Your search keyword '"Proteus penneri immunology"' showing total 13 results

1. The unique structure of bacterial polysaccharides - Immunochemical studies on the O-antigen of Proteus penneri 4034-85 clinical strain classified into a new O83 Proteus serogroup.

Author

Siwińska M, Zabłotni A, Levina EA, Shashkov AS, Ovchinnikova OG, Różalski A, and Knirel YA

Subjects

Enzyme-Linked Immunosorbent Assay, Humans, Mass Spectrometry, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, O Antigens immunology, Phosphorylation, Proteus penneri immunology, O Antigens chemistry, Polysaccharides, Bacterial chemistry, Proteus penneri chemistry, Proteus penneri classification, Serogroup

Abstract

The serological classification scheme of the opportunistic Proteus bacilli includes a number of Proteus penneri strains. The tested P. penneri 4034-85 strain turned out to be serologically distinguished in ELISA and Western blotting. The O-polysaccharide was obtained by mild acid degradation of the lipopolysaccharide of this strain and studied by sugar and methylation analyses and dephosphorylation along with 1 H and 13 C NMR spectroscopy, including 2D 1 H, 1 H COSY, TOCSY, ROESY, 1 H, 13 C HSQC, HMBC, and HSQC-TOCSY experiments, The O-polysaccharide was found to have a linear repeating unit containing glycerol 1-phosphate and two residues each of Gal and GlcNAc. The following O-polysaccharide structure was established, which, to our knowledge, is unique among known bacterial polysaccharide structures., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

2. The New Structure of Core Oligosaccharide Presented by Proteus penneri 40A and 41 Lipopolysaccharides.

Author

Palusiak A, Maciejewska A, Lugowski C, Rozalski A, and Kaszowska M

Subjects

Antigens, Bacterial immunology, Immune Sera immunology, Lipopolysaccharides immunology, Magnetic Resonance Spectroscopy, Molecular Structure, Oligosaccharides immunology, Proteus penneri immunology, Spectrometry, Mass, Electrospray Ionization, Structure-Activity Relationship, Antigens, Bacterial chemistry, Lipopolysaccharides chemistry, Oligosaccharides chemistry, Proteus penneri chemistry

Abstract

The new type of core oligosaccharide in Proteus penneri 40A and 41 lipopolysaccharides has been investigated by ¹H and 13 C NMR spectroscopy, electrospray ionization mass spectrometry and chemical methods. Core oligosaccharides of both strains were chosen for structural analysis based on the reactivity of LPSs with serum against P. penneri 40A core oligosaccharide-diphtheria toxoid conjugate. Structural analyses revealed that P. penneri 40A and 41 LPSs possess an identical core oligosaccharide., Competing Interests: The authors declare no conflict of interest.

Published

2018

3. Classification of Proteus penneri lipopolysaccharides into core region serotypes.

Author

Palusiak A

Subjects

Animals, Epitopes immunology, Immune Sera, Lipopolysaccharides chemistry, Proteus penneri pathogenicity, Rabbits, Serotyping methods, Virulence Factors, Lipopolysaccharides immunology, Proteus penneri classification, Proteus penneri immunology, Serogroup

Abstract

The frequency of P. penneri isolation from hospital patients, mostly from urine and wounds, keeps on growing, and numerous isolates are multi-drug resistant. P. penneri rods produce lipopolysaccharide (LPS), which may lead to the septic shock. Until now, O-specific polysaccharide has been the best structurally and serologically characterized region of P. penneri LPS. It is worth having an insight into the serological specificity of both poly- and oligosaccharide parts of P. penneri LPS. The P. penneri core region is less structurally diverse than OPS, but still, among other enterobacterial LPS core regions, it is characterized by structural variability. In the present study, the serological reactivity of 25 P. penneri LPS core regions was analyzed by ELISA, passive immunohemolysis and Western blot technique using five polyclonal P. penneri antisera after or without their adsorption with the respective LPSs. The results allowed the assignment of the tested strains to five new core serotypes, which together with published serological studies led to the creation of the first serotyping scheme based on LPS core reactivities of 35 P. penneri and three P. mirabilis strains. Together with the O types scheme, it will facilitate assigning Proteus LPSs of clinical isolates into appropriate O and R serotypes.

