反义CD151基因转染对大鼠血管平滑肌细胞迁移的影响

目的观察pcDNA3.1真核表达载体介导的反义CD151基因转染对培养的大鼠动脉平滑肌细胞(VSMCs)迁移的影响。方法构建携带全长正义和反义CD151的真核表达载体pcDNA3.1-CD151和pcDNA3.1-anti-CD151重组质粒,转染体外培养的VSMCs,以RT-PCR和Western blot方法检测CD151的表达,用Boyden趋化小室方法观察细胞迁移。结果与载体对照组、脂质体对照组和空白对照组3组均值比较,转染48h后,反义CD151组mRNA表达降低58%,蛋白表达降低51%,正义CD151组的VSMCs CD151mRNA表达增加171%,蛋白表达增加133%;趋化迁移的细胞数,反义CD151组为37.9±6.3,正义CD151组为86.5±12.4;载体对照组、脂质体对照组和空白对照组分别为60.3±7.1、61.8±7.6和67.3±9.6。反义CD151组显著低于其余各组(P<0.01),正义CD151组显著高于其余各组(P<0.01)。结论pcDNA3.1真核表达载体介导的反义CD151转染,通过抑制CD151的表达,能够显著抑制大鼠VSMCs的迁移。     

α2b-IFN诱导CD25表达和对PBMC内HCV RNA的阴转作用

目的探讨α2b-IFN对PBMC内CD25的诱导及对HCV-RNA、抗-HCV转阴效果。方法用BSA法检测慢性丙肝患者治疗前后CD25表达水平。以α2b-IFN(3 MU/d)治疗3个月为一疗程,共2个疗程,于治疗前后分别检测患者PBMC内HCV-RNA和血清HCV-RNA、抗-HCV。结果慢性丙肝患者α2b-IFN治疗后静息期、诱导期CD25表达水平分别为(3.44±0.77)%、(33.62±3.95)%,PBMC、血清内HCV-RNA和抗-HCV转阴率分别为42.31%(11/26)、57.69%(15/26)和65.38%(17/26),与对照相比差异有显著性(P<0.01~P<0.05)。结论α2b-IFN可诱导CD25表达,对PBMC内HCV-RNA具有肯定的治疗作用,其疗效优于常规治疗。     

In silico investigation of novel biological pathways: The role of CD200 in regulation of T cell priming in experimental autoimmune encephalomyelitis

The use of simulation to investigate biological domains will inevitably lead to the need to extend existing simulations as new areas of these domains become more fully understood. Such simulation extensions can entail the incorporation of additional cell types, molecules or molecular pathways, all of which can exert a profound influence on the simulation behaviour. Where the biological domain is not well characterised, a structured development methodology must be employed to ensure that the extended simulation is well aligned with its predecessor. We develop and discuss such a methodology, relying on iterative simulation development and sensitivity analysis. The utility of this methodology is demonstrated using a case study simulation of experimental autoimmune encephalomyelitis (EAE), a murine T cell-mediated autoimmune disease model of multiple sclerosis, where it is used to investigate the activity of an additional regulatory pathway. We discuss how application of this methodology guards against creating inappropriate simulation representations of the biology when investigating poorly characterised biological mechanisms.     

Biochemical modifications of gliadins induced by microbial transglutaminase on wheat flour

Background

Celiac disease (CD) is an immune-mediated disorder caused by the ingestion of wheat gluten. A lifelong, gluten-free diet is required to normalize the intestinal mucosa. We previously found that transamidation by microbial transglutaminase (mTGase) suppressed the gliadin-specific immune response in intestinal T-cell lines from CD patients and in models of gluten sensitivity.

Methods

SDS-PAGE, Western blot, ELISA, tissue transglutaminase (tTGase) assay and nano-HPLC–ESI-MS/MS experiments were used to analyze prolamins isolated from treated wheat flour.

Results

Gliadin and glutenin yields decreased to 7.6 ± 0.5% and 7.5 ± 0.3%, respectively, after a two-step transamidation reaction that produced a water-soluble protein fraction (spf). SDS-PAGE, Western blot and ELISA analyses confirmed the loss of immune cross-reactivity with anti-native gliadin antibodies in residual transamidated gliadins (K-gliadins) and spf as well as the occurrence of neo-epitopes. Nano-HPLC–ESI-MS/MS experiments identified some native and transamidated forms of celiacogenic peptides including p31–49 and confirmed that mTGase had similar stereo-specificity of tTGase. Those peptides resulted to be 100% and 57% modified in spf and K-gliadins, respectively. In particular, following transamidation p31–49 lost its ability to increase tTGase activity in Caco-2 cells. Finally, bread manufactured with transamidated flour had only minor changes in baking characteristics.

Conclusions

The two-step transamidation reaction modified the analyzed gliadin peptides, which are known to trigger CD, without influencing main technological properties.

General significance

Our data shed further light on a detoxification strategy alternative to the gluten free diet and may have important implications for the management of CD patients.     

