白细胞介素23受体、白细胞介素17A在炎症性肠病患者中的表达及临床意义

目的：通过检测白细胞介素23受体（1L-23R）及白细胞介素17A（IL-17A）在炎症性肠病（IBD）患者肠黏膜及血清中的表达水平,探讨其在IBD发病过程中的作用及意义。方法：收集32例克罗恩病（CD）患者、29例溃疡性结肠炎（UC）患者及27例对照者的内镜肠黏膜活检标本,采用荧光定量PCR技术检测肠黏膜内IL-23R、IL-17AmRNA的表达情况,免疫组化技术分析IL-23R、IL-17A在肠黏膜中的原位表达。结果：与健康对照组相比,CD及UC患者肠黏膜组织内IL-23RmRNA表达显著增高（P〈0．05）,CD及UC组间的表达量差异无统计学意义（P〉0．05）。CD及UC患者肠黏膜组织内IL-17AmRNA表达显著增高（P〈0．05）,CD组肠黏膜组织内IL．17AmRNA表达显著高于uc组（P〈0．05）。免疫组化分析显示IL-23R阳性细胞在CD与uc肠黏膜固有层内有较多表达,较正常黏膜内的肠上皮细胞相比,CD及UC患者肠黏膜IL-23R蛋白表达量最著增高（P〈0．05）,UC及CD组间的表达量差异无统计学意义（P〉0．05）。IL-17A阳性细胞在CD与UC肠黏膜固有层内有较多表达,较正常黏膜内的肠上皮细胞相比,CD及UC患者肠黏膜IL-17A蛋白表达量最著增高（P〈0．05）。结论：IL．23R及IL-17A在IBD患者肠黏膜中表达显著增高,提示IL-23R及IL-17A表达异常与IBD的发生发展密切相关,有可能成为IBD治疗的新靶点。     

Autophagy is decreased in mesenteric fat tissue but not in intestinal mucosae of patients with Crohn’s disease

Crohn??s disease (CD) is a chronic intestinal disease with a multifactorial etiology. Recently, a role for mesenteric fat has been proposed in CD pathophysiology, since fat hypertrophy is detected close to the affected intestinal area; however, there are few studies regarding autophagy and the hypertrophied mesenteric tissue in CD. To evaluate autophagy-related proteins in intestinal mucosae and mesenteric fat of patients with CD and controls, patients with ileocecal CD (CD Group) and with non-inflammatory disease (FC Group) selected for surgery were studied. Expression of LC3-II was determined by immunoblotting of protein extracts. In addition, beclin-1, LC3 and Atg16-L1 RNA levels were measured using RT-PCR. The expression of LC3-II was significantly lower in the mesenteric tissue and higher in intestinal mucosae of CD when compared to controls. However, mRNA expression of autophagy-related proteins was similar when comparing the mesenteric fat groups. These findings suggest a defect in autophagy activation in the mesenteric fat tissue of CD individuals, which could be involved in the maintenance of the inflammatory process.     

白细胞介素23受体、白细胞介素17A在炎症性肠病患者中的表达 及临床意义

目的:通过检测白细胞介素23受体(IL-23R)及白细胞介素17A(IL-17A)在炎症性肠病(IBD)患者肠黏膜及血清中的表达水平,探讨其在IBD发病过程中的作用及意义。方法:收集32例克罗恩病(CD)患者、29例溃疡性结肠炎(UC)患者及27例对照者的内镜肠黏膜活检标本,采用荧光定量PCR技术检测肠黏膜内IL-23R、IL-17AmRNA的表达情况,免疫组化技术分析IL-23R、IL-17A在肠黏膜中的原位表达。结果:与健康对照组相比,CD及UC患者肠黏膜组织内IL-23R mRNA表达显著增高(P<0.05),CD及UC组间的表达量差异无统计学意义(P>0.05)。CD及UC患者肠黏膜组织内IL-17A mRNA表达显著增高(P<0.05),CD组肠黏膜组织内IL-17AmRNA表达显著高于UC组(P<0.05)。免疫组化分析显示IL-23R阳性细胞在CD与UC肠黏膜固有层内有较多表达,较正常黏膜内的肠上皮细胞相比,CD及UC患者肠黏膜IL-23R蛋白表达量最著增高(P<0.05),UC及CD组间的表达量差异无统计学意义(P>0.05)。IL-17A阳性细胞在CD与UC肠黏膜固有层内有较多表达,较正常黏膜内的肠上皮细胞相比,CD及UC患者肠黏膜IL-17A蛋白表达量最著增高(P<0.05)。结论:IL-23R及IL-17A在IBD患者肠黏膜中表达显著增高,提示IL-23R及IL-17A表达异常与IBD的发生发展密切相关,有可能成为IBD治疗的新靶点。     

