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Query: EC:6.3.4.6 (
urease
)
7,490
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Helicobacter pylori
urease
is a nickel-containing enzyme that hydrolyzes urea to bicarbonate and ammonia. Andrews et al. (J. Am. Chem. Soc. 1986, 108, 7124) have shown that amides and esters of phosphoric acid are slow, tight-binding inhibitors of
urease
isolated from jack bean. We show that 4-substituted phenyl phosphorodiamidates (4-R-PhOP(=O)(
NH2
)2) are slow-binding inhibitors of H. pylori
urease
with no evidence of kinetic saturation. Their second-order rates of inhibition ki are strongly correlated with phenol pKa (e.g. R = NO2, ki = 2.5 x 10(5) M-1s-1; R = OMe, ki = 1.2 x 10(4) M-1s-1). The Bronsted beta for inhibition is 0.4, similar to that of model system SN2(P) reactions. Based on these observations, we suggest that
urease
inhibition is covalent but reversible, involving a common phosphoacyl enzyme intermediate.
...
PMID:Inhibition of Helicobacter pylori urease by phenyl phosphorodiamidates: mechanism of action. 764 8
Urease is a virulence determinant, a taxonomic and diagnostic marker, and immunogen for Helicobacter pylori, an aetiologic agent of gastritis and peptic ulceration. This enzyme requires Ni2+ ions in the active site for successful hydrolysis of urea. When expressed in Escherichia coli, recombinant
urease
is only weakly active unless
urease
structural subunits are overexpressed, exogenous NiCl2 is added, and the host strain is grown in medium that does not chelate free Ni2+. As wild-type H. pylori does not require such conditions for very high levels of
urease
expression, we reasoned that additional genes were required to accumulate the metal ion. To isolate such genes, E. coli SE5000 (pHP808), which carries the H. pylori
urease
gene cluster, was complemented with a lambda ZAP-derived plasmid library of the H. pylori chromosome. One of 1000 ampicillin-resistant clones, plated onto urea segregation agar, produced detectable
urease
. Urease activity of this co-transformant, grown in Luria broth containing 1 microM NiCl2, was 36 mumol
NH3
min-1 mg-1 protein. Urease-enhancing activity, which is not directly linked to the
urease
gene cluster, was localized by subcloning and nucleotide sequencing. The largest open reading frame, designated nixA, predicted a polypeptide of 34,317 Da that displayed characteristics of an integral membrane protein. In vitro transcription-translation of nixA sequences yielded a polypeptide estimated to be 32 kDa in size. An in-frame Bal31 deletion within nixA abolished
urease
-enhancing activity. At 50 nM NiCl2, E. coli containing the nixA clone transported 1250 +/- 460 pmol Ni2+ min-1 10(-8) cells, whereas the vector control transported only 140 +/- 85 pmol Ni2+ min-1 10(8) cells, i.e. significantly less (P = 0.01). We conclude that NixA confers upon E. coli a high-affinity nickel-transport system (KT = 11.3 +/- 2.4 nM; Vmax = 1750 +/- 220 pmol Ni2+ min-1 10(-8) cells) and is necessary for expression of catalytically active
urease
, regardless of growth conditions.
...
PMID:Helicobacter pylori nickel-transport gene nixA: synthesis of catalytically active urease in Escherichia coli independent of growth conditions. 765 Nov 42
The aim of this work was to study the significance of the
urease
enzyme in promoting Helicobacter pylori survival in various environments. A
urease
-positive H. pylori isolate, strain N6, and an isogenic
urease
-negative strain, strain N6(ureB::TnKm), were incubated in phosphate-buffered saline at a pH ranging from 2.2 to 7.2 for 60 min at 37 degrees C in both the presence and the absence of 10 mM urea. The number of CFU per milliliter in each solution, the pH of the bacterial supernatant, and the amounts of ammonia present in the solutions were measured. H. pylori N6 survived well in solutions with pH values ranging from 4.5 to 7.0 in the absence of urea but survived in solutions only with an initial pH below 3.5 in the presence of urea. Neither strain grew after incubation in an alkaline environment. The pH of an acidic solution (i.e., 3.5) rose rapidly to 8.45 in the presence of the wild-type strain and urea. The
urease
-negative mutant survived in solutions with pH values ranging from 4.5 to 7.2 irrespective of the presence of urea.
Ammonia
was present in significant amounts when H. pylori N6 was incubated in the presence of urea. Strain N6 survived exposure to concentrations of ammonia as high as 80 mM. The acid environment of the stomach may be crucial for H. pylori survival in the presence of urea. H. pylori does not survive in the normal environment in the presence of urea because of the subsequent rise in pH rather than ammonia toxicity.
...