Functional consequences of mutating conserved SF2 helicase motifs in the Type III restriction endonuclease EcoP15I translocase domain

For efficient DNA hydrolysis, Type III restriction endonuclease EcoP15I interacts with two inversely oriented recognition sites in an ATP-dependent process. EcoP15I consists of two methylation (Mod) subunits and a single restriction (Res) subunit yielding a multifunctional enzyme complex able to methylate or to hydrolyse DNA. Comprehensive sequence alignments, limited proteolysis and mass spectroscopy suggested that the Res subunit is a fusion of a motor or translocase (Tr) domain of superfamily II helicases and an endonuclease domain with a catalytic PD…EXK motif. In the Tr domain, seven predicted helicase motifs (I, Ia, II–VI), a recently discovered Q-tip motif and three additional regions (IIIa, IVa, Va) conserved among Type III restriction enzymes have been identified that are predicted to be involved in DNA binding and ATP hydrolysis. Because DNA unwinding activity for EcoP15I (as for bona fide helicases) has never been found and EcoP15I ATPase rates are only low, the functional importance of the helicase motifs and regions was questionable and has never been probed systematically. Therefore, we mutated all helicase motifs and conserved regions predicted in Type III restriction enzyme EcoP15I and examined the functional consequences on EcoP15I enzyme activity and the structural integrity of the variants by CD spectroscopy. The resulting eleven enzyme variants all, except variant IVa, are properly folded showing the same secondary structure distribution as the wild-type enzyme. Classical helicase motifs I–VI are important for ATP and DNA cleavage by EcoP15I and mutations therein led to complete loss of ATPase and cleavage activity. Among the catalytically inactive enzyme variants three preserved the ability to bind ATP. In contrast, newly assigned motifs Q-tip, Ia and Va are not essential for EcoP15I activity and the corresponding enzyme variants were still catalytically active. DNA binding was only marginally reduced (2–7 fold) in all enzyme variants tested.     

Association of the macrophage migration inhibitory factor gene − 173G/C polymorphism with inflammatory bowel disease: A meta-analysis of 4296 subjects

A variety of epidemiologic studies have focused on the association between macrophage migration inhibitory factor (MIF) gene − 173G/C polymorphism and inflammatory bowel disease (IBD). However, results in different studies have been inconsistent. In order to derive a more precise estimation of the associations, we performed this meta-analysis and systematic searches of electronic databases PubMed and Web of Science (up to April 30, 2013). Based on our search criteria, a total of seven eligible studies concerning the MIF − 173G/C polymorphism and IBD risk were included in the final meta-analysis, comprising 2162 IBD cases and 2134 controls. Significant association was found between MIF − 173G/C polymorphism and the risk of IBD when all studies were pooled into the meta-analysis (for C allele vs. G allele: OR = 1.25, 95% CI = 1.12–1.41, p = 0.000; for C/C vs. G/G: OR = 1.71, 95% CI = 1.23–2.39, p = 0.002; for C/C + G/C vs. G/G: OR = 1.24, 95% CI = 1.09–1.42, p = 0.002; for C/C vs. G/C + G/G: OR = 1.67, 95% CI = 1.20–2.33, p = 0.002). Heterogeneity and publication bias did not exist in the overall comparisons. The present meta-analysis suggests an association between the MIF − 173G/C polymorphism and IBD risk. However, due to few studies and the selection bias existed in some studies, the results should be interpreted with caution.     

Single nucleotide polymorphism of CD40 in the 5′-untranslated region is associated with ischemic stroke

Objectives

Ischemic stroke is influenced by both environmental and genetic factors. The CD40/CD40L system is related to proinflammatory and prothrombogenic responses, which are involved in the pathophysiology of ischemic stroke. The aim of this study was to evaluate association between the CD40 -1C/T single nucleotide polymorphism (SNP) and ischemic stroke in a Chinese population.

Methods

We conducted a case–control study including 286 ischemic stroke patients and 336 controls. CD40 -1C/T SNP was genotyped using polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) and DNA sequencing methods, and evaluated its relevance to ischemic stroke susceptibility.

Results

Significantly increased ischemic stroke risk was found to be associated with the T allele of CD40 -1C/T (OR = 1.273, 95% CI = 1.016–1.594). The frequencies of CT and TT/CT genotypes of CD40 -1C/T in ischemic stroke patients were significantly higher than those of controls, respectively (for CT: OR = 2.350, 95% CI = 1.601–3.449; for TT/CT: OR = 2.148, 95% CI = 1.479–3.119). And, similar results were obtained after adjusting non-matched variables. We found that the frequency of carried T genotypes (TT and TT/CT) was significantly increased in patients with history of stroke compared with patients without (for TT: OR = 6.538, 95%CI = 1.655–25.833; for TT/CT: OR = 3.469, 95%CI = 1.031–11.670), respectively.

Conclusions

The findings suggested that the CD40 -1C/T polymorphism might contribute to the susceptibility to ischemic stroke in the Chinese population, and might be associated with history of previous stroke.