The compositional characteristics of the cellular fatty acids in strains of Klebsiella pneumoniae serovar K 1

Klebsiella pneumoniae, serovar K1 strains, differ essentially in the composition of cellular fatty acids from serovar strains K 2, K 3, K 7-K 72, K 74-K 80 of this species and are analogous to K. rhinoscleromatis and K. ozaenae by the given trait. The differences concern the concentration of cyclopropane fatty acids and their biosynthetic precursors--monounsaturated fatty acids, that is typical of a number of other bacteria belonging to the related species and, evidently, may be a marker of phenetic differences at the level of related taxonomic groups. The data obtained evidence for taxonomic separation of K. pneumoniae serovar K1 strains from representatives of other serovars of the given species.     

Nonharsh methods of isolation of antigenic complexes of Klebsiella pneumoniae, and analysis of their protective activity

Protective antigenic complexes capable of protecting mice from septic Klebsiella infection can be obtained from Klebsiella pneumoniae. The preparations obtained by the method of aqueous extraction and by the action of hydroxyl amine and autolysis have been found to possess approximately the same protective activity and to protect mice from infection with Klebsiella pneumoniae strains belonging to both homologous and heterologous serotypes.     

Protective activity of secreted proteins of Streptococcus pneumoniae and Klebsiella pneumoniae

Protective efficacy of secreted proteins of Streptococcus pneumoniae and Klebsiella pneumoniae cultivated on cardiocerebral broth and semisynthetic growth medium respectively was studied in vivo. Fraction with molecular weight 30 - 50 kDa obtained by the method of membrane fractionation had high protective efficacy. Two-dose immunization of mice with this fraction provided 80 - 100% protection from infection by homologous strains of S. pneumoniae and K. pneumoniae. Cross-protective activity of the fraction was revealed when infecting immunized mice by different K-types of K. pneumoniae. Blood sera of mice immunized with 30 - 50 kDa fraction possessed preventive features protecting from infection 90% of animals while 100% of death in the control group. It was determined that protective efficacy of the mentioned fraction was determined by protein-containing antigens because proteolytic disruption of the protein component resulted in loss of protective properties of the preparation.     

Protective activity of a cell-free Klebsiella vaccine in infection in mice caused by Streptococcus pneumoniae serotypes

The capacity of dried Klebsiella cell-free vaccine, obtained from strain No. 204 by the disintegration of microbial mass with hydroxylamine, for protecting mice from pneumococcal infection caused by S. pneumoniae, serotypes 3, 4 and 9N, has been studied. Klebsiella vaccine has been found to possess immunostimulating potency with respect to the S. pneumoniae serotypes under study. On day 5 this potency is manifested to a greater extent than 24 hours after immunization. The combination of Klebsiella vaccine with Proteus vulgaris, Staphylococcus aureus and Escherichia coli K-100 antigens enhances the stimulation of nonspecific resistance.     

Role of antibodies against outer-membrane proteins in murine resistance to infection with encapsulated Klebsiella pneumoniae

In the assessment of immunity to the encapsulated virulent strain of Klebsiella pneumoniae and its avirulent mutant defective for capsular polysaccharide (CPS), killed bacterial vaccine of both strains could protect mice equally against challenge with 100 x LD50 of encapsulated wild strain. Antisera to each strain conferred the same level of protection on naive mice upon transfer; the protective anti-mutant serum was highly capable of opsonizing the encapsulated bacteria. In addition to the common antigenic components shared by both strains, the wild strain had antigen(s) unrelated to the mutant since the protective capacity of the anti-wild serum was not affected by preabsorption with the mutant strain; the protection conferred by the anti-mutant serum was mediated by antibodies against non-capsular antigens since the antiserum did not contain antibodies against purified CPS detectable by ELISA. As possible candidates among the non-capsular antigens, outer-membrane proteins (OMPs) extracted from the mutant strain were examined for their immunogenicity. Immunoblotting of the protein-containing fraction and ELISA using LPS-free OMP suggested that a number of proteins were involved in the immune response evoked by K. pneumoniae. Furthermore, mice immunized with OMP or anti-OMP serum could overcome a lethal challenge with the wild strain. These results indicated that OMPs of K. pneumoniae are implicated as the protective antigens and may pave the way for the development of non-capsular, proteinaceous vaccines.     

