微生态制剂改善非酒精性脂肪性肝病患者胰岛素抵抗的临床研究

目的:观察美常安对非酒精性脂肪性肝病(NAFLD)患者临床症状及胰岛素抵抗(IR)的作用。方法:选取2009年4月至2013年3月我院收治的88例NAFLD患者,随机分为治疗组和对照组。对照组给予基础治疗,治疗组在对照组的基础上,加用美常安胶囊进行治疗。比较两组疗效及治疗前后两组血清谷丙转氨酶(ALT)、甘油三酯(TG)及稳态胰岛素抵抗指数(HOMA-IR)水平,并分析血浆D乳酸、TNF-α、内毒素与HOMA-IR的相关性,观察两组不良反应情况。结果:治疗组治疗有效率为52.3%,明显高于对照组的29.5%(P0.05)。治疗后治疗组ALT、TG、HOMA-IR下降幅度,均明显优于对照组(P0.05)。治疗后治疗组患者血浆D乳酸、TNF-α、内毒素水平明显低于对照组(P0.05),且治疗组患者HOMA-IR与患者血浆D乳酸、血清TNF-α、内毒素水平呈正相关(r=0.352,0.44,0.48;均P0.05)。不良反应发生率低,且两组不良反应发生率无显著差异(P0.05)。结论:美常安治疗NAFLD疗效显著,可降低ALT、TG水平,降低肠道通透性,改善肠源性内毒素血症,改善IR,且安全性较高。     

粪便乳铁蛋白评价溃疡性结肠炎活动性的临床价值

目的:探讨粪便乳铁蛋白作为溃疡性结肠炎活动性标志物的可能性。方法:选取溃疡性结肠炎患者42例,对照组炎症性肠病患者20例,采用酶联免疫吸附试验法测定粪便乳铁蛋白的含量,同时测定实验室指标白细胞计数、红细胞沉降率(ESR)、C反应蛋白(CPR)的水平。结果:1)溃疡性结肠炎组活动期粪便乳铁蛋白的含量显著高于缓解期和对照组,且活动期组轻、中、重度三级之间差异有统计学意义;粪便乳铁蛋白的含量随着内镜的分级程度的增高而增高,但与溃疡性结肠炎内镜分级之间相关性不明显r=0.4199(P=0.0517)。2)粪便乳铁蛋白对判断溃疡性结肠炎的活动性的特异性和敏感性显著高于外周血白细胞计数、C反应蛋白、红细胞沉降率。结论:粪便乳铁蛋白对溃疡性结肠炎活动性的判定价值显著高于白细胞计数、C反应蛋白、红细胞沉降率,但是否可以作为理想的替代肠镜的炎症性标志物还有待进一步的大样本研究。     

基于诱导性多潜能干细胞的亨廷顿舞蹈病发病机制研究

目的:基于诱导性多潜能干细胞(induced pluripotent stem cells,i PSC)多潜能性的特点将亨廷顿舞蹈病(Huntington disease,HD)患者和正常人特异性i PSC定向诱导分化成运动神经元,并在运动神经元的基础上探讨HD的发病机制。方法:将HD患者和正常人的i PS细胞在特定的生长因子和神经因子的作用下定向诱导分化成运动神经元。然后用免疫荧光染色检测运动神经元特异性标记物HB9和ISL1的表达。以DCFH-DA和JC-1为荧光探针,利用流式分析法分别对正常人和HD患者运动神经元细胞活性氧和线粒体膜电位进行检测。结果:经过25天诱导分化成功得到HD患者和正常人的运动神经元,并且免疫荧光染色显示,βIII-微管蛋白阳性的神经细胞同时表达运动神经元特异性的标志物HB9和ISL1。此外,经实验统计发现HD患者运动神经元细胞内代表活性氧水平的荧光强度(4704.33±390.50)较正常组(2840.33±166.20)有明显增强(P=0.002),而且代表线粒体膜电位红绿荧光强度比(2.74±0.13)较正常组(3.97±0.29)相比有明显降低(P=0.03)。结论:HD患者特异性i PSC能够诱导分化成运动神经元,为实验提供研究模型。HD的发病与运动神经元细胞线粒体功能障碍有关。     

血管紧张素转换酶基因多态性与冠心病发病的相关关系

目的:从分子遗传学角度分析血管紧张素转换酶(ACE)基因I/D多态与中国北方汉族人群中冠心病发病的相关关系。方法:本研究收集在沈阳军区总医院心内科住院的行冠脉造影检查的病例为研究对象,冠脉动脉照影检查显示冠状动脉主支狭窄程度大于等于70%的入选为冠心病组,冠状动脉照影检查显示冠状动脉主支狭窄程度小于20%的为对照组,共入选568名冠心病患者以及性别与年龄相匹配的529名对照个体为研究对象,利用测序的方法分析检测血管紧张素转换酶(ACE)基因I/D多态在冠心病组与对照组中的频率分布情况。结果:血管紧张素转换酶(ACE)基因I/D多态基因型频率符合Hardy-Weinberg定律。血管紧张素转换酶(ACE)基因I/D多态(II型,ID型和DD型)在我们入选的568例冠心病组分布频率分别为50.3%,30.3%和19.4%,而在我们入选的524例对照组中的分布频率为57.7%,31.2%和11.1%,研究发现血管紧张素转换酶(ACE)基因I/D多态可能是中国北方汉族人群冠心病发病的独立危险因素(P0.05);利用多元回归分析发现,在调整了冠心病的其他危险因素后,血管紧张素转换酶(ACE)基因I/D多态的变化仍然是中国北方汉族人群冠心病发病一个独立危险因素,可以预测中国北方汉族人群冠心病的发生。结论:在中国北方汉族人群中,血管紧张素转换酶(ACE)基因I/D多态可能是冠心病发病的独立危险因素,在临床上可以早期预判冠心病的发生。     

