B and S100A6 differentially modulate cell survival by interacting with distinct RAGE (receptor for advanced glycation end products) immunoglobulin domains

S100 proteins are EF-hand calcium-binding proteins with various intracellular functions including cell proliferation, differentiation, migration, and apoptosis. Some S100 proteins are also secreted and exert extracellular paracrine and autocrine functions. Experimental results suggest that the receptor for advanced glycation end products (RAGE) plays important roles in mediating S100 protein-induced cellular signaling. Here we compared the interaction of two S100 proteins, S100B and S100A6, with RAGE by in vitro assay and in culture of human SH-SY5Y neuroblastoma cells. Our in vitro binding data showed that S100B and S100A6, although structurally very similar, interact with different RAGE extracellular domains. Our cell assay data demonstrated that S100B and S100A6 differentially modulate cell survival. At micromolar concentration, S100B increased cellular proliferation, whereas at the same concentration, S100A6 triggered apoptosis. Although both S100 proteins induced the formation of reactive oxygen species, S100B recruited phosphatidylinositol 3-kinase/AKT and NF-kappaB, whereas S100A6 activated JNK. More importantly, we showed that S100B and S100A6 modulate cell survival in a RAGE-dependent manner; S100B specifically interacted with the RAGE V and C(1) domains and S100A6 specifically interacted with the C(1) and C(2) RAGE domains. Altogether these results highlight the complexity of S100/RAGE cellular signaling.     

S100B alters neuronal survival and dendrite extension via RAGE-mediated NF-κB signaling

S100B is a soluble protein secreted by astrocytes that exerts pro-survival or pro-apoptotic effects depending on the concentration reached in the extracellular millieu. The S100B receptor termed RAGE (for receptor for advanced end glycation products) is highly expressed in the developing brain but is undetectable in normal adult brain. In this study, we show that RAGE expression is induced in cortical neurons of the ischemic penumbra. Increased RAGE expression was also observed in primary cortical neurons exposed to excitotoxic glutamate (EG). S100B exerts effects on survival pathways and neurite extension when the cortical neurons have been previously exposed to EG and these S100B effects were prevented by anti-RAGE blocking antibodies. Furthermore, nuclear factor kappa B (NF-κB) is activated by S100B in a dose- and RAGE-dependent manner and neuronal death induced by NF-κB inhibition was prevented by S100B that restored NF-κB activation levels. Together, these findings suggest that excitotoxic damage can induce RAGE expression in neurons from ischemic penumbra and demonstrate that cortical neurons respond to S100B through engagement of RAGE followed by activation of NF-κB signaling. In addition, basal NF-κB activity in neurons is crucial to modulate the extent of pro-survival or pro-death S100B effects.     

Anti-inflammatory effects of phosphatidylcholine

We recently showed that mucus from patients with ulcerative colitis, a chronic inflammatory disorder of the colon, is characterized by a low level of phosphatidylcholine (PC) while clinical studies reveal that therapeutic addition of PC using slow release preparations is beneficial. The positive role of PC in this disease is still elusive. Here we tested the hypothesis that exogenous application of PC has anti-inflammatory properties using three model systems. First, human Caco-2 cells were treated with tumor necrosis factor-alpha (TNF-alpha) to induce a pro-inflammatory response via activation of NF-kappaB. Second, latex bead phagosomes were analyzed for their ability to assemble actin in vitro, a process linked to pro-inflammatory signaling and correlating with the growth versus killing of mycobacteria in macrophages. The third system used was the rapid assembly of plasma membrane actin in macrophages in response to sphingosine 1-phosphate. TNF-alpha induced a pro-inflammatory response in Caco-2 cells, including 1) assembly of plasma membrane actin; 2) activation of both MAPKs ERK and p38; 3) transport of NF-kappaB subunits to the nucleus; and 4) subsequent up-regulation of the synthesis of pro-inflammatory gene products. Exogenous addition of most PCs tested significantly inhibited these processes. Other phospholipids like sphingomyelin or phosphatidylethanolamine showed no effects in these assays. PC also inhibited latex bead phagosome actin assembly, the killing of Mycobacterium tuberculosis in macrophages, and the sphingosine 1-phosphate-induced actin assembly in macrophages. TNF-alpha induces the activation of signaling molecules and the reorganization of the actin cytoskeleton in human intestinal cells. Exogenous application of PC blocks pro-inflammatory signaling in Caco-2 cells, in phagosomes in vitro and facilitates intracellular survival of mycobacteria. We provide further evidence that actin assembly by membranes is part of the pro-inflammatory response. Collectively, these results provide a molecular foundation for the clinical studies showing a beneficial effect of PC therapy in ulcerative colitis.     