Hydrophobic and hemagglutinating properties of Klebsiella pneumoniae and Klebsiella oxytoca

The aim of this study was to estimated hydrophobic and hemnagglutinating properties of Klebsiella pneumoniae and Klebsiella oxytoca rods. The hydrophobcity was evaluated according to the method of Rosenberg et al. The hemagglutinating properties were estimated by method of Blanco et al. Forty seven hydrophobic Klebsiella strains (30 K. pneumoniae strains and 17 K. oxytoca strains) were detected. Hemagglutinating properties were observed in 65 Klebsiella strains (45 K. pneumoniae strains and 20 K. oxytoca strains). Hemagglutination of sheep tannined erythrocytes the most frequently was observed. Inhibition of hemagglutination of erythrocytes by K. pneumoniae strains was most frequently observed in presence of D-glucose and D-mannose and by K. oxytoca strains in presence of D-glucose.     

Hemolytic activity of Klebsiella pneumoniae and Klebsiella oxytoca

We demonstrated that Klebsiella pneumoniae and Klebsiella oxytoca possess a selective haemolytic activity on rabbit erythrocytes. Thirty one Klebsiella strains (18 strains of K. pneumoniae and 13 strains of K. oxytoca) were isolated from hospitalized patients. The liquid (Trypcase-soy broth--TSB) and solid (Trypcase-soy agar--TSA) medium, containing the red cells were used for the tests. All the screened strains showed a haemolytic effect on rabbit erythrocytes, provided that the supernatants of the cultures were preincubated with beta-mercaptoethanol or calcium chloride. There was no human and sheep erythrocyte lysis.     

Elimination of Klebsiella pneumoniae and humoral immunity in immunization with the IS-4 immunostimulating mixture

The present investigation has revealed that in mice, immunized with preparation HC-4 (an immunostimulating agent consisting of water-soluble antigenic complexes obtained from 4 opportunistic microorganisms: Klebsiella pneumoniae, staphylococcus, Proteus and Escherichia coli K-100 having a common antigen with Haemophilus influenzae) and challenged with K. pneumoniae culture on day 7 after immunization, the complete elimination of K. pneumoniae from the blood occurs within 24 hours. The subcutaneous immunization of rabbits with the above preparation leads to a significant increase in antibody titers, determined in the passive hemagglutination test with Klebsiella diagnosticum. The test of the passive protection of mice from Klebsiella sepsis has revealed a rise in the preventive activity of the sera of rabbits immunized with this preparation.     

ChemicaL and immunochemical characteristics of antigenic preparations from Staphylococcus aureus and Klebsiella pneumoniae as the components for an associated vaccine

S. aureus aqueous extract and K. pneumoniae hydroxylamine vaccine were studied by means of chemical and immunochemical analytical techniques. The preparations were found to contain, respectively, 7.0% nad 53.5% of neutral monosaccharides, 6.5% and 0.7% of nucleic acids, as well as protein in approximately equal amounts (11.63-14.0%). In experiment of immunodiffusion, immunoelectrophoresis and rocket immunoelectrophoresis in homologous systems with hyperimmune antimicrobial sera the preparations were characterized by serological heterogeneity. After their combination with Escherichia coli aqueous extract and Proteus hydroxylamine preparation their serological characteristics remaIned unchanged. The study of cross reactions of all components of the combined preparations with hyperimmune rabbit sera to the corresponding microorganisms revealed that only Klebsiella component of the combined vaccine reacted with all hyperimmune sera. The preparation of Proteus showed the lowest activity, it reacted only with hyperimmune sera to K. pneumoniae. Besides, no reaction of S. aureus component with sera to E. coli and no reaction of the preparation of E. coli with antistaphylococcal serum were observed.     

