Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ability of R-type lipopolysaccharide (LPS), isolated from Neisseria gonorrhoeae colony type 4, to protect against infection with N. gonorrhoea colony type 1 (T1 isolates) in the mouse and chicken embryo was investigated. C57 black mice were immunized intraperitoneally with 50 microgram of LPS, and challenged intracerebrally with 10-20 LD50's of N. gonorrhoeae colony type 1. Immunized mice were significantly protected (P less than 0.01 to less than 0.05) against challenge with different T1 isolates of N. gonorrhoeae when compared with non-immunized mice. Mice, injected with succinylated or alkali-treated LPS were not protected against gonococcal challenges. In a second animal model, leghorn hens were immunized intravenously with three injections of 500 microgram of LPS followed by a booster of 2.5 mg 2 weeks later. Embryonated eggs obtained from immunized hens were protected against challenge with 5 x 10(3) - 1 x 10(4) LD50's of three different T1 isolates. When hens were injected with the chemically modified LPS, the embryos were not resistant to gonococcal challenge. The results of this study demonstrate the ability of R-type gonococcal LPS to provide protection against different T1 isolates of N. gonorrhoeae.
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PMID:The lipopolysaccharide (R type) as a common antigen of Neisseria gonorrhoeae. I. Immunizing properties. 41 80

An antiserum has been prepared in hens to R-type gonococcal lipopolysaccharide (LPS) and used in a simple slide-agglutination test for the identification of Neisseria gonorrhoeae. Anti-LPS serum agglutinated gonococcal cells representative of the four colony types of N. gonorrhoeae. Absorption of the antiserum with LPS removed the agglutinating activity. Secondary cultures (1120) were tested without observation of the colony type and all were agglutinated. No agglutination occurred with strains of Neisseria meningitidis, Neisseria lactamica, non-pathogenic Neisseria. Pseudomonas aeruginosa, Branhamella catarrhalis, or with species of lactobacilli and Acinetobacter. Cross-reactivity of the antiserum occurred with some streptococci. The anti-LPS serum was used to identify N. gonorrhoeae in primary isolates from the cervix, urethra, and pharynx. Of 251 gonococcal isolates tested, 249 were agglutinated by the antiserum, while all of the corresponding second cultures were agglutinated. The antiserum did not agglutinate N. meningitidis found in primary isolates from pharyngeal specimens. Anti-LPS hen serum should be useful for the rapid identification of N. gonorrhoeae in primary isolates or secondary cultures.
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PMID:The lipopolysaccharide (R type) as a common antigen of Neisseria gonorrhoeae. II. Use of hen antiserum to gonococcal lipopolysaccharide in a rapid slide test for the identification of N. gonorrhoeae from primary isolates and secondary cultures. 41 81

Ribosomal preparations from Neisseria gonorrhoeae types 1 and 4 were examined for their in vitro stimulation of mouse splenocytes to determine the ribosomal moiety or contaminant responsible for the immunoproliferative activity. In immunodiffusion tests with homologous rabbit antiserum, crude 70S ribosomes formed four precipitin bands while the purified 30S and 50S subunits showed one major line. The same antiserum reacted with lysed N. gonorrhoeae and Neisseria meningitidis A cells but no precipitation occurred with Escherichia coli cells purified N. gonorrhoeae lipopolysaccharide (LPS). No membrane or LPS contaminant was detected in the purified 30S and 50S preparations. All the ribosomal preparations from virulent and non-virulent N. gonorrhoeae consistently stimulated the murine splenocytes. The mitogenic activity of the 30S and 50S ribosomal preparation was destroyed by treatment with trypsin but only slightly decreased by ribonuclease. It is suggested that the lymphoproliferative response elicited by gonococcal ribosomes is triggered by the protein moiety of the 30S or 50S subunits.
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PMID:Characterization of the mitogenic activity elicited by Neisseria gonorrhoeae ribosomal fractions. 41 60