DNAX-activating Protein 10 (DAP10) Membrane Adaptor Associates with Receptor for Advanced Glycation End Products (RAGE) and Modulates the RAGE-triggered Signaling Pathway in Human Keratinocytes

The receptor for advanced glycation end products (RAGE) is involved in the pathogenesis of many inflammatory, degenerative, and hyperproliferative diseases, including cancer. Previously, we revealed mechanisms of downstream signaling from ligand-activated RAGE, which recruits TIRAP/MyD88. Here, we showed that DNAX-activating protein 10 (DAP10), a transmembrane adaptor protein, also binds to RAGE. By artificial oligomerization of RAGE alone or RAGE-DAP10, we found that RAGE-DAP10 heterodimer formation resulted in a marked enhancement of Akt activation, whereas homomultimeric interaction of RAGE led to activation of caspase 8. Normal human epidermal keratinocytes exposed to S100A8/A9, a ligand for RAGE, at a nanomolar concentration mimicked the pro-survival response of RAGE-DAP10 interaction, although at a micromolar concentration, the cells mimicked the pro-apoptotic response of RAGE-RAGE. In transformed epithelial cell lines, A431 and HaCaT, in which endogenous DAP10 was overexpressed, and S100A8/A9, even at a micromolar concentration, led to cell growth and survival due to RAGE-DAP10 interaction. Functional blocking of DAP10 in the cell lines abrogated the Akt phosphorylation from S100A8/A9-activated RAGE, eventually leading to an increase in apoptosis. Finally, S100A8/A9, RAGE, and DAP10 were overexpressed in the psoriatic epidermis. Our findings indicate that the functional interaction between RAGE and DAP10 coordinately regulates S100A8/A9-mediated survival and/or apoptotic response of keratinocytes.     

鼠衣原体改善DSS诱导的小鼠溃疡性结肠炎的作用研究

【目的】探讨鼠衣原体(Chlamydia muridarum)对小鼠溃疡性结肠炎的作用。【方法】取15只雌性C57BL/6J小鼠随机分为3组,每组5只动物,分别为空白对照组(Control)、肠炎模型组(DSS)、实验组(CM+DSS)。选取CM+DSS组小鼠予以2×10⁵ IFU的鼠衣原体灌胃处理,并在其感染后第29天开始,给予DSS组和CM+DSS组的小鼠2%DSS饮水,持续5d,每天监测小鼠体重和肠炎疾病评分,实验结束后检测小鼠结肠长度和结肠组织炎性改变。【结果】肠炎模型组的小鼠均表现出典型的肠炎症状(包括体重减轻、肠炎疾病评分、结肠长度和组织炎性改变);而经鼠衣原体预处理的小鼠(CM+DSS组)肠炎症状显著减轻,表现在肠炎疾病评分降低,体重和结肠长度有所恢复,肠组织炎性损伤减轻。【结论】鼠衣原体对DSS诱导的小鼠溃疡性结肠炎具有改善作用。     

Inflammation and cancer IV. Colorectal cancer in inflammatory bowel disease: the role of inflammation

Patients with ulcerative colitis and Crohn's disease are at increased risk for developing colorectal cancer. To date, no known genetic basis has been identified to explain colorectal cancer predisposition in these inflammatory bowel diseases. Instead, it is assumed that chronic inflammation is what causes cancer. This is supported by the fact that colon cancer risk increases with longer duration of colitis, greater anatomic extent of colitis, the concomitant presence of other inflammatory manifestations such as primary sclerosing cholangitis, and the fact that certain drugs used to treat inflammation, such as 5-aminosalicylates and steroids, may prevent the development of colorectal cancer. The major carcinogenic pathways that lead to sporadic colorectal cancer, namely chromosomal instability, microsatellite instability, and hypermethylation, also occur in colitis-associated colorectal cancers. Unlike normal colonic mucosa, however, inflamed colonic mucosa demonstrates abnormalities in these molecular pathways even before any histological evidence of dysplasia or cancer. Whereas the reasons for this are unknown, oxidative stress likely plays a role. Reactive oxygen and nitrogen species produced by inflammatory cells can interact with key genes involved in carcinogenic pathways such as p53, DNA mismatch repair genes, and even DNA base excision-repair genes. Other factors such as NF-kappaB and cyclooxygenases may also contribute. Administering agents that cause colitis in healthy rodents or genetically engineered cancer-prone mice accelerates the development of colorectal cancer. Mice genetically prone to inflammatory bowel disease also develop colorectal cancer especially in the presence of bacterial colonization. These observations offer compelling support for the role of inflammation in colon carcinogenesis.     

