Involvement of IL-17A in the pathogenesis of DSS-induced colitis in mice

To investigate the etiological implication of IL-17A in inflammatory bowel disease (IBD), dextran sodium sulfate (DSS) was administered to the mice deficient for the IL-17A gene. They showed only faint manifestations of colitis, as revealed by body weight loss, shrinkage in the colon length, serum haptoglobin concentration, and disease activity index. Although the mortality rate of WT mice reached approximately 60%, more than 90% of the IL-17A KO mice survived the DSS treatment. Histological change was also marginal in the IL-17A KO intestine, in which epithelial damage and inflammatory infiltrates were not obvious and the myeloperoxidase activity elevated only slightly. G-CSF and MCP-1 were abundantly produced in WT mouse intestine, whereas the production of these chemokines was drastically hampered in IL-17A-null intestine. The present results show that IL-17A plays a pivotal role in the pathogenesis of DSS-induced colitis, while MCP-1 and G-CSF may be crucially involved in the IL-17A-induced inflammation.     

Senescence marker protein 30 protects intestinal epithelial cells against inflammation-induced cell death by enhancing Nrf2 activity

Senescence marker protein 30 (SMP30) is a calcium-binding protein whose expression decreases during senescence. SMP30 deficiency increases susceptibility to cytokine-induced apoptosis in the liver and to radiation-induced apoptosis in the small intestine. Furthermore, colonic epithelial cell death is associated with the severity of colitis. Therefore, in the present study, we investigated the function of SMP30 during intestinal inflammation. In SMP30 deficient mice, colitis was significantly exacerbated as demonstrated by increased mortality (p?=?0.001), body weight loss (p?=?0.0105 at day 8), rectal bleeding (p?=?0.0047 at day 8) and diarrhea (p?=?0.0030 at day 8), histological scores (ulcers, p?=?0.0002; edema, p?=?0.0125; leukocyte infiltration, p?=?0.0016) and productions of pro-inflammatory cytokines (IL-1α, p?=?0.0452; IL-6, p?=?0.0074; G-CSF, p?=?0.0036). In addition, greater proportions of apoptotic cells and lower levels of anti-apoptotic marker proteins (total PARP-1 and Bcl-2) were observed in the inflamed intestines of SMP30 deficient mice than in wild type controls. In vitro experiments on colonic epithelial cells showed that stable SMP30 expression inhibited but that SMP30 siRNA expression increased TNF-α-induced apoptosis. SMP30 inhibition decreased Nrf2 mRNA expression levels (p?<?0.0001), but SMP30 overexpression increased Nrf2 mRNA expression levels (p?=?0.0495). The underlying mechanism by which SMP30 protected cells appeared to be by inhibiting Nrf2 ubiquitination and Keap1 expression, and thus enhancing Nrf2 activity. Moreover, SMP30 deficiency increased the incidence of colitis-associated colon cancer as determined by increased mortality (p?=?0.0572) and average polyp number (p?=?0.0277). Collectively, these findings suggest that SMP30 protects intestinal epithelial cells from apoptosis and this can contribute to amelioration of colitis and colitis-associated colon cancer.     

Major signaling pathways in intestinal stem cells

Background

The discovery of markers to identify the intestinal stem cell population and the generation of powerful transgenic mouse models to study stem cell physiology have led to seminal discoveries in stem cell biology.

Scope of review

In this review we give an overview of the current knowledge in the field of intestinal stem cells (ISCs) highlighting the most recent progress on markers defining the ISC population and pathways governing intestinal stem cell maintenance and differentiation. Furthermore we review their interaction with other stem cell related pathways. Finally we give an overview of alteration of these pathways in human inflammatory gastrointestinal diseases.

Major conclusions

We highlight the complex network of interactions occurring among different pathways and put in perspective the many layers of regulation that occur in maintaining the intestinal homeostasis.

General significance

Understanding the involvement of ISCs in inflammatory diseases can potentially lead to new therapeutic approaches to treat inflammatory GI pathologies such as IBD and celiac disease and could reveal the molecular mechanisms leading to the pathogenesis of dysplasia and cancer in inflammatory chronic conditions. This article is part of a Special Issue entitled Biochemistry of Stem Cells.     

Strand-specific contacts and divalent metal ion regulate double-strand break formation by the GIY-YIG homing endonuclease I-BmoI

GIY-YIG homing endonucleases are modular enzymes consisting of a well-defined N-terminal catalytic domain connected to a variable C-terminal DNA-binding domain. Previous studies have revealed that the role of the DNA-binding domain is to recognize and bind intronless DNA substrate, positioning the N-terminal catalytic domain such that it is poised to generate a staggered double-strand break by an unknown mechanism. Interactions of the N-terminal catalytic domain with intronless substrate are therefore a critical step in the reaction pathway but have been difficult to define. Here, we have taken advantage of the reduced activity of I-BmoI, an isoschizomer of the well-studied bacteriophage T4 homing endonuclease I-TevI, to examine double-strand break formation by I-BmoI. We present evidence demonstrating that I-BmoI generates a double-strand break by two sequential but chemically independent nicking reactions where divalent metal ion is a limiting factor in top-strand nicking. We also show by in-gel footprinting that contacts by the I-BmoI catalytic domain induce significant minor groove DNA distortions that occur independently of bottom-strand nicking. Bottom-strand contacts are critical for accurate top-strand nicking, whereas top-strand contacts have little influence on the accuracy of bottom-strand nicking. We discuss our results in the context of current models of GIY-YIG endonuclease function, with emphasis on the role of divalent metal ion and strand-specific contacts in regulating the activity of a single active site to generate a staggered double-strand break.     

