Long Term Chronic Pseudomonas aeruginosa Airway Infection in Mice

A mouse model of chronic airway infection is a key asset in cystic fibrosis (CF) research, although there are a number of concerns regarding the model itself. Early phases of inflammation and infection have been widely studied by using the Pseudomonas aeruginosa agar-beads mouse model, while only few reports have focused on the long-term chronic infection in vivo. The main challenge for long term chronic infection remains the low bacterial burden by P. aeruginosa and the low percentage of infected mice weeks after challenge, indicating that bacterial cells are progressively cleared by the host.This paper presents a method for obtaining efficient long-term chronic infection in mice. This method is based on the embedding of the P. aeruginosa clinical strains in the agar-beads in vitro, followed by intratracheal instillation in C57Bl/6NCrl mice. Bilateral lung infection is associated with several measurable read-outs including weight loss, mortality, chronic infection, and inflammatory response. The P. aeruginosa RP73 clinical strain was preferred over the PAO1 reference laboratory strain since it resulted in a comparatively lower mortality, more severe lesions, and higher chronic infection. P. aeruginosa colonization may persist in the lung for over three months. Murine lung pathology resembles that of CF patients with advanced chronic pulmonary disease.This murine model most closely mimics the course of the human disease and can be used both for studies on the pathogenesis and for the evaluation of novel therapies.     

Use of Pyocin 78-C2 in the Treatment of Pseudomonas aeruginosa Infection in Mice

Purified pyocin, administered parenterally to mice infected with sensitive strains of Pseudomonas aeruginosa, afforded significant protection against two of the three strains studied.     

Neutrophil Response to Pseudomonas aeruginosa in Respiratory Infection

Sputum from patients with acute exacerbation of respiratory infection by Pseudomonas aeruginosa was observed under the electron microscope. External to the cell wall of P. aeruginosa a granular, electron-dense material was observed which is suggestive of capsule. It is supposed that stabilization of capsule occurred by the host antibody, which was produced due to chronic infection by P. aeruginosa. Mucoid type of microcolonies were observed with a fibrous matrix of exopolysaccharide. Other types of microcolonies were surrounded by granular substances or fine fibers. Neutrophil was found to be partially surrounding the microcolony in an attempt to defense. Debris was formed mainly by the destruction of the neutrophil. Most neutrophils were found full of phagocytosed debris; in contrast only a few neutrophils were found to have phagocytosed P. aeruginosa. This study concludes that instead of phagocytosing bacteria, neutrophil phagocytosed debris and bacteria were not completely eradicated. Therefore, this might be one of the factors in the pathogenesis of respiratory infection and persistent colonization by P. aeruginosa.     

铜绿假单胞菌菌苗对尿路感染的免疫功能调节

铜绿假单胞菌菌苗是一种新型的细菌性免疫调节剂。用其治疗反复发作性尿路感染 ,其中体液免疫检测结果实验组治疗后的广谱抗体效价比治疗前的广谱抗体效价提高 8～ 6 4倍 ,细胞免疫的检测中T细胞亚群中各项指标治疗前后均有显著性差异 (P <0 .0 1)。提示 ,该菌苗是通过调整患者自身的体液免疫和细胞免疫功能 ,从而达到治疗效果     

Pectin- Derived Acidic Oligosaccharides Improve the Outcome of Pseudomonas aeruginosa Lung Infection in C57BL/6 Mice

The administration of prebiotics as oligosaccharides (OS), by acting on intestinal microbiota, could modulate the immune and inflammatory response and represent a new strategy to improve the outcome of bacterial infection. The aim of this study was to determine whether pectin-derived acidic oligosaccharides (pAOS) could modulate the outcome of pulmonary P. aeruginosa (PA) infection in C57BL/6 mice, which develop a Th1 response to PA lung infection. Mice were randomized for 5 weeks to consume a control or a 5% pAOS diet and chronically infected by PA. Resistance to a second PA infection was also analyzed by reinfecting the surviving mice 2 weeks after the first infection. Compared with control mice, mice fed pAOS had reduced mortality (P<0.05). This improvement correlated with a better control of the inflammatory response with a lower neutrophil count on day 1 (P<0.05), a sustained neutrophil and macrophage recruitment on days 2 and 3 (P<0.01) a greater and sustained IL-10 release in lung (P<0.05) and a reduction of the Th1 response and M1 activation with a lower IFN-γ/IL-4 (P<0.01) and nos2/arg1 (P<0.05) ratios. These results coincided with a modulation of the intestinal microbiota as shown by an increased butyric acid concentration in feces (P<0.05). Moreover, pAOS decreased the bacterial load (P<0.01) in mice reinfected 2 weeks after the first infection, suggesting that pAOS could reduce pulmonary exacerbations. In conclusion, pAOS improved the outcome of PA infection in C57BL/6 mice by modulating the intestinal microbiota and the inflammatory and immune responses.     