The Proinflammatory RAGE/NF-κB Pathway Is Involved in Neuronal Damage and Reactive Gliosis in a Model of Sleep Apnea by Intermittent Hypoxia

Sleep apnea (SA) causes long-lasting changes in neuronal circuitry, which persist even in patients successfully treated for the acute effects of the disease. Evidence obtained from the intermittent hypoxia (IH) experimental model of SA has shown neuronal death, impairment in learning and memory and reactive gliosis that may account for cognitive and structural alterations observed in human patients. However, little is known about the mechanism controlling these deleterious effects that may be useful as therapeutic targets in SA. The Receptor for Advanced Glycation End products (RAGE) and its downstream effector Nuclear Factor Kappa B (NF-κB) have been related to neuronal death and astroglial conversion to the pro-inflammatory neurodegenerative phenotype. RAGE expression and its ligand S100B were shown to be increased in experimental models of SA. We here used dissociated mixed hippocampal cell cultures and male Wistar rats exposed to IH cycles and observed that NF-κB is activated in glial cells and neurons after IH. To disclose the relative contribution of the S100B/RAGE/NF-κB pathway to neuronal damage and reactive gliosis after IH we performed sequential loss of function studies using RAGE or S100B neutralizing antibodies, a herpes simplex virus (HSV)-derived amplicon vector that induces the expression of RAGEΔcyto (dominant negative RAGE) and a chemical blocker of NF-κB. Our results show that NF-κB activation peaks 3 days after IH exposure, and that RAGE or NF-κB blockage during this critical period significantly improves neuronal survival and reduces reactive gliosis. Both in vitro and in vivo, S100B blockage altered reactive gliosis but did not have significant effects on neuronal survival. We conclude that both RAGE and downstream NF-κB signaling are centrally involved in the neuronal alterations found in SA models, and that blockage of these pathways is a tempting strategy for preventing neuronal degeneration and reactive gliosis in SA.     

p53 is important for the anti-proliferative effect of ibuprofen in colon carcinoma cells

S-ibuprofen which inhibits the cyclooxygenase-1/-2 and R-ibuprofen which shows no COX-inhibition at therapeutic concentrations have anti-carcinogenic effects in human colon cancer cells; however, the molecular mechanisms for these effects are still unknown. Using HCT-116 colon carcinoma cell lines, expressing either the wild-type form of p53 (HCT-116 p53^wt) or being p(HCT-116 p53^−/−), we demonstrated that both induction of a cell cycle block and apoptosis after S- and R-ibuprofen treatment is in part dependent on p53. Also in the in vivo nude mice model HCT-116 p53^−/− xenografts were less sensitive for S- and R-ibuprofen treatment than HCT-116 p53^wt cells. Furthermore, results indicate that induction of apoptosis in HCT-116 p53^wt cells after ibuprofen treatment is in part dependent on a signalling pathway including the neutrophin receptor p75^NTR, p53 and Bax.     

Serum antibodies to EpCAM in healthy donors but not ulcerative colitis patients

Purpose: The gastrointestinal carcinoma-associated antigen epithelial cell adhesion molecule (EpCAM) has been a target for passive and active immunotherapy of gastrointestinal carcinoma patients. The antigen is expressed by both tumor and normal tissues. The immunogenicity of EpCAM in colorectal cancer patients has been described previously. The purpose of this study was to evaluate humoral and cellular immune responses of healthy individuals and ulcerative colitis patients to EpCAM and to relate immune responses to colonic tissue expression of EpCAM. Methods: An inhibition radioimmunoassay was used to detect anti-EpCAM serum antibodies. Anti-EpCAM antibodies of a healthy donor were expressed by phages and sequenced. ³H-thymidine incorporation assay was used for detection of lymphoproliferative responses to stimulation with EpCAM. EpCAM tissue expression was determined by immunohistochemistry. Results: We detected anti-EpCAM serum antibodies in 4 of 10, and EpCAM-specific lymphoproliferation responses in 1 of 10 healthy volunteers. The majority of anti-EpCAM antibodies derived from a healthy donor were germline-encoded. In contrast, none of the 23 patients with ulcerative colitis showed serum antibodies to EpCAM (P=0.005). Antigen expression was greatly reduced and altered in ulcerative colitis patients, whereas colon from healthy individuals and uninvolved colon of colorectal cancer patients expressed high levels of EpCAM. Conclusion: The results of these studies suggest an association between EpCAM antibody production and colonic EpCAM expression in healthy individuals and patients with ulcerative colitis. Decreased and altered colonic EpCAM expression in ulcerative colitis patients may be related to the disease induction, based on the previously demonstrated adhesion function of this molecule. Healthy individuals with anti-EpCAM immune responses and high risk for developing colorectal carcinoma are prime candidates for prophylactic immunization against EpCAM.Emma E. Furth and Jian Li contributed equally     