Single-nucleotide polymorphisms and haplotype analysis in beta-defensin genes in different ethnic populations

Beta-defensins are cationic antimicrobial peptides expressed by epithelial cells and exhibit antibacterial, antifungal, and antiviral properties. The defensins are part of the innate host defense network and may have a significant protective role in the oral cavity and other mucosa. Defects or alteration in expression of the beta-defensins may be associated with susceptibility to infection and mucosal disorders. We examined the occurrence of single-nucleotide polymorphisms (SNPs) in the human beta-defensin genes DEFB1 and DEFB2 encoding human beta-defensin-1 and -2 (hBD-1, hBD-2), respectively, in five ethnic populations and defined haplotypes in these populations. Fifteen SNPs were identified in both DEFB1 and DEFB2. Coding region SNPs were found in very low frequency in both genes. One nonsynonymous DEFB1 SNP, G1654A (Val --> Ile), and one nonsynonymous DEFB2 SNP, T2312A (Leu --> His), were identified. Seven sites in each gene exhibited statistically significant differences in frequency between ethnic groups, with the greatest variation in the promoter and in the 5'-untranslated region of DEFB1. DEFB1 displayed 10 common haplotypes, including one cosmopolitan haplotype. Eight common haplotypes were found in DEFB2, including one cosmopolitan haplotype shared among all five ethnic groups. Our results show that genotypic variability among ethnic groups will need to be addressed when performing associative genetic studies of innate defense mechanisms and susceptibility to disease.     

Immunoproteomic to Identify Antigens in the Intestinal Mucosa of Crohn's Disease Patients

Incidences of Crohn disease (CD) have increased significantly in the last decade. Immunoproteomics are a promising method to identify biomarkers of different diseases. In the present study, we used immunoproteomics to study proteins of intestinal mucosal lesions and neighboring normal intestinal mucosa of 8 CD patients. Reactive proteins were validated by Western blotting. Approximately 50 protein spots localized in the 4 to 7 pI range were detected on two-dimensional electrophoresis gels, and 6 differentially expressed protein spots between 10 and 100 kDa were identified. Reactive proteins were identified as prohibitin, calreticulin, apolipoprotein A-I, intelectin-1, protein disulfide isomerase, and glutathione s-transferase Pi. Western blotting was conducted on the intestinal mucosa of another 4 CD patients to validate the reactive proteins. We found that intestinal mucosal lesions had high levels of prohibitin expression. Glutathione s-transferase expression was detected in 100% of the intestinal mucosa examined. Thus, we report 6 autoantigens of CD, including 3 new and 3 previously reported autoantigens. Intelectin-1, protein disulfide isomerase, and glutathione-s-transferases may be used as biomarkers for CD pathogenesis.     

Expression of clusterin in Crohn's disease of the terminal ileum

Crohn's disease (CD) is a chronic inflammatory intestinal disorder with disturbance and injury of the intestinal mucosal barrier, in which various proinflammatory molecules as well as molecules with antiinflammatory activity and cytoprotective function are found to be expressed. We investigated whether clusterin, a multifunctional cytoprotective protein, is upregulated in Crohn's disease, because augmented expression of clusterin is seen in many organs following various forms of tissue injury. Human actively and inactively inflamed ileal tissues from CD patients as well as normal intestinal specimens from control patients (normal ileum) were investigated by Western blot analysis, immunohistochemisty and in situ hybridization. As compared with controls, a strongly enhanced expression of clusterin was found in CD tissues, correlating with disease activity. Immunohistochemistry and in situ hybridization analysis revealed foci of crypts almost completely lined by clusterin expressing enterocytes in CD, a feature that was never seen in controls. Such crypts appeared especially within the morphologically intact mucosa apart from erosive or ulcerative lesions. Besides epithelia, clusterin was also expressed by inflammatory mononuclear cells. Enhanced expression of clusterin by crypt epithelia might reflect a cytoprotective function of the protein in order to prevent further injury of the intestinal mucosal barrier in CD.     