肠道病毒71型（EV71）对ICR小鼠的感染

目的研究肠道病毒71型经不同途径感染不同日龄ICR小鼠后的感染状况,了解肠道病毒71型的感染特点,为了解EV71小鼠感染机制和模型制备提供实验信息和技术支撑。方法分别通过口腔途径、颅腔途径、肌肉途径及腹腔途径感染1日龄、7日龄及3~4周龄SPF级ICR小鼠,定期安乐动物,采集各器官组织进行病原学诊断,确定EV71病毒感染情况;同时建立一步RT-PCR、病毒分离、IFA及IEA等方法。结果经腹腔途径感染成年鼠出现竖毛、弓背、消瘦症状,其他各途径感染小鼠感染后未见竖毛、弓背、觅食减少、体重减轻、精神呆滞及神经系统症状。颅腔注射3~4周龄ICR小鼠能在脑组织检测到病毒RNA,腹腔注射和肌肉注射1日龄乳鼠能在肌肉组织和肠道检测到病毒RNA,其中,肌肉组织病毒分离可检测到活病毒。本研究同时建立了分子生物学、血清学方法,为今后研究其它适合EV71的动物模型奠定了基础。结论临床分离的EV71毒株通过口腔接种、颅腔、肌肉、腹腔注射途径感染1日龄、7日龄及3~4周龄SPF级ICR小鼠的疾病程度和病毒检出不同,ICR乳鼠及成年鼠可作为该病毒感染机制、病毒体内分布等基础研究,但用作EV71动物模型应用,感染程度尚不十分理想。     

Experimental vaccinal prophylaxis of Pseudomonas aeruginosa burn sepsis

After the injection of P. aeruginosa live culture under the burned skin of mice sepsis develops within the first 24 hours, finally leading to the death of the animals. The microorganisms can be isolated from the blood, liver, kidneys and mesenterial lymph nodes till day 3 and from the spleen till day 5. After the intraperitoneal injection of P. aeruginosa live culture into mice, sepsis also develops within 24 hours, and the culture can be isolated from the blood and parenchymatous organs till day 3. The LD50 of the culture is equal to 5.1 X 10(6) microbial cells when introduced intraperitoneally and to 30 microbial cells in experimental burn sepsis. Experimental burn sepsis clearly demonstrates the effectiveness of Pseudomonas acellular protein vaccine: its index of effectiveness exceeds 3,000.     

Intestinal Colonization with Enterococcus faecium Does Not Influence Pulmonary Defense against Pseudomonas aeruginosa in Mice

Background

Enterococci, and especially multiresistant Enterococcus faecium, are increasingly found colonizing hospitalized patients. This increased prevalence of colonization is not only associated with an increased prevalence of infections caused by enterococci, but also by infections with other nosocomial pathogens. In this study we investigated the causality of this observed relationship, by determining the influence of intestinal colonization with E. faecium on pulmonary defense against Pseudomonas aeruginosa.

Methodology/Principal Findings

Three groups of mice were tested; 2 groups of mice were pre-treated with vancomycin, of which one group was subsequently treated by oral gavage of vancomycin-resistant E. faecium (VRE). The third group did not receive any pre-treatment. P. aeruginosa pneumonia was induced in all mice. Vancomycin treatment resulted in intestinal gram-negative bacterial overgrowth and VRE treatment resulted in colonization throughout the intestines. All 3 groups of mice were able to clear P. aeruginosa from the lungs and circulation, with comparable lung cytokine responses and lung damage. Mice treated with vancomycin without VRE colonization displayed modestly increased plasma levels of TNF-α and IL-10.

Conclusion

Overgrowth of E. faecium and/or gram-negative bacteria does not impact importantly on pulmonary defense against P. aeruginosa pneumonia.     

Nitrous Oxide Production in Sputum from Cystic Fibrosis Patients with Chronic Pseudomonas aeruginosa Lung Infection

Chronic lung infection by Pseudomonas aeruginosa is the major severe complication in cystic fibrosis (CF) patients, where P. aeruginosa persists and grows in biofilms in the endobronchial mucus under hypoxic conditions. Numerous polymorphonuclear leukocytes (PMNs) surround the biofilms and create local anoxia by consuming the majority of O₂ for production of reactive oxygen species (ROS). We hypothesized that P. aeruginosa acquires energy for growth in anaerobic endobronchial mucus by denitrification, which can be demonstrated by production of nitrous oxide (N₂O), an intermediate in the denitrification pathway. We measured N₂O and O₂ with electrochemical microsensors in 8 freshly expectorated sputum samples from 7 CF patients with chronic P. aeruginosa infection. The concentrations of NO₃ ⁻ and NO₂ ⁻ in sputum were estimated by the Griess reagent. We found a maximum median concentration of 41.8 µM N₂O (range 1.4–157.9 µM N₂O). The concentration of N₂O in the sputum was higher below the oxygenated layers. In 4 samples the N₂O concentration increased during the initial 6 h of measurements before decreasing for approximately 6 h. Concomitantly, the concentration of NO₃ ⁻ decreased in sputum during 24 hours of incubation. We demonstrate for the first time production of N₂O in clinical material from infected human airways indicating pathogenic metabolism based on denitrification. Therefore, P. aeruginosa may acquire energy for growth by denitrification in anoxic endobronchial mucus in CF patients. Such ability for anaerobic growth may be a hitherto ignored key aspect of chronic P. aeruginosa infections that can inform new strategies for treatment and prevention.     

