Suppressed apoptosis in the inflamed gastric mucosa of Helicobacter pylori-colonized iNOS-knockout mice

Deregulated cell turnover in Helicobacter pylori (H. pylori)-colonized gastric mucosa has been suggested to be linked to the gastric carcinogenesis pathway. We previously reported attenuation of apoptosis and enhancement of cellular proliferation in the H. pylori-colonized gastric mucosa of Mongolian gerbils as compared to that in mice, which might reflect a specific link between H. pylori colonization and carcinogenesis in the Mongolian gerbils; the difference between the two strains could be attributable to differences in the host genetic background. Inducible-type nitric oxide synthase (iNOS) is thought to participate in not only the inflammatory response, but also in the regulation of gastric mucosal cell turnover in H. pylori-colonized gastric mucosa. Thus, the present study was designed to examine gastric leukocyte activation and epithelial cell apoptosis in the gastric mucosa following H. pylori inoculation in iNOS-knockout mice. Methods: iNOS-knockout mice (iNOS^−/−) and their iNOS^+/+ littermates were orally inoculated with the Sydney strain of H. pylori (SS1, 10⁸ colony-forming units [CFU]). H. pylori infection was confirmed by microaerobic bacterial culture. The stomach of each mouse was evaluated 14 weeks and 30 weeks after the inoculation. Gastric mucosal accumulation of polymorphonuclear leukocytes (PMN) was assessed by determining the myeloperoxidase (MPO) activity and histological score based on the updated Sydney system. The level of apoptosis was determined by estimation of the cytoplasmic levels of mono- and oligonucleosomes and by the terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick-end labeling method. Results: The SS1-inoculated mice showed persistent H. pylori colonization for 12 weeks. While gastric mucosal PMN infiltration increased following SS1 inoculation in both iNOS^+/+ and iNOS^−/−strains, enhanced DNA fragmentation was observed in only SS1-colonized iNOS^+/+ mice, and not in the iNOS^−/− mice. In conclusion, although the recruitment of PMN in response to H. pylori was evoked even in the gastric mucosa of iNOS^−/− mice, epithelial cell apoptosis induced by H. pylori was attenuated in this strain. These data suggest that iNOS may play an important role in promoting apoptosis in the H. pylori-infected inflamed gastric mucosa, and that persistent inflammation without apoptosis in iNOS^−/− mice with H. pylori infection may be linked to preneoplastic transformation.     

幽门螺杆菌多价表位疫苗CWAE的表达及其免疫学性质的研究 *

目的 利用生物信息学软件评价幽门螺杆菌(Helicobacter pylori)多价表位疫苗CWAE的抗原结构,经原核表达获得高纯度CWAE蛋白,进而鉴定多价表位疫苗CWAE的免疫学性质。方法 通过生物信息学软件分析H. pylori多价表位疫苗CWAE的抗原结构;用人工合成的H. pylori多价表位肽融合基因WAE替换重组质粒pET28a-CUE中的UE基因,构建重组质粒pET28a-CWAE。然后,将pET28a-CWAE转入大肠杆菌BL21(DE3)中,经IPTG诱导表达,并通过Ni-NTP镍离子亲和层析纯化抗原蛋白CWAE;利用GM1-ELISA鉴定CWAE中CTB组分的黏膜免疫佐剂活性。最后,通过ELISA和小鼠脾脏淋巴细胞增殖实验检测CWAE激发BALB/c小鼠产生抗H. pylori抗体体液免疫和淋巴细胞免疫应答的能力。结果 通过生物信息学软件证实H. pylori多价表位疫苗CWAE具有科学合理的结构;重组表达质粒pET28a-CWAE经PCR、双酶切和基因测序鉴定,融合基因CWAE与设计序列完全一致;重组基因工程菌株pET28a-CWAE/BL21(DE3)经IPTG诱导表达,抗原蛋白CWAE主要以包涵体形式存在,经Ni-NTP镍离子亲和层析纯化,纯度约达93.2%;GM1-ELISA实验证实,CWAE中CTB组分依旧保持有较好的黏膜佐剂活性;ELISA结果证实CWAE能够激发BALB/c小鼠产生H. pylori特异性抗体,而小鼠脾脏淋巴细胞增殖实验进一步证实CWAE能够激发针对H. pylori多种致病因子的淋巴细胞免疫反应。结论 H. pylori多价表位疫苗CWAE具有科学合理的抗原结构,经原核表达可获得高纯度抗原蛋白,能够激发BALB/c小鼠产生H. pylori特异性抗体体液免疫和淋巴细胞免疫应答。为研发防治H. pylori感染的多价表位疫苗奠定实验基础。     

