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Proteus mirabilis, associated with complicated urinary tract infection, expresses mannose-resistant/Proteus-like (MR/P) fimbriae. Expression of these surface structures, which mediate haemagglutination and have a demonstrated role in virulence, undergoes phase variation. By DNA sequence analysis, a 252 bp invertible element was found in the intergenic region between mrpl, the putative site-specific recombinase gene, and mrpA, the primary structural subunit gene. The invertible segment is flanked by identical 21 bp inverted repeats and the presumptive half-sites for recombinase binding show homology to those recognized by FimB and FimE encoded by the Escherichia coli fim (Type 1 fimbriae) gene cluster. When amplified by the polymerase chain reaction (PCR) from static broth cultures expressing MR/P fimbriae, the switch region was found in both ON and OFF positions. When PCR was used to amplify agar cultures which do not express the fimbriae, the switch region was OFF only. A canonical sigma 70 promoter inside the invertible element drives the transcription of mrpA when in the ON position; in the OFF position it is directed away from mrpA but does not appear to drive expression of mrpI. The mrpI gene was able to confer inversion of the mrp switch region in trans from both ON to OFF and OFF to ON. To examine the position of the switch in vivo, urine, bladder, and kidneys from mice transurethrally infected with P. mirabilis were used to prepare template DNA for PCR amplification. In the absence of urolithiasis (urease-mediated stone formation), the switch was found 100% in the ON position, a condition never observed following in vitro culture. We conclude that MR/P phase variation is regulated at the transcriptional level by the action of MrpI on an invertible element and that there is strong selective pressure for the expression of MR/P fimbriae in vivo.
Mol Microbiol 1997 Mar
PMID:In vivo phase variation of MR/P fimbrial gene expression in Proteus mirabilis infecting the urinary tract. 907 37

The object of this review is the genus Proteus, which contains bacteria considered now to belong to the opportunistic pathogens. Widely distributed in nature (in soil, water, and sewage), Proteus species play a significant ecological role. When present in the niches of higher macroorganisms, these species are able to evoke pathological events in different regions of the human body. The invaders (Proteus mirabilis, P. vulgaris, and P. penneri) have numerous factors including fimbriae, flagella, outer membrane proteins, lipopolysaccharide, capsule antigen, urease, immunoglobulin A proteases, hemolysins, amino acid deaminases, and, finally, the most characteristic attribute of Proteus, swarming growth, enabling them to colonize and survive in higher organisms. All these features and factors are described and commented on in detail. The questions important for future investigation of these facultatively pathogenic microorganisms are also discussed.
Microbiol Mol Biol Rev 1997 Mar
PMID:Potential virulence factors of Proteus bacilli. 910 65

This paper presents the construction of various biosensors using thin-film layers incorporated in flow injection devices, providing automated systems for biomedical analysis, process and environmental monitoring. A urease sensor has been developed in conjunction with a flow injection system for the automatic determination of urea. Use of the spraying immobilization technique gives rise to a response time of a few seconds, which allows sample throughputs up to 200 h-1. With a penicillin biosensor adapted in an appropriate cell detection, on-line measurements of penicillin V in the fermentation broth are achieved during the whole fermentation process; the results are compared with the HPLC method. Linearity, sensitivity and reproducibility of the biosensor are studied with regards to sample dilution in a stirred flow detection cell to provide optimal operating conditions. Measurements without any change in parameters are obtained during the whole fermentation process. Acetylcholinesterase sensors have been used in batch systems for the determination of pesticides, but they require large amounts of substrate. When those enzyme sensors are combined with flow injection systems, only small volumes (100 microliters) of substrate are injected into the carrier stream and an automated system can be obtained for continuous control of water quality.
J Mol Recognit
PMID:Biosensors in flow-injection systems for biomedical analysis, process and environmental monitoring. 917 53

The effect of gastroprotective agents, sucralfate and sulglycotide, on the in vitro activity of H. pylori urease was investigated. The bacterium was subjected to sonication, centrifuged, and the supernatant used as an enzyme source. The assays revealed that the rate of urea degradation was proportional to enzyme protein up to 100 micrograms and remained constant with time for 10 min. Introduction of sucralfate or sulglycotide to the assay system led to the reduction in the rate of ammonia production. With both drugs the optimal inhibition was attained at 10 micrograms/ml, at which dose a 63.1% decrease in urease activity occurred with sucralfate and a 70.2% inhibition was obtained with sulglycotide. The findings demonstrate that the inhibitory action of sucralfate and sulglycotide on H. pylori urease activity may be of value in the treatment of gastric disease associated with H. pylori infection.
Biochem Mol Biol Int 1997 Jun
PMID:Suppression of Helicobacter pylori urease activity by sucralfate and sulglycotide. 919 95