Genetic variability in IL23R and risk of colorectal adenoma and colorectal cancer

Inflammatory processes, including, specifically, the inflammatory conditions Crohn's disease (CD) and ulcerative colitis (UC) predispose to colorectal cancer. Interleukin-23 is involved in pro-inflammatory signaling; genetic variation in the interleukin-23 receptor (IL23R) has been consistently associated with CD and UC risk. In three case-control studies of colorectal adenoma (n=485 cases/578 controls), colon cancer (n=1424 cases/1780 controls) and rectal cancer (n=583 cases/775 controls), we investigated associations with 18 candidate and tagSNPs in IL23R. The three studies used an identical Illumina GoldenGate assay, allowing thorough investigation across stages and locations of colorectal neoplasia. We further explored associations with molecular cancer subtypes (MSI+, CIMP+, KRAS2mut, TP53mut). In this comprehensive study of genetic variability in IL23R across the spectrum of colorectal carcinogenesis, as well as within colon and rectal tumor molecular subtypes, we observed associations between SNPs in IL23R and risk of rectal cancer: the 88413 C>A (rs10889675) and 69450 C>A (rs7542081) polymorphisms were associated with decreased rectal cancer risk overall (p-trend=0.04 and 0.05 respectively), and specifically with rectal tumors bearing a TP53 mutation (88413 CA/AA vs. CC OR: 0.66; 95% CI: 0.46-94; 69450 CA/AA vs. CC OR: 0.60; 95% CI: 0.37-0.98). However, none of associations remained statistically significant after correction for multiple testing. These data provide some evidence that genetic variability in IL23R may contribute to rectal cancer risk and should be evaluated in additional studies.     

马齿苋多糖对溃疡性结肠炎大鼠肠组织IL-6/STAT3及NF-κB的影响

目的：采用TNBS （2,4,6-三硝基苯磺酸）复制溃疡性结肠炎大鼠模型,探索马齿苋多糖对溃疡性结肠炎大鼠肠组织IL6/STAT3及NF-κB的影响,明确IL-6/STAT3信号通路与慢性炎症性肠病发病的关系,为慢性溃疡性结肠炎的治疗寻找新靶点。方法：将40只SD大鼠随机分为对照组、模型组、美沙拉嗪组和马齿苋组（n=10）。采用TNBS诱导复制结肠炎模型,造模成功后第3天开始灌胃给药：美沙拉嗪组剂量为每次10 mg/kg,每日1次,连续3周;马齿苋组给予马齿苋多糖,每次10 ml/kg,每日1次,连续3周;模型组和对照组大鼠给予等体积生理盐水灌胃,每日1次,连续3周。收集大鼠结肠内容物称重,干燥后再次称重,取结肠组织作病理切片。采用ELISA试剂盒检测血清IL-6、IL-1β、TNF-α和核转录因子-kappa B （NF-κB）含量;免疫组化染色法测定结肠髓过氧化物酶（MPO）;RT-PCR法检测信号转导和转录激活因子（STAT3）、IL-6的mRNA。结果：与模型组、美沙拉嗪组比较,马齿苋组大鼠排便状态明显改善,肠粘膜水肿减轻;血清IL-6、sIL-6Rα、gp130,肠组织MPO、NF-κB含量均降低（P<0.01）。与模型组比较,马齿苋组STAT3、IL-6mRNA的表达水平明显降低（P<0.01）。与对照组比较,上述指标无显著性差异（P>0.05）。结论：马齿苋多糖通过降低大鼠血清IL-6、sIL-6Rα、gp130含量及肠组织MPO、NF-κB水平,减轻sIL-6Rα与IL-6形成复合物所致的炎症反应;经IL-6/STAT3信号通路下调大鼠肠组织STAT3和IL-6的mRNA水平,从而抑制炎症的发生。