Lipopolysaccharide O1 antigen contributes to the virulence in Klebsiella pneumoniae causing pyogenic liver abscess

Klebsiella pneumoniae is the common cause of a global emerging infectious disease, community-acquired pyogenic liver abscess (PLA). Capsular polysaccharide (CPS) and lipopolysaccharide (LPS) are critical for this microorganism's ability to spread through the blood and to cause sepsis. While CPS type K1 is an important virulence factor in K. pneumoniae causing PLA, the role of LPS in PLA is not clear. Here, we characterize the role of LPS O antigen in the pathogenesis of K. pneumoniae causing PLA. NTUH-K2044 is a LPS O1 clinical strain; the presence of the O antigen was shown via the presence of 1,3-galactan in the LPS, and of sequences that align with the wb gene cluster, known to produce O-antigen. Serologic analysis of K. pneumoniae clinical isolates demonstrated that the O1 serotype was more prevalent in PLA strains than that in non-tissue-invasive strains (38/42 vs. 9/32, P<0.0001). O1 serotype isolates had a higher frequency of serum resistance, and mutation of the O1 antigen changed serum resistance in K. pneumoniae. A PLA-causing strain of CPS capsular type K2 and LPS serotype O1 (i.e., O1:K2 PLA strain) deleted for the O1 synthesizing genes was profoundly attenuated in virulence, as demonstrated in separate mouse models of septicemia and liver abscess. Immunization of mice with the K2044 magA-mutant (K(1) (-) O(1)) against LPS O1 provided protection against infection with an O1:K2 PLA strain, but not against infection with an O1:K1 PLA strain. Our findings indicate that the O1 antigen of PLA-associated K. pneumoniae contributes to virulence by conveying resistance to serum killing, promoting bacterial dissemination to and colonization of internal organs after the onset of bacteremia, and could be a useful vaccine candidate against infection by an O1:K2 PLA strain.     

Cell-free Pseudomonas vaccine: its immunochemical characteristics and immunogenicity

Two variants of cell-free protein vaccine have been prepared from the mixture of 4 P. aeruginosa strains, serovars 02, 06, 07 and 011, and from a single P. aeruginosa strain, serovar 02. The preparation contains proteins with molecular weight ranging from 20,000 to 100,000 and the admixture of lipopolysaccharide in negligible amounts (not exceeding 0.08% of dry weight). The vaccine produces no signs of toxicosis in laboratory animals. The vaccine effectively protects mice challenged with P. aeruginosa of different O-serotypes and stimulates the formation of specific protective antibodies in rabbits.     

The efficacy of Klebsiella pneumoniae bacteriophage in the therapy of experimental Klebsiella infection

The effectiveness of specific phage therapy was studied on Klebsiella experimental sepsis in noninbred white mice, caused by the intraperitoneal injection of K. pneumoniae highly virulent strain K2 5055 into the animals. For treatment, Klebsiella polyvalent bacteriophage administered on day 2 after the infection of the animals with Klebsiella was used. The study revealed that bacteriophage could be detected in the blood and internal organs of the animals within 24 hours irrespective of the route of its administration: intraperitoneal, intravenous or intranasal. The bacteriophage preparation, introduced intraperitoneally, was shown to be effective in the treatment of generalized Klebsiella infection. One daily intraperitoneal injection of Klebsiella bacteriophage for 15-20 days proved to be the optimum scheme of treatment. In contrast to chemotherapeutic preparations, bacteriophages had no effect on normal microflora and did not aggravate dysbiotic disturbances. For this reason, bacteriophages may become one of alternative antimicrobial remedies, selectively affecting infective agents.     

Identification of species and capsular types of Klebsiella clinical isolates, with special reference to Klebsiella planticola

In the 77 reference strains for Klebsiella K types, there are 17 strains (22.1%) of Klebsiella planticola, 6 strains (7.8%) of Klebsiella oxytoca, 1 strain (1.3%) of Klebsiella terrigena, and 53 strains (68.8%) of Klebsiella pneumoniae. The species K. planticola, which was originally isolated from botanical and aquatic environments and hence thus named, was also identified at high incidence (81 strains, 18.5%) among the 439 recent clinical isolates of Klebsiella species. Among these K. planticola strains of hospital origin, 52 (64%) were isolated from sputum, 17 (21%) from urine, and the remaining 12 (15%) from other sources. The capsular types of these isolates were determined by the gel precipitation reaction. Seventy of 81 K. planticola isolates (86.4%) were typable by antisera to Klebsiella reference strains for K types and the K types of the clinical isolates distributed to 35 kinds of K types. The proportion of typable strains among clinical isolates of K. planticola was very similar to those in K. pneumoniae (87.5%) and K. oxytoca (86.0%).     

