Preliminary investigation of a mice model of Klebsiella pneumoniae subsp. ozaenae induced pneumonia

In the present study, we comparatively assessed the pathophysiological mechanisms developed during lung infection of BALB/C female mice infected by an original wild type Klebsiella pneumoniae subsp. ozaenae strain (CH137) or by a referent subspecies K. pneumoniae. subsp. pneumoniae strain (ATCC10031). The mice infected with 2.10? CFU K. p. subsp. pneumoniae (n = 10) showed transient signs of infection and all of them recovered. All of those infected with 1.10? CFU K. p. subsp. ozaenae (n = 10) developed pneumonia within 24 h and died between 48 and 72 h. Few macrophages, numerous polymorphonuclear cells and lymphocytes were observed in their lungs in opposite to K. p. subsp. pneumoniae. In bronchoalveolar lavage, a significant increase in MIP-2, IL-6, KC and MCP-1 levels was only observed in K. p. subsp. ozaenae infected mice whereas high levels of TNF-α were evidenced with the two subspecies. Our findings indicated a lethal effect of a wild type K. p. subsp. ozaenae strain by acute pneumonia reflecting an insufficient alveolar macrophage response. This model might be of a major interest to comparatively explore the pathogenicity of K. p. subsp ozaenae strains and to further explore the physiopathological mechanisms of gram-negative bacteria induced human pneumonia.     

A comparative study of induction of pneumonia in mice with planktonic and biofilm cells of Klebsiella pneumoniae

In the present study, the course of acute pneumonia in normal BALB/c mice infected by intranasal inoculation of planktonic and preformed biofilm cells (3 days old) of Klebsiella pneumoniae B5055 was studied and compared. With both cell forms the peak of infection was observed on the third post infection day, as assessed on the basis of lung bacterial load and corresponding pathology. There was an intense neutrophil infiltration in bronchoalveolar lavage fluid. Tissue damage was assessed on the basis of increased amounts of nitrite, malondialdehyde and lactate dehydrogenase in lung homogenates. The phagocytic potential of alveolar macrophages was lower in biofilm cell-induced infection than in that induced by planktonic cells. Biofilm cell induced infection generated significantly greater production of tumor necrosis factor-α and interleukin-1β on the third and fifth days of infection, respectively. Production of interleukin-10 was, however, variable. There was no significant difference in the ability of planktonic and biofilm cell forms of K. pneumoniae to induce acute pneumonia in mice in terms of bacterial counts and histopathological changes. However, biofilm cell-induced infection showed delayed clearance as compared to infection induced with the planktonic form.     

ESBL-positive and ESBL-negative Klebsiella pneumoniae and Klebsiella oxytoca strains--occurrence in clinical specimens and susceptibility to selected antibiotics

The aim of this study was to evaluated susceptibility to selected antibiotics and occurrence in clinical materials ESBL-positive and ESBL-negative K. pneumoniae and K. oxytoca strains. The susceptibility to selected antibiotics were tested by disk-diffusion method. None of the analysed strains was resistant to imipenem. Among non beta-lactam antibiotics thwe most strains were susceptible to fluoroquinolones. The most frequently K. pneumoniae strains were isolated from urine, K. oxytoca trains were isolated from wounds.     

Synergistic effect of antibiotics and pesticides on wood-damaging fungi

The synergistic effect of kasugamycin and thiolutin as biopesticides with some synthetic pesticides (benlate, euparen, dithan and pentachlorophenol) toward wood-damaging fungiCladosporium sphaerospermum, Ceratocystis pilifera andAureobasidium pullulans was studied. Kasugamycin showed a synergistic effect with benlate and euparen with all three microorganisms, thiolutin stimulated mainly the fungicide effect of euparen. Kasugamycin and thiolutin prolonged also the antifungal activity of benlate and euparen. Dithan decreased the activity of kasugamycin and thiolutin.     