Secretome analysis of virulent Pyrenophora teres f. teres isolates

Pyrenophora teres f. teres (Ptt) causes net form net blotch disease of barley, partially by producing necrosis‐inducing proteins. The protein profiles of the culture filtrates of 28 virulent isolates were compared by a combination of 2DE and 1D‐PAGE with 105 spots and 51 bands chosen for analysis by liquid chromatography electrospray ionization tandem mass spectrometry. A total of 259 individual proteins were identified with 63 of these proteins being common to the selected virulent isolates. Ptt secretes a broad spectrum of proteins including cell wall degrading enzymes; virulence factors and effectors; proteins associated with fungal pathogenesis and development; and proteins related to oxidation–reduction processes. Potential virulence factors and effectors identified included proteins with glucosidase activity, ricin B and concanavalin A‐like lectins, glucanases, spherulin, cutinase, pectin lyase, leucine‐rich repeat protein, and ceratoplatanin. Small proteins with unknown function but cysteine‐rich, common to effectors, were also identified. Differences in the secretion profile of the Ptt isolates have also provided important insight into the different mechanisms contributing to virulence and the development of net form net blotch symptoms.     

Targeting neuronal MAPK14/p38α activity to modulate autophagy in the Alzheimer disease brain

Dysregulated autophagic-lysosomal degradation of proteins has been linked to the most common genetic defect in familial Alzheimer disease, and has been correlated with disease progression in both human disease and in animal models. Recently, it was demonstrated that the expression of MAPK14/p38α protein is upregulated in the brain of APP-PS1 transgenic Alzheimer mouse and further that genetic deficiency of Mapk14 in the APP-PS1 mouse stimulates macroautophagy/autophagy, which then leads to reduced amyloid pathology via increasing autophagic-lysosomal degradation of BACE1. The findings resolve at least in the context of the APP-PS1 mouse, prior conflicting in vitro observations that have implicated MAPK14 in autophagic processes, and indicate that inhibition of MAPK14 enzyme activity has potential as a therapeutic approach to mitigate a critical physiological defect within neurons of the Alzheimer disease brain. Moreover, the findings suggest that biomarkers of BACE1 activity could be utilized to evaluate the effects of MAPK14 inhibition and other autophagy-inducing therapeutic approaches in human clinical studies, thereby potentially facilitating the clinical development of such agents.     

The fatty acid chain elongase,Elovl1, is required for kidney and swim bladder development during zebrafish embryogenesis

Very long chain fatty acids are required for sphingolipid synthesis, lipid homeostasis, myelin formation, epidermal permeability, and retinal function. Seven different enzymes are known to be involved in the elongation cycle of fatty acids, with different chain-length specificities. Elovl1 is one of those enzymes whose function has been linked mainly to the synthesis of sphingolipids and the epidermal barrier. However, the role of Elovl1 in organogenesis is not clear. In zebrafish, 2 Elovl1 genes, elovl1a and elovl1b, are highly expressed in the swim bladder, and elovl1b is also expressed in the kidney. We found that both elovl1 knockdown embryos contain increased levels of long chain fatty acids from carbon number 14 to 20 as compared to control embryos. Oil-Red-O staining shows that yolk lipid consumption is greatly reduced, whereas lipid droplets accumulate within the swim bladder. Notably, knockdown of either elovl1a or elovl1b affects the expression of genes involved in swim bladder development and impairs inflation of the swim bladder. Consistent with its expression in the pronephros, knockdown of elovl1b alone affects the expression of genes required for kidney development and reduces renal clearance. Our findings strongly suggest that both elovl1 genes are a key determinant of swim bladder and kidney development in zebrafish, which may be comparatively applicable to lung and kidney development in humans.     

Humanized mouse G6 anti-idiotypic monoclonal antibody has therapeutic potential against IGHV1-69 germline gene-based B-CLL

In 10–20% of the cases of chronic lymphocytic leukemia of B-cell phenotype (B-CLL), the IGHV1-69 germline is utilized as VH gene of the B cell receptor (BCR). Mouse G6 (MuG6) is an anti-idiotypic monoclonal antibody discovered in a screen against rheumatoid factors (RFs) that binds with high affinity to an idiotope expressed on the 51p1 alleles of IGHV1-69 germline gene encoded antibodies (G6-id⁺). The finding that unmutated IGHV1-69 encoded BCRs are frequently expressed on B-CLL cells provides an opportunity for anti-idiotype monoclonal antibody immunotherapy. In this study, we first showed that MuG6 can deplete B cells encoding IGHV1-69 BCRs using a novel humanized GTL mouse model. Next, we humanized MuG6 and demonstrated that the humanized antibodies (HuG6s), especially HuG6.3, displayed ～2-fold higher binding affinity for G6-id⁺ antibody compared to the parental MuG6. Additional studies showed that HuG6.3 was able to kill G6-id⁺ BCR expressing cells and patient B-CLL cells through antibody-dependent cell-mediated cytotoxicity (ADCC) and complement-dependent cytotoxicity (CDC). Finally, both MuG6 and HuG6.3 mediate in vivo depletion of B-CLL cells in NSG mice. These data suggest that HuG6.3 may provide a new precision medicine to selectively kill IGHV1-69-encoding G6-id⁺ B-CLL cells.