Hydrolytic and haemolytic activity of Klebsiella pneumoniae and Klebsiella oxytoca

Hydrolytic enzymes and haemolysins are important extracellular substances produced by many bacteria. We investigated 57 K. pneumoniae strains and 40 K. oxytoca strains isolated from clinical materials. We estimated the ability to produce: proteases hydrolyzing milk powder, caseinase, gelatinase, elastase, lecithinase, lipases, DNase and haemolysins on human, sheep and horse erythrocytes on TSA medium with or without 5% Egg Yolk. We detected that K. oxytoca strains produced proteases hydrolyzing milk powder (37.5%), caseinase (15.0%) and gelatinase (17.5%) more frequently than K. pneumoniae strains (respectively 21.0%, 5.3%, 8.9%). None of the analysed Klebsiella spp. strains produced elastase. Only K. pneumoniae strains produced lecithinase (5.3%). Lipases hydrolyzing Tween were produced from 3.5% (for Tween 60 and 80) to 7.0% (for Tween 20). Among K. oxytoca strains only one (2.5%) hydrolyzing Tween 20. DNase was produced by 38.6% of K. pneumoniae strains and by 27.5% K. oxytoca strains. Haemolytic properties on human erythrocytes were detected in 5.3% K. pneumoniae strains on TSA medium and 29,8% on medium with Egg Yolk. In K. oxytoca strains haemolytic properties on human erythrocytes were detected only on medium with Egg Yolk (12.5%). Haemolytic properties on sheep erythrocytes were detected respectively in 21.0% and 22.8% K. pneumoniae strains and in 7.5% K. oxytoca strains on each medium. Haemolytic properties on horse erythrocytes were detected respectively in 33.4% and 52.6% K. pneumoniae strains and in 15.0% and 20.0% K. oxytoca strains.     

Transposition of IS1397 in the Family Enterobacteriaceae and First Characterization of ISKpn1, a New Insertion Sequence Associated with Klebsiella pneumoniae Palindromic Units

IS1397 and ISKpn1 are IS3 family members which are specifically inserted into the loop of palindromic units (PUs). IS1397 is shown to transpose into PUs with sequences close or identical to the Escherichia coli consensus, even in other enterobacteria (Salmonella enterica serovar Typhimurium, Klebsiella pneumoniae, and Klebsiella oxytoca). Moreover, we show that homologous intergenic regions containing PUs constitute IS1397 transpositional hot spots, despite bacterial interspersed mosaic element structures that differ among the three species. ISKpn1, described here for the first time, is specific for PUs from K. pneumoniae, in which we discovered it. A sequence comparison between the two insertion sequences allowed us to define a motif possibly accounting for their specificity.     

Identification of vaccine candidate antigens of an ESBL producing Klebsiella pneumoniae clinical strain by immunoproteome analysis

Klebsiella pneumoniae is an opportunistic pathogen which causes pneumoniae, urinary tract infections and septicemia in immunocompromised patients. Hospital outbreaks of multidrug-resistant K. pneumoniae, especially those in neonatal wards, are often caused by strains producing the extended-spectrum-beta-lactamases (ESBLs). An immunoproteome based approach was developed to identify candidate antigens of K. pneumoniae for vaccine development. Sera from patients with acute K. pneumoniae infections (n = 55) and a control group of sera from healthy individuals (n = 15) were analyzed for reactivity by Western blot against ESBL K. pneumoniae outer membrane proteins separated by 2-DE. Twenty highly immunogenic protein spots were identified by immunoproteomic analysis. The immunogenic proteins that are most frequently recognized by positive K. pneumoniae sera were OmpA, OmpK36, FepA, OmpK17, OmpW, Colicin I receptor protein and three novel proteins. Two of the vaccine candidate genes, OmpA (Struve et al. Microbiology 2003, 149, 167-176) and FepA (Lai, Y. C. et al.. Infect Immun 2001, 69, 7140-7145), have recently been shown to be essential in colonization and infection in an in vivo mouse model. Hence, these two immunogenic proteins could serve as potential vaccine candidates.     