We report, for the first time, the presence in Helicobacter pylori of an aliphatic amidase that, like urease, contributes to ammonia production. Aliphatic amidases are cytoplasmic acylamide amidohydrolases (EC 3.5.1.4) hydrolysing short-chain aliphatic amides to produce ammonia and the corresponding organic acid. The finding of an aliphatic amidase in H. pylori was unexpected as this enzyme has only previously been described in bacteria of environmental (soil or water) origin. The H. pylori amidase gene amiE (1017 bp) was sequenced, and the deduced amino acid sequence of AmiE (37746Da) is very similar (75% identity) to the other two sequenced aliphatic amidases, one from Pseudomonas aeruginosa and one from Rhodococcus sp. R312. Amidase activity was measured as the release of ammonia by sonicated crude extracts from H. pylori strains and from recombinant Escherichia coli strains overproducing the H. pylori amidase. The substrate specificity was analysed with crude extracts from H. pylori cells grown in vitro; the best substrates were propionamide, acrylamide and acetamide. Polymerase chain reaction (PCR) amplification of an internal amiE sequence was obtained with each of 45 different H. pylori clinical isolates, suggesting that amidase is common to all H. pylori strains. A H. pylori mutant (N6-836) carrying an interrupted amiE gene was constructed by allelic exchange. No amidase activity could be detected in N6-836. In a N6-urease negative mutant, amidase activity was two- to threefold higher than in the parental strain N6. Crude extracts of strain N6 slowly hydrolysed formamide. This activity was affected in neither the amidase negative strain (N6-836) nor a double mutant strain deficient in both amidase and urease activities, suggesting the presence of an independent discrete formamidase in H. pylori. The existence of an aliphatic amidase, a correlation between the urease and amidase activities and the possible presence of a formamidase indicates that H. pylori has a large range of possibilities for intracellular ammonia production.
Mol Microbiol 1997 Sep
PMID:Identification and characterization of an aliphatic amidase in Helicobacter pylori. 936 23

To investigate urease-independent mechanisms by which Helicobacter pylori resists acid stress, subtractive RNA hybridization was used to identify H. pylori genes whose expression is induced after exposure to acid pH. This approach led to the isolation of a gene that encoded a predicted 34.8kDa protein (WbcJ), which was homologous to known bacterial O-antigen biosynthesis proteins involved in the conversion of GDP-mannose to GDP-fucose. An isogenic wbcJ null mutant strain failed to express O-antigen and Lewis X or Lewis Y determinants and was more sensitive to acid stress than was the wild-type strain. Qualitative differences in LPS profiles were observed in H. pylori cells grown at pH 5 compared with pH 7, which suggests that H. pylori may alter its LPS structure in response to acidic pH. This may be an important adaptation facilitating H. pylori colonization of the acidic gastric environment.
Mol Microbiol 1998 Oct
PMID:Acid-induced expression of an LPS-associated gene in Helicobacter pylori. 978 82

The closely related Proteus mirabilis and Enterobacterlaceae plasmid-encoded urease genes are positively regulated by the AraC-like transcriptional activator UreR. In the presence of the effector molecule urea, UreR promotes transcription of ureD, the initial gene in the urease operon, and increases transcription of the divergently transcribed ureR. Here, we identify UreR-specific binding sites in the ureRp-ureDp intergenic regions. Recombinant UreR (rUreR) was expressed and purified, and gel shift and DNase I protection assays were performed with this protein. These analyses indicated that there are two distinct rUreR binding sites in both the plasmid-encoded and P. mirabilis ureRp-ureDp intergenic regions. A consensus binding site of TA/GT/CA/TT/GC/TTA/TT/AATTG was predicted from the DNase I protection assays. Although rUreR bound to the specific DNA binding site in both the presence and the absence of urea, the dissociation rate constant k-1 of the rUreR-DNA complex interaction was measurably different when urea was present. In the absence of urea, the dissociation of the protein-DNA complexes, for both ureRp and ureDp, was complete at the earliest time point, and it was not possible to determine a rate. In the presence of urea, dissociation was measurable with a k-1 for the rUreR-ureRp interaction of 1.2 +/- 0.2 x 10(-2) s-1 and a k-1 for the rUreR-ureDp interaction of 2.6 +/- 0.1 x 10(-3) s-1. This corresponds to a half-life of the ureRp-rUreR interaction of 58 s, and a half-life of the ureDp-rUreR interaction of 4 min 26 s. A model describing a potential role for urea in the activation of these promoters is proposed.
Mol Microbiol 1999 Mar
PMID:Identification of UreR binding sites in the Enterobacteriaceae plasmid-encoded and Proteus mirabilis urease gene operons. 1020 Sep 62