Infectivity of hepatic strain Klebsiella pneumoniae in diabetic mice

Besides urinary tract infection (UTI) and pneumonia, increased severe liver abscesses caused by Klebsiella pneumoniae (KP), especially in diabetic patients, have been observed in infections acquired in hospitals. This indicates that different KP strains with higher virulence have emerged in recent years. Our goal was to investigate the infectivity of KP isolates in mice from liver abscess or UTI patients. Mice were injected with streptozotocin to induce diabetes. Male ICR mice were infected with KpU1 (UTI strain CG3 for survival experiment only) and KpL1 (liver abscess strain CG5) by tail-vein injection of 5 x 10(4) colony-forming units (CFU) bacterial suspension. The mice survival rates, cytokine level by enzyme-linked immunosorbent assay (ELISA), and bacterial presence in liver tissue by Giemsa stain were examined. The survival rates for the KpL1-infected animals were 28% and 0% in normal and diabetic groups, respectively, whereas, for the KpU1-infected mice, the rates were 100% and 75% during a 30-day observation. Nonsurviving KpL1-infected mice showed > 10(5) bacteria/ml blood and the bacteria appeared in the liver sinus area and inside liver cells. The KpL1-infected mice showed a tendency to increase the blood interleukin 1beta (IL-1beta) level in both nondiabetic and diabetic groups, whereas the tumor necrosis factor-alpha (TNF-alpha) level was significantly decreased in the KpL1-infected diabetic mice (P = 0.002). In conclusion, the KP strain from liver abscess showed a greater virulence in mice than the KP from UTI and was more virulent in diabetic than in nondiabetic mice. The infection with KP from liver abscess significantly decreased the blood TNF-alpha level in diabetes mellitus (DM) mice and the blood IL-1beta level tended to increase in both infected nondiabetic and diabetic groups. High blood bacterial count and appearance of bacteria in liver sinus and cells usually contribute to death of the animals.     

Reciprocal effect of Klebsiella pneumoniae and Lactobacillus on their cytadhesion

Reciprocal effect of 4 strains of Klebsiella pneumoniae and 6 Lactobacillus strains on their cytadhesion in mixed populations was studied on a model of formalinized human erythrocytes. The Lactobacillus strains included 2 strains of Lactobacillus casei subsp. casei, 2 strains of L. plantarum and 2 strains of L. fermentum. It was shown that adhesion of both the Klebsiella and the Lactobacillus strains changed under their reciprocal effect. The changes were characterized by the strain differences and depended on the quantitative ratio of the microorganisms.     

三种头霉素类抗生素对大肠埃希菌和肺炎克雷伯菌的抗菌活性评价

目的 评价头孢美唑(CMZ)、头孢西丁(FOX)及头孢替坦(CTT)三种头霉素类抗生素对大肠埃希菌(ECO)和肺炎克雷伯菌(KPN)的体外抗菌活性.方法 对510株ECO和472株KPN,采用K-B琼脂扩散法进行CMZ、FOX及CTT的体外药敏试验,并用表型确证试验检测超广谱β-内酰胺酶(ESBLs).结果 ECO和KPN ESBLs的检出率分别为61.8％和41.3％;CMZ、FOX和CTT对ECO和KPN ESBLs阴性菌株敏感率均在96％以上;对于产ESBLs的ECO,CMZ、FOX和CTT的敏感率分别为95.6、85.7％和97.8％,经比较CMZ和CTT的敏感率均明显高于FOX的敏感率(P＜0.05);对于产ESBLs的KPN,CMZ、FOX和CTT的敏感率分别为81.0％、80.0％和100.0％,经比较CMZ和FOX的敏感率均明显低于CTT的敏感率(P＜0.05).结论 作为治疗产ESBLs菌株引起的感染头霉素类抗生素可代替三代头孢菌素作为经验治疗药物,但仍应参考药敏试验结果.CTT对产ESBLs的ECO和KPN菌株的体外抗菌活性优于CMZ和FOX.     

Experimental study on the therapeutic effect of liposome-entrapped antibiotics in the treatment of destructive pneumonia]

The data on preparation of liposome-entrapped gentamicin sulfate and cefoperazone and their investigation on albino mice with staphylococcal destructive pneumonia are presented. Comparative study of the efficacy of gentamicin sulfate and cefoperazone in free and liposome-entrapped forms showed that immobilization of the antibiotics in phospholipid vesicles provided a 2-fold increase of their efficacy.     

Magnetic resonance imaging of Klebsiella pneumoniae-induced pneumonia in mice

In vivo imaging of small animals is a rapidly developing field. However, the potential of global imaging of infectious processes in animal models remains poorly explored. We used magnetic resonance imaging (MRI) to follow the development and regression of inflammatory lesions caused by infection by Klebsiella pneumoniae in mouse lungs. A virulent strain caused an intense inflammation within 2 days in the whole lungs, while an avirulent strain did not show significant changes. Mice infected with the virulent strain and subsequently treated with antibiotics presented a severe inflammation localized mainly in the left lung that disappeared after a week. The lesions observed by MRI correlated with the damage seen by histological analysis and a 3D representation of the tissue allowed better visualization of the development and healing of inflammatory lesions. MRI thus represents a powerful technique to study in vivo the interactions between a pathogen and its host in real time.     