The role of neutrophils and inflammation in gastric mucosal injury

Gastric inflammation is a highly complex biochemical protective response to cellular/tissue injury. When this process occurs in an uncontrolled manner, the result is excessive cellular/tissue damage that results chronic inflammation and destruction of normal tissue. Current evidence suggests that Helicobacter pylori (H. pylori) infection and nonsteroidal anti-inflammatory drug (NSAID) ingestion are major causative factors in the pathogenesis of gastric mucosal injury in humans. In response to H. pylori infection or NSAID, neutrophils are recruited to the site of inflammation and generate reactive oxygen and nitrogen species and proteases. However, neutrophils are not able to kill the bacteria that live in the gastric mucus, and compounds produced by activated neutrophils themselves may be potentially harmful for normal tissue. It has been shown that leukocyte-vascular endothelial cell interaction is regulated by various cell adhesion molecules, and that this interaction is directly or indirectly modified by many factors, the origin of which is H. pylori and NSAIDs. This review describes the potential role of neutrophils and neutrophil-associated inflammation for gastric oxidative stress and injury induced by H. pylori and/or NSAID.     

Enhanced liver cell mutations in trematode-infected Big Blue transgenic mice

Parasite infections in humans have long been associated with specific types of cancers. Schistosoma hematobium is a known inducer of urinary bladder cancer, Helicobacter pylori is a gastric carcinogen, and hepatitis B virus and Opisthorchis viverrini are causative agents of liver cell cancers. Another liver fluke, Fasciola hepatica, has also been identified as a neoplastic risk agent, primarily in animals. We used F. hepatica as a model agent to determine if the presence of an aggressive liver fluke could induce mutagenic events in mammalian tissue. Using the Big Blue^® transgenic mouse assay, we found a two-fold increase in lacI mutations in cells harvested from mice harboring F. hepatica worms when compared to uninfected control animals. These data indicate that biological infections can cause increased genetic damage in surrounding host tissue.     

A stain for demonstrating Helicobacter pylori in gastric biopsies

Helicobacter pylori continues to be a significant health care problem. It is associated with a variety of stomach disorders such as gastritis, gastric ulcer disease, gastric carcinoma and B-cell gastric lymphoma. One common method diagnosing an infection by this bacterium is microscopic examination of routine processed gastric or duodenal biopsies. With this type of specimen, it is necessary to demonstrate visually the presence of H. pylori using an appropriate staining technique. This paper presents a simple staining technique for demonstrating H. pylori in gastric biopsy specimens using carbol fuchsin staining against a contrasting background of light green.     

Oxidative stress defense mechanisms to counter iron-promoted DNA damage in Helicobacter pylori

Iron, a key element in Fenton chemistry, causes oxygen-related toxicity to cells of most living organisms. Helicobacter pylori is a microaerophilic bacterium that infects human gastric mucosa and causes a series of gastric diseases. Exposure of H. pylori cells to air for 2 h elevated the level of free iron by about 4-fold as measured by electron paramagnetic resonance spectroscopy. H. pylori cells accumulated more free iron as they approached stationary phase growth, and they concomitantly suffered more DNA damage as indicated by DNA fragmentation analysis. Relationships between the intracellular free iron level, specific oxidative stress enzymes, and DNA damage were identified, and new roles for three oxidative stress-combating enzymes in H. pylori are proposed. Mutant cells defective in either catalase (KatA), in superoxide dismutase (SodB) or in alkyl hydroperoxide reductase (AhpC) were more sensitive to oxidative stress conditions; and they accumulated more free (toxic) iron; and they suffered more DNA fragmentation compared to wild type cells. A significant proportion of cells of sodB, ahpC, or katA mutant strains developed into the stress-induced coccoid form or lysed; they also contained significantly higher amounts of 8-oxo-guanine associated with their DNA, compared to wild type cells.     