Differential expression of the murine mannose-binding lectins A and C in lymphoid and nonlymphoid organs and tissues

Mannose-binding lectin (MBL), a member of the collectin family, binds to carbohydrate structures on the surfaces of micro-organisms and may serve as a recognition molecule of the lectin pathway of complement activation. In rodents two forms, MBL-A and MBL-C, were described and shown to be products of two related, but uncoupled, genes. The liver is the main source of MBL biosynthesis. For rat MBL-A, expression has also been described in the kidney. Here we report that the two forms of murine MBL are differentially expressed in a number of nonhepatic tissues. Real-time RT-PCR revealed that the liver is the major site of expression for both MBL genes. Lower copy numbers were found in kidney, brain, spleen, and muscle. In testis, only the MBL-A gene is expressed, whereas MBL-C is exclusively expressed in small intestine. Using in situ hybridization and immunohistochemistry, we demonstrate that both MBLs are synthesized by hepatocytes and show MBL expression in cells of the monocyte/macrophage lineage. In the kidney MBL-A, but not MBL-C, was found to be synthesized. Vice versa, only MBL-C biosynthesis was detected in endothelial cells of the small intestine. The latter finding may support the view that MBL-C, as part of the innate immune system, may be a counterpart of secretory IgA of the acquired immune system in preventing, for example, microbial invasion and colonization. Our findings demonstrate that MBL-A and MBL-C are differentially expressed, implying distinct biological roles for both recognition molecules of the murine lectin pathway of complement.     

Evidence for duplication of the human defensin gene DEFB4 in chromosomal region 8p22-23 and implications for the analysis of SNP allele distribution

Defensins constitute a primary mechanism in the innate immune system of humans and all mammals. Defensins are short, processed peptide molecules that are classified by structure into three groups: alpha-defensins, beta-defensins and theta-defensins. In humans, four beta-defensins have been described so far, corresponding to the products of the genes DEFB1 (hBD1, NM_005218), DEFB4 (hBD2, NM_004942.2), DEFB103 (hBD3, NM_018661), and DEFB104 (hBD4, NM_080389), respectively. All these genes have been mapped to chromosome 8p22-23. Much interest has been shown in genetic variation in the population at defensin loci to understand individual differences in disease susceptibility and severity. In this study, we have used an electronic search and then fluorescence in situ hybridization (FISH) on elongated chromosomes to demonstrate that the region containing the DEFB4 gene is duplicated on human chromosome 8p, making difficult the discovery of new SNPs in this gene and compromising the assessment of their allelic distribution in various ethnic populations for disease association studies.     

The complex interplay of NOD-like receptors and the autophagy machinery in the pathophysiology of Crohn disease

Several coding variants of NOD2 and ATG16L1 are associated with increased risk of Crohn disease (CD). NOD2, a cytosolic receptor of the innate immune system activates pro-inflammatory signalling cascades upon recognition of bacterial muramyl dipeptide, but seems also to be involved in antiviral and anti-parasitic defence programs. The CD associated variant L1007fsinsC leads to impaired pro-inflammatory signalling and diminished bacterial clearance. ATG16L1 is a protein essential for autophagosome formation at the phagophore assembly site. The CD associated T300A variant is located in the c-terminal WD40 domain, whose function is still unknown. Basal autophagy is not affected by the T300A variant, but antibacterial autophagy (xenophagy) is impaired, a finding that relates ATG16L1 as well as NOD2 to pathogen defence. Notably, combination of disease-associated alleles of ATG16L1 and NOD2/CARD15 leads to synergistically increased susceptibility for CD, indicating a possible crosstalk between NOD2- and ATG16L1-mediated processes in the pathogenesis of CD. This review surveys current research results and discusses the functional models of potential interplay between NLR-pathways and xenophagy. Interaction between pathways is discussed in the context of reactive oxygen species (ROS), membrane co-localisation, antigen processing and implications of disturbed Paneth cell vesicle export. These effects on pathogen response might imbalance the intestinal barrier epithelia towards chronic inflammation and promote development of Crohn disease. Further elucidation of NOD2/ATG16L1 interplay in xenophagy is relevant for understanding the aetiology of chronic intestinal inflammation and host-microbe interaction in general and could lead to principal new insights to xenophagy induction.     