In order to elucidate the pathogenesis of the skin lesions in 'benign gonococcal sepsis' direct immunofluorescence of an early macular lesion and routine histopathology of a mature papulopustular lesion in a patient with septic gonococcal dermatitis have been performed. Histopathology of the mature skin lesion revelaed a pattenr of 'allergic vasculitis'. Direct immunofluorescence showed exclusively deposits of C3 around and within the capillaries and in the basement membrane zone. No specific IgG, IgM, IgA or C4 deposits could be demonstrated. This, together with serological findings and reports from the literature, suggests an important pathogenetic function for complement, activated through the alternative pathway by means of gonococcal endotoxic lipopolysaccharide, in the pathogenesis of the skin lesions in benign gonococcal sepsis.
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PMID:Alternative pathway complement activation:a possible mechanism inducing skin lesions in benign gonococcal spesis. 78 66

Bdellovibrio species are small, highly motile bacteria that are predators upon other bacteria in nature. Bdellovibrios attach to, penetrate, replicate within, and destroy prey that share the general characteristic of gram negativity. The lipopolysaccharide moiety of the cell membrane of target microorganisms appears to contain the principal receptor site for bdellovibrio attachment. Since gonococci also contain lipopolysaccharide that is similar in many respects to that contained within gram-negative rods, studies were conducted to determine the extent of gonococcal interaction with a variety of bdellovibrio species. Despite transient attachment, penetration of gonococci by bdellovibrios never occurred. Failure of bdellovibrio parasitization was unrelated to gonococcal species, colony type, piliation, penicillin susceptibility, or virulence as influenced by passage in embryonated eggs. In experiments involving mixtures of gonococci and more typical gram-negative bacillary prey, the latter were always attacked by bdellovibrios, whereas the former were ignored. Despite evidence for similarities between gonococcal and gram-negative bacillary lipopolysaccharides, resemblances do not extend to the point where gonococci are susceptible to bdellovibrio parasitization.
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PMID:Response of Neisseria gonorrhoeae to Bdellovibrio species. 81 1

Six synthetic 25-mer peptides corresponding to certain presumed surface-exposed regions of gonococcal porin protein I (PI) were made from strains FA19 (PIA) and MS11 (PIB). Four peptides were immunogenic in rabbits. Affinity-purified antisera against both PIA and PIB N-terminal peptides were bactericidal for homologous gonococci and many heterologous PI serovars. However, sialylation of gonococcal lipopolysaccharide (LPS) by growth of gonococci in the presence of cytidine monophosphate-neuraminic acid (CMP-NANA) abrogated the bactericidal activity of these antisera. Binding of anti-PI monoclonal antibodies to whole gonococci was reduced two- to fourfold by sialylation of LPS, suggesting that sialylation may inhibit bactericidal activity by masking porin epitopes. However, binding of anti-PII (Opa) monoclonal antibodies was not inhibited, yet complement-mediated killing was inhibited by sialylated LPS. Binding of complement components C3 and C9 was inhibited in the presence of either anti-PI or anti-PII monoclonals when gonococci were grown in the presence of CMP-NANA. Thus sialylation inhibited both anti-PI antibody binding and complement deposition, with a resultant decrease in bactericidal activity.
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PMID:Antibodies to N-terminal peptides of gonococcal porin are bactericidal when gonococcal lipopolysaccharide is not sialylated. 128 Mar 17

Examined before subculture, gonococci in 18 urethral exudates collected from different patients were serum-resistant. For 15 exudates, the resistance was drastically reduced by treatment with neuraminidase and by one subculture on laboratory media. It was restored by incubation with cytidine 5'-monophospho-N-acetyl neuraminic acid (CMP-NANA). Electron microscopic examination of gonococci in eight exudates showed a surface structure stained by Ruthenium red which disappeared in most samples when they were treated with neuraminidase. These results were identical with those of previous studies on in vitro grown gonococci which had shown that serum resistance is due to sialylation of a 4.5-kDa conserved component of gonococcal lipopolysaccharide (LPS) by host CMP-NANA, which masks the target site for bactericidal IgM and renders surface LPS stainable by Ruthenium red. The serum resistance of gonococci in the remaining three exudates was not reduced by neuraminidase nor by subculture. The mechanism of this stable resistance is unknown.
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PMID:The serum resistance of gonococci in the majority of urethral exudates is due to sialylated lipopolysaccharide seen as a surface coat. 137 74