Antimicrobial activity of aqueous extracts of Larrea divaricata Cav (jarilla) against Helicobacter pylori

We studied here the effect of aqueous extracts of Larrea divaricata Cav on the growth of Helicobacter pylori. Results show that cold extract, infusion, decoction and simulated digestion had inhibitory activity at 0.04–0.1 mg/l against clarithromycin and metronidazole susceptible and resistant H. pylori strains. These results support the popular use of L. divaricata Cav in gastric disturbances and prompt further research to characterize these compounds with a therapeutic potential against gastric ulcers and gastric cancer associated with H. pylori.     

重组酿酒酵母表达幽门螺杆菌VacA蛋白及其免疫原性分析*

目的:利用酿酒酵母表面展示技术筛选幽门螺杆菌候选疫苗,并分析其免疫原性。方法:以幽门螺杆菌的空泡型细胞毒素A(vacA)基因作为研究对象,构建重组S.cerevisiae EBY100/pYD1-VacA,通过Western blot、免疫荧光标记和流式细胞仪对S.cerevisiae EBY100/pYD1-VacA进行体外表达分析。以PBS和S.cerevisiae EBY100/pYD1为对照组,S.cerevisiae EBY100/pYD1-VacA为实验组,口服免疫SPF级BALB/c小鼠。通过ELISA分析检测口服免疫后小鼠抗VacA特异性IgG及分泌型IgA效价。结果:VacA抗原蛋白被成功地展示在S.cerevisiae EBY100表面。小鼠经口服免疫S.cerevisiae EBY100/pYD1-VacA后可诱导产生较高的VacA特异性抗体。结论:表面展示型酿酒酵母可以作为幽门螺杆菌候选疫苗的递送载体,与此同时,这也为开发其他细菌或病毒疫苗提供新思路。     

Why Helicobacter pylori has Lewis antigens

In mimicry with human gastric epithelial cells, the lipopolysaccharide of Helicobacter pylori expresses Lewis blood group antigens. Recent data suggest that molecular mimicry does not promote immune evasion, nor does it lead to induction of autoantibodies, but that H. pylori Lewis X mediates adhesion to gastric epithelial cells and is essential for colonization.     

猴头菌子实体小分子提取物的分离与体外抑制幽门螺旋杆菌的分析

本研究以甲硝唑为阳性对照,利用HPD-100大孔树脂和95%乙醇将猴头菌子实体中小分子活性物质进行富集,得到乙醇制备液（MREEs）;然后对乙醇制备液分别使用石油醚（60-90℃）和氯仿进行多次萃取,得到石油醚萃取物（A1、A2）和氯仿萃取物（B）,并进行GC-MS测定;对MREEs和A1、A2、B分别进行药敏试验,同时对5种幽门螺旋杆菌进行最低抑菌浓度测定。结果表明,使用大孔树脂得到的MREEs有较好的抑菌活性,得到的A1、A2和B对幽门螺旋杆菌的抑菌率均高于40.0%,其中石油醚萃取物A1在Helicobacter pylori SSI中的抑菌率甚至高达62.9%;A1、A2和B使用GC-MS测定出的主要成分分别是邻苯二甲酸二丁酯（A1,4.53%和A2,6.93%）和棕榈酸2.87%,但仍有大量成分没有被测出。另外,在最低抑菌浓度试验中,A1相应组分对Helicobacter pylori W₂504、Helicobacter pylori 9和Helicobacter pylori ATCC 43504的最低抑菌浓度都为0.25mg/mL,A2对Helicobacter pylori 78的最低抑菌浓度仅为0.25mg/mL,而B对Helicobacter pylori W₂504、Helicobacter pylori 9的最低抑菌浓度均仅为0.125mg/mL,说明通过石油醚和氯仿萃取得到的猴头菌子实体提取物对幽门螺旋杆菌具有潜在的抑菌作用。     

The distribution of 4-hydroxynonenal-modified proteins in gastric mucosa of duodenal peptic ulcer patients