Is there a role for mannan-binding lectin in the diagnosis of inflammatory bowel disease?

Mannan-binding lectin (MBL) activates the lectin-complement pathway as part of the innate immune defence by binding to the surface of microorganisms. Therefore, MBL2 presents an interesting candidate gene for the inflammatory bowel diseases, ulcerative colitis (UC) and Crohn's disease (CD). In our study, we evaluated the MBL serum concentrations and genotypes for diagnostic and classification purposes of patients with CD and UC. The MBL serum concentration was analysed in 98 CD patients and in 83 UC patients. In total, 82 patients with inflammatory rheumatic disorders and 189 healthy individuals served as controls. All study subjects were genotyped for the MBL2 polymorphisms G54D, G57E and R52C and the NOD2 (CARD15) mutations R702W, G908R and L1007fsinsC. Neither the median MBL serum concentration nor the MBL2 genotype distribution differed significantly between cohorts. Measurement of MBL serum concentrations offers no benefit for the diagnosis of CD or UC.     

Detection of Helicobacter species DNA by quantitative PCR in the gastrointestinal tract of healthy individuals and of patients with inflammatory bowel disease

In many animal species different intestinal Helicobacter species have been described and a few species are associated with intestinal infection. In humans, the only member of the Helicobacter family which is well described in literature is Helicobacter pylori. No other Helicobacter-associated diseases have definitely been shown in humans. We developed a sensitive quantitative PCR to investigate whether Helicobacter species DNA can be detected in the human gastrointestinal tract. We tested gastric biopsies (including biopsies from H. pylori positive persons), intestinal mucosal biopsies and fecal samples from healthy persons, and intestinal mucosal biopsies from patients with inflammatory bowel disease (IBD) for the presence of Helicobacter species. All gastric biopsies, positive for H. pylori by culture, were also positive in our newly developed PCR. No Helicobacter species were found in the mucosal biopsies from patients with IBD (n = 50) nor from healthy controls (n = 25). All fecal samples were negative. Our study suggests that Helicobacter species, other than H. pylori, are not present in the normal human gastrointestinal flora and our results do not support a role of Helicobacter species in IBD.     

Increased expression of beta-defensin 1 (DEFB1) in chronic obstructive pulmonary disease

On-going airway inflammation is characteristic for the pathophysiology of chronic obstructive pulmonary disease (COPD). However, the key factors determining the decrease in lung function, an important clinical parameter of COPD, are not clear. Genome-wide linkage analyses provide evidence for significant linkage to airway obstruction susceptibility loci on chromosome 8p23, the location of the human defensin gene cluster. Moreover, a genetic variation in the defensin beta 1 (DEFB1) gene was found to be associated with COPD. Therefore, we hypothesized that DEFB1 is differently regulated and expressed in human lungs during COPD progression. Gene expression of DEFB1 was assessed in bronchial epithelium and BAL fluid cells of healthy controls and patients with COPD and using bisulfite sequencing and ChIP analysis, the epigenetic control of DEFB1 mRNA expression was investigated. We can demonstrate that DEFB1 mRNA expression was significantly increased in bronchopulmonary specimen of patients with COPD (n = 34) vs. healthy controls (n = 10) (p<0.0001). Furthermore, a significant correlation could be detected between DEFB1 and functional parameters such as FEV₁ (p = 0.0024) and the FEV₁/VC ratio (p = 0.0005). Upregulation of DEFB1 mRNA was paralleled by changes in HDAC1-3, HDAC5 and HDAC8 mRNA expression. Whereas bisulfite sequencing revealed no differences in the methylation state of DEFB1 promoter between patients with COPD and controls, ChIP analysis showed that enhanced DEFB1 mRNA expression was associated with the establishment of an active histone code. Thus, expression of human DEFB1 is upregulated and related to the decrease in pulmonary function in patients with COPD.     