The resistance of gonococci in most patients to complement mediated killing by human serum is due to sialylation of their lipopolysaccharide (LPS) which prevents bactericidal antibody from reacting with target sites. Two of the host factors responsible are: cytidine 5'-monophospho-N-acetyl neuraminic acid (CMP-NANA), a well-known sialylating agent, and another factor which enhances the transfer of sialyl groups from CMP-NANA to LPS catalysed by a gonococcal sialyltransferase. The bacterial determinant of resistance is a conserved LPS component of about 4.5 kDa which is sialylated at a terminal Gal beta 1-4GlcNAc site on its side chain. The sialylated LPS forms a surface coat which is stainable by ruthenium red and connected with previously described 'capsules'. These observations sparked off an explosion of research. Recent publications show that sialylation of LPS by CMP-NANA affects additional important aspects of gonococcal pathogenicity, notably interactions with antibodies and phagocytes, and rendering the gonococcal surface more 'host-like'. Also, the observations have prompted an examination of LPS from some other pathogens for the presence of sialyl groups with positive results for Neisseria meningitidis and Haemophilus influenzae.
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PMID:The sialylation of gonococcal lipopolysaccharide by host factors: a major impact on pathogenicity. 147 64

A high relative molecular mass (M(r)) component which confers serum resistance on gonococci has been purified about 300-fold from a dialysed sonicate of human blood cells. Serum resistance conferred by the high M(r) factor (RIF), like that induced by cytidine-5' monophospho-N acetyl neuraminic acid (CMP-NANA), decreased when gonococci were incubated with neuraminidase. Also, the resistance-inducing activities of both high M(r) RIF and CMP-NANA were inhibited by CMP and inactivated at pH 4.0. These activities were not additive but synergistic. Neuraminidase decreased the activity of high M(r) RIF but not CMP-NANA. In tests with 14C CMP-NANA and gonococcal lipopolysaccharide, no sialyltransferase activity was detected, even in highly active samples of high M(r) RIF under conditions in which low activities of rat liver sialyltransferase were readily detected. Conversely, rat liver sialyltransferase was neither active in the RIF assay nor able to enhance the RIF activity of CMP-NANA. Nevertheless, high M(r) RIF greatly enhanced the sialyltransferase activity of a gonococcal extract; this enhancement suggests an explanation for the synergism between CMP-NANA and high M(r) RIF in inducing serum resistance in gonococci.
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PMID:A high Mr factor in human blood which confers serum resistance on gonococci: some properties and synergism with CMP-NANA. 152 97

Microbial pathogenicity or virulence, the capacity to cause disease, depends on microbial gene products that promote infection and penetration of mucous membranes, multiplication in the tissues, interference with host defence and sickness. Formation of these virulence determinants by microbes is influenced by the environment of the host, which differs from that in laboratory cultures. Studies of microorganisms grown in vivo, and of the host's influence on the production of virulence determinants, are increasing. In most studies, however, the complex conditions in vivo are not dissected to show the influence of particular factors. In future we should define specific host factors that are responsible for producing identified virulence determinants. There are three studies which point the way. Iron limitation in vivo causes production of bacterial siderophores, outer membrane receptors and some toxins. Erythritol, a growth stimulant for brucellae, causes intense placentitis and hence abortion in cattle, sheep and pigs. Cytidine 5'-monophospho-N-acetyl neuraminic acid (CMP-NANA) sialylates a conserved component of gonococcal lipopolysaccharide (LPS), thereby rendering gonococci in patients resistant to complement-mediated killing by serum. Although the lecture uses bacteria for examples, the principle applies equally to studies of viral and fungal pathogenicity.
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PMID:The Leeuwenhoek Lecture, 1991. The influence of the host on microbes that cause disease. 168 45


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