UMLS:C0149958 - FACTA Search

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Query: UMLS:C0149958 (complex partial seizures)
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The genes determining the biosynthesis of type 2 (K2) capsular polysaccharide [3----beta Glc1,4----beta Man(1,3----beta GlcUA) 1,4----alpha Glc1----] of Klebsiella pneumoniae Chedid (O1:K2), which is highly virulent for mice, were cloned and introduced into Escherichia coli HB101 and into four noncapsulated mutants derived from K. pneumoniae reference strains of K1, K7, K9, and K28. The recombinant plasmid pCPS7B06 carried 23 kb of a chromosomal DNA fragment of strain Chedid and encoded a part of the Klebsiella cps gene cluster. However, pCPS7B06 encoded enough genetic information for the production of Klebsiella K2 capsular polysaccharide on the cell surfaces of four noncapsulated mutants of K. pneumoniae. On the other hand, both pCPS7B06 and pROJ3 carrying the rmpA gene locus derived from a resident large plasmid of Chedid were required for the biosynthesis of Klebsiella K2 capsular polysaccharide on the cell surface of E. coli HB101. The insertion inactivation analysis using Tn5 revealed that the cps gene cluster occupied more than 15 kb of the chromosome of Chedid. We conclude that rmpA, which has been known to enhance the biosynthesis of colanic acid in E. coli, is also involved in the biosynthesis of Klebsiella capsular polysaccharide in E. coli HB101.
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PMID:Biosynthesis of Klebsiella K2 capsular polysaccharide in Escherichia coli HB101 requires the functions of rmpA and the chromosomal cps gene cluster of the virulent strain Klebsiella pneumoniae Chedid (O1:K2). 203 64

RcsA is a positive activator of extracellular polysaccharide synthesis in the Enterobacteriaceae. A cosmid clone containing the rcsA gene from Erwinia amylovora was identified by its ability to restore mucoidy to an E. stewartii rcsA mutant. The rcsA gene was subcloned on a 2.2-kilobase HindIII-PstI fragment that hybridized with an E. stewartii rcsA probe and complemented E. stewartii and Escherichia coli rcsA mutants. In addition, the cloned E. amylovora rcsA gene stimulated expression of cps::lac fusions in E. coli and E. stewartii. The rcsA region was sequenced, and one open reading frame of 211 amino acids was found. The predicted protein sequence specified by this open reading frame was 55% homologous with that of the Klebsiella pneumoniae RcsA protein. Highly conserved regions in the 3' and 5' ends of the two proteins were observed. An E. amylovora rcsA mutant was constructed by Tn5 mutagenesis of the cloned gene followed by recombination of the mutation into the chromosome of wild-type strain Ea1/79. The synthesis of both amylovorin and levan was reduced by more than 90% in this mutant, indicating common regulation of the two polysaccharides by rcsA. Virulence of the rcsA mutant on immature pear fruit was diminished but not completely abolished.
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PMID:The rcsA gene from Erwinia amylovora: identification, nucleotide sequence, and regulation of exopolysaccharide biosynthesis. 213 Nov