PMID:Helicobacter pylori requires an acidic environment to survive in the presence of urea. 772 71
Recent studies have indicated that ammonia is involved in the pathophysiology of Helicobacter pylori-associated gastric mucosal damage. Helicobacter pylori-associated chronic active gastritis is characterized by an invasion of neutrophils. We investigated the interrelationship among hypochlorous acid (oxidant produced by neutrophil), ammonia (product of Helicobacter pylori
urease
), and monochloramine (product of ammonia and hypochlorous acid) in the development of gastric mucosal damage in rats. Gastric mucosal lesions were produced by exposure of the gastric mucosa to ammonia, urea with
urease
, or urea with Helicobacter pylori in rats subjected to ischemia. Pretreatment with taurine (scavenger of hypochlorous acid) or antineutrophil serum significantly attenuated gastric mucosal lesions induced by the above test agents.
Ammonia
-induced gastric mucosal lesions were exacerbated in the presence of hypochlorous acid with concomitant generation of monochloramine. These results suggest that the ammonia, hypochlorous acid, and monochloramine triad may be important in Helicobacter pylori-mediated gastric mucosal damage.
...
PMID:Products of neutrophil metabolism increase ammonia-induced gastric mucosal damage. 785 Nov 88
The nickel metalloenzyme
urease
catalyses the hydrolysis of urea to ammonia and carbamate, and thus generates the preferred nitrogen source of many organisms. When produced by bacterial pathogens in either the urinary tract or the gastroduodenal region,
urease
acts as a virulence factor. At both sites of infection
urease
is known to enhance the survival of the infecting bacteria.
Ammonia
resulting from the action of
urease
is believed to increase the pH of the environment to one more favourable for growth, and to injure the surrounding epithelial cells. In addition, in the urinary tract
urease
activity can result in the formation of urinary calculi. Bacterial
urease
gene clusters contain from seven to nine genes depending upon the species. These genes encode the
urease
structural subunits and accessory polypeptides involved in the biosynthesis of the nickel metallocentre. So far, three distinct mechanisms of
urease
gene expression have been described for ureolytic bacteria. Some species constitutively produce
urease
; some species produce
urease
only if urea is present in the growth medium; and some species produce
urease
only during nitrogen-limiting growth conditions. For either the urea-inducible genes or the nitrogen-regulated genes transcription appears to be positively regulated. In the nitrogen-regulated systems,
urease
gene expression requires Nac (nitrogen assimilation control), a member of the LysR family of transcriptional activators. Urea dependent expression of
urease
requires UreR (
urease
regulator), a member of the AraC family of transcriptional activators. An evolutionary tree for
urease
genes of eight bacterial species is proposed.
...
PMID:Bacterial ureases: structure, regulation of expression and role in pathogenesis. 793 18
Helicobacter pylori was transurethrally inoculated into the mouse urinary tract. The organism established infection and induced inflammation in the urinary bladder and pelvis. During the infection, urinary pH was elevated, probably due to the production of
NH3
by bacterial
urease
. H. pylori was recovered from the urinary bladder, kidney and urine of the infected mice. Histopathologically, severe neutrophil infiltration was observed in the mucosal layer of both organs. H. pylori was detected on the surface of the epithelial cells. These results indicate that low pH and bacterial flora were not essential factors in establishing the mucosal infection with H. pylori. This experimental system is useful to investigate the pathogenicity of H. pylori in mucosal organs.
...
PMID:Helicobacter pylori induces inflammation in mouse urinary bladder and pelvis. 793 56
Urease is an enzyme found in plants and bacteria, but not mammals. It catalyzes the conversion of urea to carbon dioxide and ammonia.
Ammonia
shortens the life span of cells; and higher concentrations cause tissue necrosis and cytolysis. Twenty percent of total body urea is converted to ammonia by bacterial
urease
in the colon. Small injections of
urease
immunize animals by producing antiurease, a gamma globulin, which inactivates
urease
. Immunization eliminates the colonic conversion of urea to ammonia. Injection of
urease
produces ammonia intoxication making immunization hazardous. Although previously impossible, a non enzymatic
urease
antigen was synthesized by covalently bonding jack bean
urease
with glutaraldehyde. This antigen stimulated the production of antiurease that inactivates native
urease
. Helicobacter pylori, a potent
urease
producer, has been implicated in peptic ulcer, gastritis and other inflammatory bowel lesions. The pathogenicity of H pylori is dependent on its
urease
production. Immunization to
urease
can render H pylori non pathogenic. Cirrhotics develop encephalopathy and hyperammonemia because their livers fail to convert all the ammonia in portal venous blood to urea and collaterals develop by passing the liver. Colonic ammonia increases the turnover rate of colonic mucosa.
Ammonia
absorbed into the portal venous system is transported to the liver where it is reconverted to urea. Absorbed ammonia adversely influences liver function. Infections with
urease
producing organisms destroy the renal parenchyma and produce struvite stones. Urease immunization aids colonic healing and prevents uremic colitis. Absorbed ammonia is a noxious influence on the liver. Animals immunized to
urease
regenerate the liver faster and are less susceptible to hepatotoxins. Immunization to
urease
ameliorates cirrhosis. Proteus and other
urease
producers become non toxic and do not damage the renal parenchyma. Urease is responsible for the pathogenicity of infections with
urease
producing organisms. Immunization to
urease
renders
urease
producing organisms non pathogenic.