Host Cell Polarity Proteins Participate in Innate Immunity to Pseudomonas aeruginosa Infection

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烫伤创面绿脓杆菌定植动态的实验研究

本文从细菌以多细胞生理活动观点出发,以认识定植稳定过程为目的。进行了实验大白鼠烫伤创面绿脓杆菌定植与抗定植动态观察。通过用铁浸染色法对细菌群体结构定量化研究,用糖包被负染法对群体结构内部结构观察,对粘附在组织表面细菌数量的测定,反映结构与粘附力的关系。进一步结合电镜观察及细菌生长状态的分析,证明了烫伤创面上绿脓杆菌群体结构的形成是细菌分裂繁殖所致。通过群体结构,糖包被,粘附力及生长状态的动态观察,表现出与定植的稳定程度呈平行关系,显示其重要性。联系抗定植力研究,表明定植与抗定植的一致性。最后分析了定植三个主要条件,和稳定性定植的三要素。     

The Impact of Simvastatin on Pulmonary Effectors of Pseudomonas aeruginosa Infection

The statin family of cholesterol-lowering drugs is known to have pleiotropic properties which include anti-inflammatory and immunomodulatory effects. Statins exert their pleiotropic effects by altering expression of human immune regulators including pro-inflammatory cytokines. Previously we found that statins modulate virulence phenotypes of the human pathogen Pseudomonas aeruginosa, and sought to investigate if simvastatin could alter the host response to this organism in lung epithelial cells. Simvastatin increased the expression of the P. aeruginosa target genes KLF2, KLF6, IL-8 and CCL20. Furthermore, both simvastatin and P. aeruginosa induced alternative splicing of KLF6. The novel effect of simvastatin on wtKLF6 expression was found to be responsible for induction of the KLF6 regulated genes CCL20 and iNOS. Simvastatin also increased the adhesion of P. aeruginosa to host cells, without altering invasion or cytotoxicity. This study demonstrated that simvastatin had several novel effects on the pulmonary cellular immune response.     

Experimental Myocarditis Induced in Mice by Infection with Influenza A2 Virus

A mouse model was established for the study of acute myocarditis that occurs during influenza infection. Challenge with more than 10 LD₅₀ of mouse-adapted influenza A₂ virus (H₂N₂) induced myocarditis macroscopically discernible as white, irregularly shaped lesions which were shown by histological examination to consist of necrotic myofibers surrounded by infiltrating mononuclear inflammatory cells. After challenge with 10 LD₅₀ of the virus, macroscopic myocarditis was found to advance in a progressive manner up to the 7th day, while the virus titer in the heart reached its peak on the 2nd day and began to decrease on the 5th day of infection. However, development of myocarditis was significantly suppressed in mice which were irradiated with 400 R of X-rays before infection. In addition, myocarditis did not develop in congenitally athymic nude mice. These data indicate that myocarditis was not brought about by viral action directly, but that it was mediated by some function of the host against viral in-vasion, which was abolished by X-irradiation. The data also suggest that T cells played a key role in the development of myocarditis.     

Pseudomonas aeruginosa FARP72 Offers Protection Against Aeromonas hydrophila Infection in Labeo rohita

Use of probiotics as the biocontrol agent for disease prevention in aquaculture is gaining importance as an alternative to the indiscriminate use of antibiotics and other chemotherapeutics. In view of this trend, the probiotic properties of a potent antagonistic bacterium, Pseudomonas aeruginosa FARP₇₂, was characterized in terms of safety, antagonistic activities, in vitro immunomodulation, and in vivo disease resistance. Immunomodulatory activity was ascertained by measuring the production of intracellular superoxide anion, nitric oxide, total leukocyte peroxidase content, and the leukocyte proliferation in head kidney leukocytes. The bacterium isolated from the skin mucus of freshwater catfish Clarias batrachus was harmless to Labeo rohita. It showed inhibitory activity against Aeromonas caviae, A. hydrophila, Edwardsiella tarda, Pseudomonas putida, and Streptococcus agalactiae as revealed by cross and parallel streaking methods. Significantly higher superoxide anion and nitric oxide production, peroxidase content, and proliferative responses of leucocytes delineated the strains’ ability to interact with immune cells to activate the immune system in vitro. Significant growth inhibition of A. hydrophila from 1.55 × 10⁵ CFU/mL was observed when co-cultured with P. aeruginosa FARP₇₂ in phosphate-buffered saline (PBS) at levels ranging from 2.61 × 10⁷ to 2.61 × 10⁹ CFU/mL in 10 days. P. aeruginosa FARP₇₂ increased the survival rate of rohu fingerlings against pathogenic A. hydrophila challenge in biocontrol study in vivo as determined by cohabitation challenge. These results suggest that P. aeruginosa FARP₇₂ is a potential probiotic strain and can be used in aquaculture to improve the health status and disease resistance of fish.