Klebsiella pneumoniae strains of the K2 capsular serotype are usually highly virulent in mice, which is in contrast to the low virulence of most other serotypes. Here we used a genetic approach to examine the relative contribution of capsule type to the virulence of K. pneumoniae in mice. We used wild-type strains expressing capsular polysaccharide (CPS) serotypes K2 (strain KPA1) and K21a (strains KPB1 and KPC1), which were then used to construct capsule-switched derivatives. The close proximity of the cps gene cluster to selectable his markers made it possible to mobilize the cps genes by conjugation from one serotype (donor) to another (recipient) and to obtain recombinants in which interserotype switching had occurred by reciprocal recombination. Each capsule-switched derivative examined of the KPA and KPC strain backgrounds produced a CPS that was immunologically and structurally identical to that of the donor. Strain background was confirmed by demonstrating restriction fragment length polymorphism patterns identical to those of the respective recipients. The parent strains were then compared with capsule-switched recombinants for phenotypic properties associated with virulence. Clearance from the bloodstreams of mice was rapid in serotype K21a strains of either wild-type or recombinant origin, whereas K2 strains remained viable in the blood during the period examined. These differences appeared to be dependent upon the CPS type but independent of strain background. Binding to macrophages was higher in K21a strains than in those with the K2 capsule and was also independent of the strain background. Both blood clearance and macrophage-binding activities were completely inhibited by yeast mannan, suggesting that they were mediated via the macrophage mannose receptor. The K2 parent strain was highly virulent to mice (50% lethal dose [LD50], 3 x 10(3)), while the K21a parent strains demonstrated low virulence (LD50, > 2 x 10(8)). Interestingly, the virulence of recombinant KPC10(cpsK2), originally of the KPC1(cpsK21a) background, was intermediate (LD50, 4 x 10(5)). In contrast, both cpsK21a recombinants of the originally virulent KPA1 (cpsK2) background became nearly avirulent (LD50, > 2 x 10(8)). Six additional serotypes (K12, K24, K32, K55, K62, and K67) were examined, and all showed a positive correlation between the ability of the Klebsiella serotype to interact with a human mannose receptor, as expressed by Cos I cell recombinants, and the LD50 of the serotype. These results suggest that expression of a capsule which is recognized by the mannose receptor markedly affects the interaction with macrophages and blood clearance.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Relationships among capsular structure, phagocytosis, and mouse virulence in Klebsiella pneumoniae. 786 55

The genomic organization of the chromosomal cps region that is responsible for capsular polysaccharide synthesis in Klebsiella pneumoniae Chedid (O1:K2) was investigated. Deletion analyses and Southern hybridization studies suggested that the central region of the cloned 29-kb BamHI fragment is indispensable for K2 capsular polysaccharide synthesis. The 24,329-bp nucleotide sequence of the Klebsiella cps region was determined and deposited in the EMBL and GenBank databases through DDBJ and assigned accession number D21242. Nineteen possible open reading frames (ORFs) were identified in the sequenced area. Among them, 13 ORFs are very close to each other. Six of the 19 ORFs show considerable nucleotide sequence similarities to Salmonella typhimurium cpsG, cpsB, rfbP, and orf2.8, Escherichia coli gnd, and Haemophilus influenzae bexD, respectively. Moreover, the deduced amino acid sequence of the ORF10 product demonstrated a highly hydrophobic profile and showed putative membrane topology similarity to Rickettsia prowazekii ATP/ADP translocase. Nucleotide sequence similar to the sigma 54-dependent promoter, as well as the usual -35 and -10 sequences, were identified just upstream of ORF3, which is the first ORF in the polycistronic structure. Furthermore, a sequence (GGGCGGTAGCGT) found just downstream of the sigma 54-dependent promoter-like sequence was generally conserved among gene clusters implicated in cell surface polysaccharide synthesis, such as Salmonella rfb and viaB and E. coli kpsMT and rfaQPG. A possible transcriptional terminator with a hairpin loop structure found just downstream of ORF15 that is a homolog of E. coli gnd. K2 capsular polsaccharide biosynthesis in E. coli K-12 depends on cpsB (mannose-1-phosphate guanyltransferase gene), and Klebsiella cpsB, found in the downstream region of the polycistronic structure, was able to complement cpsB of E. coli. Results of transposon insertion and promoter-cloning analyses were consistent with the results of nucleotide sequence analysis.
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PMID:Genomic organization of the Klebsiella pneumoniae cps region responsible for serotype K2 capsular polysaccharide synthesis in the virulent strain Chedid. 789 2