肺炎克雷伯杆菌对氟喹诺酮耐药的机制研究

目的研究肺炎克雷伯杆菌对氟喹诺酮类药物（FQNs）的耐药机制。方法筛选临床分离的对环丙沙星耐药的肺炎克雷伯杆菌共10株,采用微量肉汤稀释法检测菌株对5种氟喹诺酮类药物的MIC值;采用PCR方法检测菌株染色体和质粒携带的喹诺酮耐药基因（gyrA基因、parC基因和qnr基因）并测序;质粒接合试验验证qnr基因的转移性。结果 10株肺炎克雷伯杆菌对5种氟喹诺酮类药物均产生耐药性。扩增产物经测序发现10株肺炎克雷伯杆菌染色体的gyrA基因和parC基因均有突变;有2株菌株（K79和K107）携带qnrA基因,这2株菌的接合菌对喹诺酮抗菌药的MIC值上升了5～30倍;未检测到qnrB阳性的菌株。结论 gyrA和parC基因突变是肺炎克雷菌对氟喹诺酮类产生耐药机制的主要原因,质粒上qnrA基因的存在,也是产生喹诺酮耐药的一个重要因素。     

Klebsiella pneumoniae produces no histamine: Raoultella planticola and Raoultella ornithinolytica strains are histamine producers

Histamine fish poisoning is caused by histamine-producing bacteria (HPB). Klebsiella pneumoniae and Klebsiella oxytoca are the best-known HPB in fish. However, 22 strains of HPB from fish first identified as K. pneumoniae or K. oxytoca by commercialized systems were later correctly identified as Raoultella planticola (formerly Klebsiella planticola) by additional tests. Similarly, five strains of Raoultella ornithinolytica (formerly Klebsiella ornithinolytica) were isolated from fish as new HPB. R. planticola and R. ornithinolytica strains were equal in their histamine-producing capabilities and were determined to possess the hdc genes, encoding histidine decarboxylase. On the other hand, a collection of 61 strains of K. pneumoniae and 18 strains of K. oxytoca produced no histamine.     

Significance of fecal coliform-positive Klebsiella.

A total of 191 Klebsiella pneumoniae isolates of human clinical, bovine mastitis, and a wide variety of environmental sources were tested for fecal coliform (FC) response with the membrane filtration and most probable number techniques. Twenty-seven Escherichia coli cultures of human clinical and environmental origins were also tested. Eighty-five percent (49/58) of known pathogenic K. pneumoniae were FC positive, compared with 16% (19/120) of the environmental strains. E. coli results indicated 93% (13/14) of the clinical and 85% (11/13) of the environmental strains as FC positive. There was no significant difference in the incidence of FC-positive cultures between pathogenic Klebsiella and E. coli. pH measurements of K. pneumoniae and E. coli cultures growing in m-FC broth at 44.5 degrees C revealed three distinct pH ranges correlating with colony morphology. beta-Galactosidase assays of Klebsiella and E. coli cultures at 44.5 degrees C indicated all were able to hydrolyze lactose, even if they were FC negative by the membrane filtration or most probable number techniques. The FC response pattern appears stable in K. pneumoniae. Three pathogenic cultures showed no change in FC responses after 270 generations of growth in sterile pulp mill effluent. Since K. pneumoniae is carried in the gastrointestinal tract of humans and animals and 85% of the tested pathogenic strains were FC positive, the isolation of FC-positive Klebsiella organisms from the environment would indicate their fecal or clinical origin or both. The added fact that K. pneumoniae is an opportunistic pathogen of increasing importance makes the occurrence of FC-positive environmental Klebsiella, particularly in large numbers, a potential human and animal health hazard.