Experimental chronic pulmonary infection in mice caused by Klebsiella pneumoniae

Examination of mouse strain differences in susceptibility to experimental respiratory tract infection with Klebsiella pneumoniae 27 revealed that a chronic pulmonary infection model could be established using CBA/J mice. After 6 X 10(5) colony-forming units of K. pneumoniae 27 were inoculated into the lung, the bacterial counts in the lungs changed with time showing four different phases: initial decrease, regrowth, steady-state, and final increase leading to death. Throughout the course of the infection, the challenge bacteria were isolated mainly from the respiratory organs. Pulmonary gross lesions appeared on day 2 after infection and persisted thereafter. Lobar consolidation was the primary lesion and occurred mainly in the anterior and middle lobes of the right lung, and the median lobe. Mice began to die from 4 weeks after aerosol exposure. This model may be useful for investigating the pathogenesis of chronic pulmonary infection by Klebsiella and its therapy.     

The anti-tumour effect of Klebsiella pneumoniae capsular polysaccharides

K24 capsular polysaccharide (K24-CPS), with a known structure of a repeating unit, was isolated from the capsule of Klebsiella pneumoniae serotype K24. The polysaccharide was found to suppress the proliferation of Ehrlich ascites tumour (EAT) cells in vitro, but did not alter the cell cycle distribution of cells. K24-CPS treatment reduced the tyrosine phosphorylation of some proteins in EAT cells. Furthermore, the treatment also decreased the expression of c-JUN, but had no effect on the levels of c-FOS and c-MYC. It is speculated that the growth suppression effect of K24-CPS may be related to its effect in down-regulating c-JUN expression.     

The effect of antibiotics and photodynamic therapy on extended-spectrum beta-lactamase (ESBL) positive of Escherichia coli and Klebsiella pneumoniae in urothelial cells

Background/aimUrinary tract infections are commonly caused by the bacteria Escherichia coli and Klebsiella pneumoniae (UTI). The emergence of extended-spectrum -lactamase (ESBL)-producing bacteria strains has made UTI treatment more difficult.Materials and methodsThe aim of this study was to characterize E. coli and K. pneumoniae strains' cytotoxic effects, antibiotic sensitivity, interaction with urothelial cells, and reaction to photodynamic therapy.ResultsAs demonstrated by the higher number of colonies formed, the ESBL + E. coli and K. Pneumonia showed a higher degree of binding with human urothelial cells. With the urothelial cells, K. Pneumonia had the highest binding ability. The cytotoxicity of non-ESBL generating E. coli and K. Pneumonia, on the other hand, was higher. With longer incubation, the discrepancy between the cytotoxic effects of non-ESBL producer and ESBL + E. coli decreased. K. Pneumonia was the opposite. The concentration of ESBL-negative E. coli was easily decreased by photodynamic therapy; however, after a two-hour incubation period, the number of E. coli ESBL + colonies increased from 124 percent to 294 percent.ConclusionWith the duration of the incubation period, the number of non-ESBL-producing K. Pneumonia increased. Even with longer incubation times, the number of K. Pneumonia ESBL + colonies decreased, contrary to expectations. The findings show that the two bacterial species differed in terms of cytotoxicity, interaction with urothelial cells, and photodynamic therapy response.     

Sensitivity to selected beta-lactam antibiotics of clinical strains of Escherichia coli and Klebsiella pneumoniae

The studies aimed at analysing the resistance to some beta-lactam antibiotics among E. coli and K. pneumoniae clinical isolates and at evaluating. The extended spectrum of beta-lactamases (ESBL) production in the isolates. The analysis included 137 E. coli strains and 52 K. pneumoniae strains, isolated from hospitalized patients and out-patients treated in the first trimester of 1998. The strains were identified using the ATB computer system. Antibiotic sensitivity of the isolates was determined by disc-diffusion tests. ESBL production capacity of E. coli and K. pneumoniae strains was estimated by double-disc and ATB BLSA tests. Most of the analysed E. coli strains were found to exhibit significant sensitivity to compound penicillin preparations containing beta-lactam inhibitor (Augmentin, Tazocin) and to the third generation cefalosporins, in contrast, K. pneumoniae strains much more frequently were resistant to the drugs. Among the obtained isolates, 3 (2.2%) E. coli strains and 21 (40.4%) K. pneumoniae strains produced ESBL but all the isolates proved sensitive to imipenem. In evaluation of ESBL production-detecting tests, the double-disc test was found to be more reliable than ATB BLSA test.     