The production of a capsular polysaccharide (CPS; K antigen) is characteristic of Klebsiella pneumoniae, but CPS structure varies among strains, and many different serotypes are now known. In this study, cps gene clusters encoding the elements of capsular polysaccharide biosynthesis were exchanged by homologous recombination between strains expressing different serotypes. The wild-type K. pneumoniae strains used for genetic exchange were KPA1 (cpsK2), expressing K2 CPS, and KPB1 (cpsK21a), expressing K21a CPS. Plasmid R68.45 was used to mobilize fragments of chromosomal DNA from auxotrophic derivatives of donor strains. Auxotrophic his alleles introduced into recipient strains provided selectable markers to coinherit the adjacent cps gene clusters from donors expressing a heterologous CPS. Each of the capsule-switched recombinants, KPA5 (cpsK21a) and KPB20 (cpsK2), was shown to have a CPS that was immunologically identical to the serotype of the respective donor. The recombinants retained their respective recipient strain background, as evidenced by a genetic marker and demonstration of a distinctive restriction fragment length polymorphism in genomic DNA. KPB1 CPS contained a sequence (mannose-alpha-2-mannose) that binds to a macrophage lectin and may be responsible for their higher susceptibility to macrophage binding and phagocytosis compared with KPA1, whose CPS lacked such sequences. The recombinant strains expressing heterologous cps genes inherited the macrophage-binding phenotype of the donor, thus confirming that relative susceptibility to phagocytosis was determined by the capsule type expressed. KPA1 was highly virulent in a mouse lethality assay, which is a feature typical of K2 strains, whereas KPB1 was not virulent in mice. Recombinant KPA5 retained relatively high virulence in mice, even though it produced the heterologous K21a CPS, which suggests that a virulence factor other than capsule biosynthesis is encoded by the KPA genomic strain background. In contrast, KPB20 gained marginal virulence in the mouse lethality assay through the inheritance and expression of the K2 CPS from the virulent strain. Thus, pathogenesis in K. pneumoniae may be multifactorial. Specific antibody was used to stabilize the CPS on the surface of K. pneumoniae, and the structural organization of the homologous and heterologous capsules was examined by electron microscopy. Recombinant KPB20, expressing heterologous K2 CPS, had a uniform layer of capsule surrounding the organism that was similar to that seen on the surfaces of the parental strains. However, KPA5, expressing the heterologous K21a CPS, was unusual in that the uniform capsular layer was physically separated from the cell wall by approximately 50 nm.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Genetic exchange of determinants for capsular polysaccharide biosynthesis between Klebsiella pneumoniae strains expressing serotypes K2 and K21a. 810 96

The colanic acid polysaccharide capsule biosynthetic genes (cps genes) are primarily clustered at one site located at about 45 min on the Escherichia coli chromosome. The network of proteins involved in regulating the expression of these genes includes the two positive regulators RcsA and RcsB. This work describes the site of action of these two activator proteins and the promoter of the cps genes. It is likely that the cps genes are arranged in a single long operon that is at least 13.5 kb. The promoter region was identified with fusions to lacZ that resulted in regulated expression by the Rcs network of regulatory proteins, and the start site of transcription was identified by primer extension. The operator region was cloned from Kohara phage to multicopy plasmids and identified by titrating RcsA or RcsB. Sequence analysis of the promoter and operator region revealed homology to the JUMPstart element found in the untranslated region of many exopolysaccharide biosynthetic operons. In addition, the deduced amino acid sequence of the amino terminus of the first open reading frame of the cps operon was found to be homologous to proteins encoded by the exopolysaccharide biosynthetic operons of Klebsiella pneumoniae and Erwinia amylovora.
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PMID:Identification of the promoter region for the colanic acid polysaccharide biosynthetic genes in Escherichia coli K-12. 876 57

A 10-kb DNA fragment containing the gnd gene from Actinobacillus actinomy-cetemcomitans Y4 was isolated and sequenced. The structural gnd gene codes for 6-phosphogluconate dehydrogenase that consists of 484 amino acids. In contrast to the gnd gene in Escherichia coli, Salmonella typhimurium, or Klebsiella pneumoniae, the gnd gene of A. actinomycetemcomitans was not located in the rfb or cps operon. The zwf gene encoding glucose 6-phosphate dehydrogenase, which is another enzyme consisting of pentose-phosphate pathway, sided at 3.8-kb upstream from the gnd gene. A phylogenetic tree based on sequence analyses showed higher homology of 6-phospho-gluconate dehydrogenase of A. actinomycetemcomitans with the eucaryotic enzymes rather than with bacterial enzymes.
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PMID:The gnd gene encoding a novel 6-phosphogluconate dehydrogenase and its adjacent region of Actinobacillus actinomycetemcomitans chromosomal DNA. 902 51