Copy number polymorphisms are not a common feature of innate immune genes

Extensive copy number polymorphism was recently reported for innate immunity-related alpha-defensin genes DEFA1 and DEFA3 and beta-defensin genes DEFB4, DEFB103, and DEFB104. To establish whether such polymorphisms are a common feature of innate immune genes we used quantitative real-time PCR to determine the copy numbers of seven genes whose products have important innate immune functions. The genes encoding lysozyme, lactoferrin, cathelicidin antimicrobial peptide (hCAP18/LL-37), cathepsin G, bactericidal/permeability-increasing protein, azurocidin (CAP37/heparin-binding protein), and neutrophil elastase were each found to be single copy per haploid genome. These findings, along with the recent observation that defensin genes DEFA4, DEFA5, DEFA6, and DEFB1 are single copy, suggest that copy number polymorphisms are not a common feature of the innate immune genome but are restricted to a small subset of innate immunity-related genes.     

Single-nucleotide polymorphisms in porcine mannan-binding lectin A

The MBL1 and MBL2 genes encode mannan-binding lectins (MBL) A and C, respectively, that are collagenous lectins (collectins) produced mainly by the liver. Several single-nucleotide polymorphisms (SNPs) in the human MBL2 gene are responsible for various innate immune dysfunctions due to abnormal structure or expression of human MBL-C. The MBL1 gene encodes MBL-A, which has bacteria-binding properties in pigs and rodents but is mutated to a pseudogene in humans and chimpanzees. In these studies, we surveyed both porcine MBL genes for SNPs that might impair disease resistance. Single-strand conformational polymorphism (SSCP) analysis of MBL cDNAs from porcine liver revealed three SNPs within the coding region of MBL1 in various breeds of pigs. One nonsynonymous SNP that substituted cysteine for glycine in the collagen-like domain of pig MBL-A was found by a multiplex PCR test in all European pig breeds examined, with allele frequencies ranging from 1.4 to 46.4%. No SNPs were identified in the coding region of porcine MBL2 but the expression of MBL-C in the liver was widely variable in comparison to the expression of MBL-A, GAPDH, PigMAP, and haptoglobin. These results indicate that some pigs have a miscoding defect in MBL-A and a possible expression defect in MBL-C, which are analogous to coding and promoter polymorphisms that affect human MBL-C.     

Expression of Toll-like receptor 2 (TLR2), TLR4, and CD14 in biopsy samples of patients with inflammatory bowel diseases: upregulated expression of TLR2 in terminal ileum of patients with ulcerative colitis.

Dysregulation of innate and adaptive intestinal immune responses to bacterial microbiota is supposed to be involved in pathogenetic mechanisms of inflammatory bowel diseases (IBDs). We investigated expression of Toll-like receptor 2 (TLR2), TLR4, and their transmembrane coreceptor CD14 in biopsy samples from patients with IBD and in non-inflamed gut mucosa from controls. Small intestine and colon samples were obtained by colonoscopy from patients with Crohn's disease (CD), ulcerative colitis (UC), and controls. Immunohistochemical analysis of cryostat sections using polyclonal and monoclonal antibodies specific for TLR2, TLR4, and CD14 showed a significant increase in TLR2 expression in the terminal ileum of patients with inactive and active UC against controls. Significant upregulation of TLR4 expression relative to controls was found in the terminal ileum and rectum of UC patients in remission and in the terminal ileum of CD patients with active disease. CD14 expression was upregulated in the terminal ileum of CD patients in remission and with active disease, in the cecum of UC patients in remission and with active disease, and in rectum of UC patients with active disease. Hence, dysregulation of TLR2, TLR4, and CD14 expression in different parts of the intestinal mucosa may be crucial in IBD pathogenesis.