Marked differences of haplotype tagging SNP distribution,linkage, and haplotype profile of IL23 receptor gene in Roma and Hungarian population samples

Polymorphisms of the interleukin-23 receptor (IL23R) gene have been found to play an important role in the development of several autoimmune diseases. We examined five susceptible (rs10889677, rs1004819, rs2201841, rs11805303, rs11209032), one protective (rs7517847) and two neutral variants (rs7530511, rs1884444) of the IL23R gene in pooled DNA of healthy Roma (Gipsy) and Hungarian population samples. Our aim was to determine the genetic variability of the major haplotype tagging polymorphisms, and the haplotype profile of IL23R between the two groups. We analyzed 273 healthy Roma and 253 Hungarian DNA samples using PCR/RFLP assay. Comparing the five susceptible conferring alleles, there were significant increase (p < 0.05), while in the protective alleles, there were decrease in the allele frequencies in Roma population (p < 0.05). One of the neutral alleles showed increase, the another one did not differ between the two groups. The haplotype analysis of the SNPs revealed fundamentally different association types of SNPs in the two groups; moreover, the frequencies of the various haplotypes also exhibited strong differences, as of ht4 and ht5 haplotypes were significantly higher, whereas the frequencies of ht2 and ht3 haplotypes were significantly lower in the Roma population than in Hungarians (p < 0.05). The data presented here show profound differences in the IL23R genetic profiles in the Roma population, that likely has also clinical implications in respect their possible role in the development of certain immunological diseases.     

溃疡性结肠炎大鼠模型的建立及外周血NK细胞活性的改变

目的　通过建立Wistar大鼠溃疡性结肠炎 (UC)模型 ,探讨外周血NK细胞活性的变化和发病机理的关系。方法　采用饮用Dextransulfatesodium (DSS)水溶液 ,复制UC动物模型 ,随机分为 4组 ,即模型组 :每天饮用生理盐水 6ml(简称M) ;锌治疗组 (Zn组 ) :每天 2次灌肠给予硫酸锌 180mg kg ;硒治疗组 (Se组 ) :每天给予硒力口服液 (含硒 6 0 μg ) 6ml;锌 +硒治疗组 :(ZS组 )每天给予上述剂量硫酸锌 硒力口服液 6ml;均给予 15d ,另设正常对照组 (C组 ) ,每天饮用生理盐水 6ml。用微量乳酸脱氢酶 (LDH)释放法测定各组外周血NK细胞活性。采用火焰原子吸收法测定结肠粘膜锌含量。采用荧光分光光度计比色法测定结肠粘膜硒含量。结果　DSS所致大鼠UC模型简单易行 ,与人类病变相类似。模型组外周血NK细胞活性较正常组降低 (P <0 0 5 ) ,经硒治疗后则有明显回升 (P<0 0 5 )。应用锌、硒治疗后结肠粘膜局部相应微量元素的含量明显提高 (P <0 0 1)。结论　经硒治疗后NK细胞活性明显升高 ,微量元素 (锌和硒 )对UC动物模型有一定的疗效     

线粒体解偶联蛋白UCP2的研究进展

本文综述了线粒体解偶联蛋白2（uncoupling protein2,UCP2）研究方面的进展。UCP2定位于线粒体内膜上,通过消散线粒体内膜的质子梯度调节线粒体的功能,包括线粒体内膜电位、ATP合成、呼吸链ROS产生、线粒体钙库的存储和释放等。目前,UCP2的质子漏机理并不清楚,但体内实验表明UCP2活性可被过氧化物激活。特别是近年来UCP2调控胰岛素分泌方面的研究取得了重要进展。     

Chemokine and cytokine levels in inflammatory bowel disease patients

Crohn’s disease (CD) and ulcerative colitis (UC), two forms of inflammatory bowel disease (IBD), are chronic, relapsing, and tissue destructive lesions that are accompanied by the uncontrolled activation of effector immune cells in the mucosa. Recent estimates indicate that there are 1.3 million annual cases of IBD in the United States, 50% of which consists of CD and 50% of UC. Chemokines and cytokines play a pivotal role in the regulation of mucosal inflammation by promoting leukocyte migration to sites of inflammation ultimately leading to tissue damage and destruction. In recent years, experimental studies in rodents have led to a better understanding of the role played by these inflammatory mediators in the development and progression of colitis. However, the clinical literature on IBD remains limited. Therefore, the aim of this study was to evaluate systemic concentrations of key chemokines and cytokines in forty-two IBD patients with a range of disease activity compared to levels found in ten healthy donors. We found a significant increase in an array of chemokines including macrophage migration factor (MIF), CCL25, CCL23, CXCL5, CXCL13, CXCL10, CXCL11, MCP1, and CCL21 in IBD patients as compared to normal healthy donors (P < 0.05). Further, we also report increases in the inflammatory cytokines IL-16, IFN-γ, IL-1β and TNF-α in IBD patients when compared to healthy donors (P < 0.05). These data clearly indicate an increase in circulating levels of specific chemokines and cytokines that are known to modulate systemic level through immune cells results in affecting local intestinal inflammation and tissue damage in IBD patients. Blockade of these inflammatory mediators should be explored as a mechanism to alleviate or even reverse symptoms of IBD.