Group 1 capsules of Escherichia coli are similar to the capsules produced by strains of Klebsiella spp. in terms of structure, genetics, and patterns of expression. The striking similarities between the capsules of these organisms prompted a more detailed investigation of the cps loci encoding group 1 capsule synthesis. Six strains of K. pneumoniae and 12 strains of E. coli were examined. PCR analysis showed that the clusters in these strains are conserved in their chromosomal locations. A highly conserved block of four genes, orfX-wza-wzb-wzc, was identified in all of the strains. The wza and wzc genes are required for translocation and surface assembly of E. coli K30 antigen. The conservation of these genes points to a common pathway for capsule translocation. A characteristic JUMPstart sequence was identified upstream of each cluster which may function in conjunction with RfaH to inhibit transcriptional termination at a stem-loop structure found immediately downstream of the "translocation-surface assembly" region of the cluster. Interestingly, the sequence upstream of the cps clusters in five E. coli strains and one Klebsiella strain indicated the presence of IS elements. We propose that the IS elements were responsible for the transfer of the cps locus between organisms and that they may continue to mediate recombination between strains.
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PMID:Conserved organization in the cps gene clusters for expression of Escherichia coli group 1 K antigens: relationship to the colanic acid biosynthesis locus and the cps genes from Klebsiella pneumoniae. 1009 16

The rmpA2 gene, which encodes an activator for capsular polysaccharide (CPS) synthesis, was isolated from a 200-kb virulence plasmid of Klebsiella pneumoniae CG43. Based on the sequence homology with LuxR at the carboxyl-terminal DNA-binding motif, we hypothesized that RmpA2 exerts its effect by activating the expression of cps genes that are responsible for CPS biosynthesis. Two luxAB transcriptional fusions, each containing a putative promoter region of the K. pneumoniae K2 cps genes, were constructed and were found to be activated in the presence of multicopy rmpA2. The activation is likely due to direct binding of RmpA2 to the cps gene promoter through its C-terminal DNA binding motif. Moreover, the loss of colony mucoidy in a K. pneumoniae strain deficient in RcsB, a regulator for cps gene expression, could be recovered by complementing the strain with a multicopy plasmid carrying rmpA2. The CPS production in Lon protease-deficient K. pneumoniae significantly increased, and the effect was accompanied by an increase of RmpA2 stability. The expression of the rmpA2 gene was negatively autoregulated and could be activated when the organism was grown in M9 minimal medium. An IS3 element located upstream of the rmpA2 was required for the full activation of the rmpA2 promoter. In summary, our results suggest that the enhancement of K2 CPS synthesis in K. pneumoniae CG43 by RmpA2 can be attributed to its transcriptional activation of K2 cps genes, and the expression level of rmpA2 is autoregulated and under the control of Lon protease.
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PMID:RmpA2, an activator of capsule biosynthesis in Klebsiella pneumoniae CG43, regulates K2 cps gene expression at the transcriptional level. 1253 54

The innate immune system plays a critical role in the defense of areas exposed to microorganisms. There is an increasing body of evidence indicating that antimicrobial peptides and proteins (APs) are one of the most important weapons of this system and that they make up the protective front for the respiratory tract. On the other hand, it is known that pathogenic organisms have developed countermeasures to resist these agents such as reducing the net negative charge of the bacterial membranes. Here we report the characterization of a novel mechanism of resistance to APs that is dependent on the bacterial capsule polysaccharide (CPS). Klebsiella pneumoniae CPS mutant was more sensitive than the wild type to human neutrophil defensin 1, beta-defensin 1, lactoferrin, protamine sulfate, and polymyxin B. K. pneumoniae lipopolysaccharide O antigen did not play an important role in AP resistance, and CPS was the only factor conferring protection against polymyxin B in strains lacking O antigen. In addition, we found a significant correlation between the amount of CPS expressed by a given strain and the resistance to polymyxin B. We also showed that K. pneumoniae CPS mutant bound more polymyxin B than the wild-type strain with a concomitant increased in the self-promoted pathway. Taken together, our results suggest that CPS protects bacteria by limiting the interaction of APs with the surface. Finally, we report that K. pneumoniae increased the amount of CPS and upregulated cps transcription when grown in the presence of polymyxin B and lactoferrin.
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PMID:Capsule polysaccharide mediates bacterial resistance to antimicrobial peptides. 1555 34

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