...
PMID:Awakenings to the pathogenicity of urease and the requirement for continuous long term therapy. 799 80
Gastric cancer is the world's overall second most common cancer, and carries a bad prognosis. In the Correa model of gastric carcinogenesis, environmental factors (salt, nitrate, a lack of vitamin C and beta-carotene, bile reflux, bacterial overgrowth in atrophic gastritis with nitrosamine formation) are related to the evolution from normal gastric tissue through superficial gastritis, multifocal atrophic gastritis, intestinal metaplasia and dysplasia to carcinoma. The incidence of H. pylori decreases with progressing preneoplastic lesions. In several studies, the prevalence of H. pylori was elevated in patients with gastric cancer, with a trend for a higher prevalence in intestinal type gastric cancer vs diffuse type. Family members of patients with gastric adenocarcinoma have a higher H. pylori prevalence than controls; patients infected with H. pylori have more family members with gastric cancer. Several epidemiological studies showed a higher H. pylori prevalence in regions or populations with high gastric cancer risk vs low-risk populations. Large-scale studies in China and Europe showed a correlation between H. pylori seroprevalence and gastric cancer incidence and mortality. Three prospective nested case-control studies showed that infection with H. pylori increased the risk of further development of gastric adenocarcinoma, showing that H. pylori infection precedes the development of gastric cancer. Several pathways can be identified explaining the association between H. pylori and gastric adenocarcinoma. We showed that gastric cell proliferation is increased in parallel with inflammation. The ascorbic acid concentrating mechanism is abolished in gastritis.
Ammonia
, generated by H. pylori's
urease
, gives rise to gastric mucosal atrophy. We showed that salt increases the gastric cell proliferation only in H. pylori-infected individuals. The organism's toxin may play a role in gastric cancer. Besides H. pylori, other environmental factors are important in determining the gastric cancer risk. For instance, we showed that in Belgium, Maghreb immigrants have a high prevalence of H. pylori infection but a low prevalence of intestinal metaplasia and gastric cancer. Gastric lymphoma is rare (about 5% of all gastric tumours), but its incidence is steadily increasing. It was shown that H. pylori also increases the risk for low-grade as well as high-grade gastric lymphoma. Eradication of H. pylori has been shown to cure several cases of unequivocally proven gastric low-grade lymphoma.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Helicobacter pylori: the link with gastric cancer. 806 90
A low ventilation model to induce ascites was introduced and characterized. In addition, the effect of supplemental air mixing via ceiling fans (CF) and the feeding of a
urease
inhibitor (0, 125, and 250 ppm) on incidence of ascites were investigated. Twelve environmental chambers were utilized in the trial; six were fitted with CF. Each dietary treatment was replicated twice per CF treatment. One hundred and twenty day-old male commercial broilers were reared per chamber. Atmospheric O2, CO2, and
NH3
, temperature, and humidity, as well as weekly litter moisture and pH, were monitored. Chamber CO2 levels increased immediately then stabilized. Chamber
NH3
levels increased between 2 to 4 wk of age and rapidly declined when ventilation rates were increased to 1 cfm per bird. The CF and dietary treatments had little effect on air or litter variables except for
NH3
. Supplementing the diet with
urease
inhibitor resulted in a greater than 50% reduction in cumulative mortality due to ascites and a slight reduction in weekly BW gains. The CF treatment had no effect on production variables such as weekly feed intake, gain, and feed to gain ratio, or survivability due to ascites.
...
PMID:Effect of a urease inhibitor and ceiling fans on ascites in broilers. 1. Environmental variability and incidence of ascites. 807 22
1. The relationship of the decreased caecal
urease
activity by dietary penicillin to nitrogen utilisation was assessed in chickens fed a low protein diet plus urea. 2. Dietary penicillin at 20 and 100 mg/kg decreased anaerobic bacteria counts,
urease
activity and ammonia concentration in caecal contents (P < 0.05, except for ammonia in the case of the 100 mg/kg penicillin diet). 3. The 20 mg/kg penicillin diets significantly increased the excretion of urea and total nitrogen (P < 0.05) and decreased ammonia excretion, and significantly reduced nitrogen retention (P < 0.05). The 100 mg/kg penicillin diet also resulted in similar but not significant changes, which tended to be less than those by the 20 mg/kg penicillin diet. 4.
Ammonia
, urea, glutamine and uric acid concentrations in blood, liver and kidney were unchanged by dietary penicillin. 5. It is concluded that caecal ammonia production from urea was closely correlated with nitrogen utilisation in chickens fed a low protein diet plus urea.
...
PMID:Relationship of decreased caecal urease activity by dietary penicillin to nitrogen utilisation in chickens fed on a low protein diet plus urea. 819 93
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