This study used monoclonal antibody specific for 4-hydroxynonenal (HNE)-histidine to evaluate immunohistochemical distribution of HNE-protein adducts in gastric mucosa biopsies of 52 peptic ulcer patients (all positive for H. pylori) and of 20 healthy volunteers (eight positive and 12 negative for H. pylori). HNE-modified proteins were present in glandular epithelium in all subjects, both patients with duodenal peptic ulcer and healthy subjects. Hence, the presence of HNE did not appear to be related to the presence of H. pylori. However, in patients with duodenal peptic ulcer accumulation of HNE-protein adducts was frequently observed also in nuclei, while in the control group such subcellular distribution of HNE was not observed at all. This study shows physiological presence of HNE in human gastric mucosa, but also suggests its role in pathology of gastric dysfunction in duodenal peptic ulcer patients manifested by accumulation of HNE-protein adducts in particular in nuclei of gastric glandular epithelium.     

幽门螺杆菌致病岛CagL重组抗原的可溶性表达及其多克隆抗体的制备和分析*

目的:利用原核表达和蛋白质纯化技术获得高纯度的幽门螺杆菌致病岛CagL重组抗原(rCagL),利用其制备anti-CagL多克隆抗体,并分析抗体的特异性。方法:通过生物信息学软件分析rCagL的抗原结构;利用PCR长片段DNA合成技术合成不含有信号肽序列的幽门螺杆菌致病岛CagL基因,将其插入表达质粒pCzn1中,构建重组质粒pCzn1-rCagL。然后,将pCzn1-rCagL转入大肠杆菌Arctic Express中,经IPTG诱导表达后,通过Ni-IDA镍离子亲和层析纯化重组抗原rCagL,利用Western blot鉴定rCagL与His标签抗体和Anti-H. pylori抗体的免疫反应性;最后,通过rCagL辅以弗氏佐剂免疫BALB/c小鼠,制备anti-CagL多克隆抗血清,通过ELISA方法分析抗血清的特异性。结果:生物信息学软件表明重组抗原rCagL具有较好的抗原性质;重组质粒pCzn1-rCagL经双酶切和基因测序等技术鉴定,证实rCagL核苷酸序列与理论序列完全一致;基因工程菌株pCzn1-rCagL/Arctic Express在低温11℃条件经IPTG诱导表达。 SDS-PAGE实验结果证实:rCagL可实现相对高效地可溶性蛋白表达,可溶性蛋白约占包涵体的62.07%。经Ni-IDA亲和层析柱纯化,可获得高纯度rCagL,纯度约为96.6%。Western blot结果证实:重组抗原rCagL可特异性与His标签抗体和Anti-H. pylori抗体结合。ELISA结果证实:经rCagL免疫小鼠制备的多克隆抗体anti-CagL可特异性识别rCagL和H. pylori裂解物,具有较高的抗体特异性。结论:重组抗原rCagL在低温条件下可实现可溶性表达,经纯化可获得高纯度抗原蛋白;rCagL具有较好的抗原性,制备的多克隆抗体具有较好的免疫特异性,为发展H. pylori相关诊断试剂奠定了实验基础。     

Up-expression of NapA and other oxidative stress proteins is a compensatory response to loss of major Helicobacter pylori stress resistance factors

Twenty-six Helicobacter pylori targeted mutant strains with deficiencies in oxidative stress combating proteins, including 12 double mutant strains were analyzed via physiological and proteomic approaches to distinguish the major expression changes caused by the mutations. Mutations were introduced into both a Mtz^S and a Mtz^R strain background. Most of the mutations caused increased growth sensitivity of the strains to oxygen, and they all exhibited clear compensatory up-expression of oxidative stress resistance proteins enabling survival of the bacterium. The most frequent up-expressed oxidative stress resistance factor (observed in 16 of the mutants) was the iron-sequestering protein NapA, linking iron sequestration with oxidative stress resistance. The up-expression of individual proteins in mutants ranged from 2 to 10 fold that of the wild type strain, even when incubated in a low O₂ environment. For example, a considerably higher level of catalase expression (4 fold of that in the wild-type strain) was observed in ahpC napA and ahpC sodB double mutants. A Fur mutant up-expressed ferritin (Pfr) protein 20-fold. In some mutant strains the bacterial DNA is protected from oxidative stress damage apparently via overexpression of oxidative stress-combating proteins such as NapA, catalase or MdaB (an NADPH quinone reductase). Our results show that H. pylori has a variety of ways to compensate for loss of major oxidative stress combating factors.     