Inactivation of Helicobacter pylori cadA, encoding a putative transition metal ATPase, was only possible in one of four natural competent H. pylori strains, designated 69A. All tested cadA mutants showed increased growth sensitivity to Cd(II) and Zn(II). In addition, some of them showed both reduced 63Ni accumulation during growth and no or impaired urease activity, which was not due to lack of urease enzyme subunits. Gene complementation experiments with plasmid (pY178)-derived H. pylori cadA failed to correct the deficiencies, whereas resistance to Cd(II) and Zn(II) was restored. Moreover, pY178 conferred increased Co(II) resistance to both the cadA mutants and the wild-type strain 69A. Heterologous expression of H. pylori cadA in an Escherichia coli zntA mutant resulted in an elevated resistance to Cd(II) and Zn(II). Expression of cadA in E. coli SE5000 harbouring H. pylori nixA, which encodes a divalent cation importer along with the H. pylori urease gene cluster, led to about a threefold increase in urease activity compared with E. coli control cells lacking the H. pylori cadA gene. These results suggest that H. pylori CadA is an essential resistance pump with ion specificity towards Cd(II), Zn(II) and Co(II). They also point to a possible role of H. pylori CadA in high-level activity of H. pylori urease, an enzyme sensitive to a variety of metal ions.
Mol Microbiol 1999 Aug
PMID:Helicobacter pylori cadA encodes an essential Cd(II)-Zn(II)-Co(II) resistance factor influencing urease activity. 1041 43

Background: Sexually transmitted diseases are often caused by one or more microorganisms, and asymptomatic carriage and transmission may be of significance. Testing for more than one organism in a single assay could be a useful approach to laboratory diagnosis. Methods and Results: A multiplex polymerase chain reaction (PCR) assay was developed that employed specific primers targeted to the 7.5-kb cryptic plasmid of Chlamydia trachomatis, the cppB gene of the 4.2-kb cryptic plasmid of Neisseria gonorrhoeae, the 140-kd major adhesion protein gene of Mycoplasma genitlium, and the urease gene of Ureaplasma urealyticum. All four polymerase chain reaction products were detectable by agarose gel electorphoresis and were confirmed by Southern hybridization using fluorescein isothiocyanate-labeled oligonucleotide probes and enhanced chemiluminescent detection. Using purified DNA preparations, multiplex PCR had a reproducible detection limit of 1 fg of C. trachomatis DNA, 100 fg of N. gonorrhoeae DNA, and 10 fg U. urealyticum DNA and M. genitalium DNA, which converts to 1-2 genomic equivalents (ge) of C. trachomatis and N. gonorrhoeae, 4 ge of M. genitalium, and 10 ge U. urealyticum. Multiplex PCR was compared with individual uniplex polymerase chian reaction PCR assays by testing 117 first-void urine samples (91 men, 26 women) from Canadian or Kenyan patients. Multiplex PCR detected 45 of 46 (97.8%) urines with C. trachomatis DNA, 42 of 42 (100%) urines with N. gonorrhoeae DNA, 17 of 17 (100%) urines with U. urealyticum DNA, 4 of 4 (100%) urines with M. genitalium DNA, 12 of 12 urines that had DNA from two bacteria, and 2 of 2 urines with DNA from three bacteria. Multiplex PCR correctly identified bacteria in 92 of 93 urines for an overall sensitivity of 98.9%. Specificity calculations were 100% for C. trachomatis (71/71), N. gonorhoeae (75/75), U. urealyticum (100/100), and M. genitalium (113/113). Conclusions: Multiplex PCR provided a single sensitive and specific test for the detection of four bacteria in first-void urine samples. Testing of first-void urine samples by multiplex PCR could facilitate studies aimed at improving our understanding of the epidemiology of these important sexually transmitted diseases.
Mol Diagn 1997 Sep
PMID:Detection of Chlamydia trachomatis, Neisseria gonorrhoeae, Ureaplasma urealyticum, and Mycoplasma genitalium in First-void Urine Specimens by Multiplex Polymerase Chain Reaction. 1046 5

The publication of the complete sequence of Helicobacter pylori 26695 in 1997 and more recently that of strain J99 has provided new insight into the biology of this organism. In this review, we attempt to analyze and interpret the information provided by sequence annotations and to compare these data with those provided by experimental analyses. After a brief description of the general features of the genomes of the two sequenced strains, the principal metabolic pathways are analyzed. In particular, the enzymes encoded by H. pylori involved in fermentative and oxidative metabolism, lipopolysaccharide biosynthesis, nucleotide biosynthesis, aerobic and anaerobic respiration, and iron and nitrogen assimilation are described, and the areas of controversy between the experimental data and those provided by the sequence annotation are discussed. The role of urease, particularly in pH homeostasis, and other specialized mechanisms developed by the bacterium to maintain its internal pH are also considered. The replicational, transcriptional, and translational apparatuses are reviewed, as is the regulatory network. The numerous findings on the metabolism of the bacteria and the paucity of gene expression regulation systems are indicative of the high level of adaptation to the human gastric environment. Arguments in favor of the diversity of H. pylori and molecular data reflecting possible mechanisms involved in this diversity are presented. Finally, we compare the numerous experimental data on the colonization factors and those provided from the genome sequence annotation, in particular for genes involved in motility and adherence of the bacterium to the gastric tissue.
Microbiol Mol Biol Rev 1999 Sep
PMID:Metabolism and genetics of Helicobacter pylori: the genome era. 1047 11

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