Protection against Klebsiella pneumoniae induced lobar pneumonia in rats with lipopolysaccharide and related antigens

The immunoprotective role of lipopolysaccharide and related antigens from Klebsiella pneumoniae was studied in a lobar pneumonia model developed in rats. Various antigens were obtained by different chemical treatments of the lipopolysaccharide. All these antigens (purified lipopolysaccharide, reduced lipopolysaccharide, lipopolysaccharide--bovine serum albumin complex, and lipid A--bovine serum albumin complex were tested for pyrogenicity and the Shwartzman reaction. The lipopolysaccharide and the various related antigens were pyrogenic and elicited a positive Shwartzman reaction at high concentrations. However, at low concentrations, the same preparations did not show any side effects. All these antigens, on the other hand, were protective against bacterial challenge in Klebsiella pneumoniae induced lobar pneumonia in rats, as the bacterial colonization of lungs in the immunized animals was significantly lower when compared with the controls. The alveolar macrophages from these animals also showed significantly more uptake of Klebsiella pneumoniae as compared with those obtained from control animals.     

Immunoprotective potential of polysaccharide-tetanus toxoid conjugate in Klebsiella pneumoniae induced lobar pneumonia in rats

The polysaccharide (PS) derived from K. pneumoniae NCTC 5055 lipopolysaccharide (LPS) was covalently linked to tetanus toxoid by using carbodimide with adipic acid dihydrazide as a spacer molecule. The conjugate was found to be non-toxic and non-pyrogenic at 100 microg dose level. At a similar dose, the conjugate did not elicit any local skin reaction on intradermal preparatory injection in rabbits. The conjugate was immunoprotective as was evident from the decrease in relative colonization of bacteria in lungs of immunized rats as compared to the control animals. Immunization with the conjugate resulted in alveolar macrophage activation in terms of their ability to phagocytose bacteria in vitro.     

Pleiotropic effect of his gene mutations on nitrogen fixation in Klebsiella pneumoniae

Several his mutations were found to influence nitrogen fixation in Klebsiella pneumoniae: hisB, hisC, and hisD mutants had 50% of wild-type levels of nitrogenase activity when supplied with 30 μg or less histidine/ml although this concentration did not limit protein synthesis and the mutants retained a Nif⁺ plate phenotype. A hisA mutation had a similar but more dramatic effect. At low concentrations of histidine the hisA mutant strain had only 5% of the nitrogenase activity found at high histidine concentration or in a his⁺ strain, and was also Nif^- on low histidine agar plates. Addition of adenine restored nitrogenase activity in the hisA but not the hisB, hisC, or hisD mutants. Low levels of intracellular ATP, a consequence of hisG enzyme activity, correlated with loss of nitrogen-fixing ability in the hisA mutant which failed to sustain nif gene expression under these conditions. Synthesis of other major cell proteins was relatively unaffected indicating that nif gene expression is selectively regulated by the energy status of the organism.     

Host and microbiota factors that control Klebsiella pneumoniae mucosal colonization in mice

Klebsiella pneumoniae is both an opportunistic pathogen and a commensal organism. We have previously reported that K. pneumoniae strain IA565 (KpIA565) is non-pathogenic in a murine model of acute pneumonia. In this study, KpIA565 was inoculated into wild-type mice and found to stably colonize and persist in the nasal cavity and gastrointestinal tract of mice for up to 3weeks post-inoculation. Intranasal inoculation of wild-type or germ-free mice with KpIA565 resulted in similar bacterial levels in the nasal cavity, suggesting KpIA565 nasal colonization is independent of normal nasal microbiota. In contrast, KpIA565 gastrointestinal tract colonization was significantly higher in germ-free mice than in wild-type mice, indicating that members of the endogenous microbiota regulate KpIA565 colonization. In the presence of non-specific dextran sodium sulfate-induced inflammation, KpIA565 gastrointestinal tract colonization was significantly higher when compared to non-DSS treated mice. Interestingly, KpIA565 colonization was unaffected by Citrobacter rodentium-induced gastrointestinal tract inflammation. However, gastrointestinal tract colonization with K. pneumoniae strain IA565 had no impact on the inflammatory histopathology in either colitis model. This study is the first to identify and describe mechanisms influencing the growth and behavior of a murine commensal strain of K. pneumoniae.