Contribution of ferrous iron to maintenance of the gastric colonization of Helicobacter pylori in miniature pigs

Our previous study showed that the colonization levels of Helicobacter pylori were higher in the stomachs of 5-day-old miniature pigs than in 2-week-old ones. As dietary factors can cause these differences, we compared two diets, i.e., Weanymilk and a similar formula with a higher concentration of Fe(II), Weanylobulin. The colonization levels in the fundic mucosa were significantly higher in 2-week-old pigs fed Weanylobulin than in those fed Weanymilk. Supplementing Weanylobulin with an iron chelator, deferoxamine mesylate, significantly lowered the bacteria counts in the gastric mucosa. Normal diets supplemented with Fe(II) in 2-month-old pigs caused significantly more sites of bacteria in the antrum compared with normal diets alone. In addition, ranitidine, an inhibitor of gastric acid secretion that reduces Fe(III) to Fe(II) in the stomach, decreased the bacteria counts in 10-month-old pigs. These results suggested that Fe(II) maintained the colonization levels of H. pylori in the stomach of the miniature pigs.     

Analysis of lacI mutations in Big Blue transgenic mice subjected to parasite-induced inflammation.

Parasite infections have long been associated with specific types of human cancers. Schistosoma hematobium is an inducer of urinary bladder cancer, Helicobacter pylori is a gastric carcinogen, and hepatitis B virus and Opisthorchis viverrini are causative agents of hepatocellular carcinoma. Another liver fluke, Fasciola hepatica, has also been identified as a neoplastic risk agent, primarily in animals. We used F. hepatica-induced inflammation in mice to determine if the presence of an aggressive liver fluke could induce mutagenic events in mammalian tissue. This provides a perspective on the relationship between chronic inflammation and cancer and may be a model for future studies on this complex association. In previous studies using the Big Blue^® transgenic mouse assay, we demonstrated an increase in lacI mutations in liver cells harvested from mice harboring F. hepatica flukes when compared to uninfected control animals. In these studies, we report on the types of mutations associated with this parasite infection. The observed mutational spectrum roughly corresponded to the spectrum of spontaneous mutations in liver cells when compared to control (uninfected) animals. However, the spectrum of mutations from parasitized animals showed a significant increase in complex changes and multiple mutations (18.2%) when compared to what would be expected from control animals (2.8%).     

Aberrant AID expression and human cancer development

Cancer develops via a multistep process that occurs through the accumulation of somatic mutations of tumor-related genes that govern cell proliferation, regeneration, and apoptosis. The question how normal cells acquire the genetic changes that lead to malignant transformation is, however, unknown at present. Activation-induced cytidine deaminase (AID) produces immune-diversity by inducing somatic hypermutations and class-switch recombinations in human immunoglobulin genes. Unfortunately, this function of AID as a genome mutator could aim at the generation of somatic mutations in various host genes of non-lymphoid tissues and contribute to tumorgenesis. Notably, aberrant AID expression can be triggered by several pathogenic factors, including Helicobacter pylori infection and proinflammatory cytokine stimulation, in human epithelial cells, whereas AID expression is absent in those cells under physiologic conditions. Thus, aberrant AID activity in epithelial tissues may provide the critical link between inflammation, somatic mutations, and cancer development.     

Cross-talk of NO, superoxide and molecular oxygen, a majesty of aerobic life

Because nitric oxide (NO) reacts with various molecules, such as hemeproteins, superoxide and thiols including glutathione (GSH) and cysteine residues in proteins, biological effects and metabolic fate of this gaseous radical are affected by these reactants. Although the lifetime of NO is short particularly under air atmospheric conditions (where the oxygen tension is unphysiologically high), it increases significantly under physiologically low oxygen concentrations. Because oxygen tensions in human body differ from one tissue to another and change depending on their metabolism, biological activity of NO in various tissues might be affected by local oxygen tensions. To elucidate the role of NO and related radicals in the regulation of circulation and energy metabolism, their effects on arterial resistance and energy metabolism in mitochondria, mammalian cells and enteric bacteria were studied under different oxygen tensions. Kinetic analysis revealed that NO-dependent generation of cGMP in resistance arteries and their relaxation were strongly enhanced by lowering oxygen tensions in the medium. NO reversibly suppressed the respiration and ATP synthesis of isolated mitochondria and intact cells particularly under low oxygen tensions. Kinetic analysis revealed that cross-talk between NO and superoxide generated in and around endothelial cells regulates arterial resistance particularly under physiologically low oxygen tensions. NO also inhibited the respiration and ATP synthesis of E. coli particularly under low oxygen tensions. Because concentrations of NO and H⁺ in gastric juice are high, most ingested bacteria are effectively killed in the stomach. However, the inhibitory effects of NO on the respiration and ATP synthesis of H. pylori are extremely small. Kinetic analysis revealed that H. pylori generates the superoxide radical thereby inhibiting the bactericidal action of NO in gastric juice. Based on such observations, critical roles of the cross-talk of NO, superoxide and molecular oxygen in the regulation of energy metabolism and survival of aerobic and microaerophilic organisms are discussed.     

西江中下游鳤的遗传多样性与种群动态历史

鳤(Ochetobius elongatus)曾经是我国许多河流的重要经济鱼类, 然而由于环境污染和人为干扰等原因, 鳤的资源量萎缩严重, 种群处于极度濒危的境地。目前, 常规采样方法获得鳤样本的难度较大, 致使相关研究难以开展。本研究通过仔鱼采集和成鱼采集的手段, 测定两个线粒体基因和两个核基因, 对西江中下游鳤的遗传多样性和种群动态历史进行研究。结果显示, 西江中下游鳤的遗传多样性处于较低水平并且出现了衰退的迹象, 可能经历了遗传瓶颈效应。此外, 种群动态历史分析发现, 西江中下游鳤在后更新世期间(0.06和0.13百万年前)经历了种群扩张, 刚好处于中更新世(0.78-0.126百万年前)冰期褪去之后, 表明更新世气候的波动影响了西江中下游鳤的种群动态。作为鳤可能的重要产卵场, 西江中下游部分江段可以考虑建立鳤的自然保护区, 用于保育和修复鳤的种质资源。     

多基因联合揭示海南鲌的遗传结构与遗传多样性

海南鲌(Culter recurviceps)是我国华南地区重要经济鱼类, 由于受到近些年水利开发、过度捕捞、环境污染等诸多因素的影响, 其资源量快速下降, 亟需得到更多的关注和保护。为保护和合理开发海南鲌种质资源, 本研究采集了华南地区23个地理群体207尾海南鲌样本, 测定了2个线粒体基因(Cytb和ND2)并从Barcode of Life Data System数据库获得相对应线粒体COI基因, 结合多种分析方法(系统发育分析、分化时间估算、单倍型网状图、群体遗传分析和Mantel检验)对海南鲌的遗传结构和遗传多样性展开研究。系统发育分析和单倍型网状图表明华南地区海南鲌群体被分成3个谱系(I、II和III), 其中谱系I和III由珠江的群体组成, 谱系II由海南岛的群体组成。分化时间估算发现3个谱系之间的分化时间介于0.028-0.251 Ma之间, 表明华南地区更新世气候变化可能是造成海南鲌谱系分化的重要原因。群体遗传分析发现海南鲌群体之间存在极显著的遗传分化(F_ST = 0.511, P < 0.001), 并且符合距离隔离模式(R = 0.348, P = 0.0010)。群体动态历史分析表明, 海南鲌群体可能在0.010-0.025 Ma经历了群体扩张, 表明更新世的气候波动也影响了海南鲌的群体大小和分布。综上所述, 海南鲌群体由3个谱系组成, 更新世气候变化是导致3个谱系分化和影响海南鲌群体动态历史的重要因素。此外, 海南鲌群体之间的遗传分化也可能受到了空间距离的影响。