Published

2016

4. Classification of a Proteus penneri clinical isolate with a unique O-antigen structure to a new Proteus serogroup, O80.

Author

Siwińska M, Levina EA, Ovchinnikova OG, Drzewiecka D, Shashkov AS, Różalski A, and Knirel YA

Subjects

Carbohydrate Sequence, Humans, Magnetic Resonance Spectroscopy methods, Male, Middle Aged, O Antigens metabolism, Poland, Proteus penneri immunology, Serotyping, O Antigens chemistry, Proteus Infections microbiology, Proteus penneri classification, Proteus penneri isolation & purification

Abstract

Proteus penneri is an opportunistic pathogen, which may cause severe diseases, most frequently urinary tract infections in immunocompromised patients. P. penneri Br 114 exhibiting a good swarming growth ability as an S-form strain was isolated from a wound of a patient in Łódź, Poland. Serological studies using ELISA and Western blotting and chemical analyses along with (1)H and (13)C NMR spectroscopy showed that the O-antigen (O-polysaccharide) of this strain is unique among the known Proteus serotypes O1-O79. It possesses a linear pentasaccharide repeating unit containing a partially O-acetylated amide of D-glucuronic acid (GlcA) with L-serine having the following structure: [structure: see text]. These data are a basis for creating a new Proteus serogroup, O80, so far represented by the single Br 114 isolate. The O80 is the 21st O-serogroup containing P. penneri strains and the fourth serogroup based on Proteus spp. clinical isolates from Łódź, Poland., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

5. The amide of galacturonic acid with lysine as an immunodominant component of the lipopolysaccharide core region from Proteus penneri 42 strain.

Author

Palusiak A, Maciejewska A, Ługowski C, and Różalski A

Subjects

Amides, Hexuronic Acids chemistry, Immunodominant Epitopes administration & dosage, Lipopolysaccharides chemistry, Lipopolysaccharides immunology, Lysine administration & dosage, Lysine chemistry, Lysine immunology, O Antigens chemistry, Proteus penneri immunology, Hexuronic Acids administration & dosage, Lipopolysaccharides administration & dosage, O Antigens immunology

Abstract

Most Proteus lipopolysaccharides (LPSs) contain uronic acids or their amides with different amino acids, which together with other negatively charged components account for the acidic character of such LPS molecules. Previous studies have shown the significance of an amide of galacturonic acid with lysine [D-GalA(L-Lys)] for serological specificity of O-antigens from few P. mirabilis strains. In this work, the immunodominant role of GalALys was indicated for the P. penneri 42 LPS core region. The studies also showed the serological identity of core oligosaccharides from P. penneri 42 (O71), P. mirabilis 51/57 (O28) and R14/S1959 strains.

Published

2014

6. Application of two different kinds of sera against the Proteus penneri lipopolysaccharide core region in search of epitopes determining cross-reactions with antibodies.

Author

Palusiak A, Dzieciatkowska M, and Sidorczyk Z

Subjects

Animals, Blotting, Western, Cross Reactions, Enzyme-Linked Immunosorbent Assay, Rabbits, Antibodies, Bacterial immunology, Epitopes, Lipopolysaccharides immunology, Proteus penneri immunology

Abstract

Introduction: Proteus penneri lipopolysaccharide (LPS) core regions are characterized by a greater structural variability than that observed in other Enterobacteriaceae. This fact and the small amount of published data concerning the serological activity of this part of P. penneri LPS prompted an examination of which fragment might determine cross-reactions with antibodies. To date, such epitopes have been found in the LPS core regions of P. mirabilis and P. vulgaris strains., Materials and Methods: Proteus sp. LPSs were tested with unabsorbed rabbit antisera by enzyme-linked immunosorbent assay (ELISA), sodium dodecyl sulfate polyacrylamide gel electrophoresis and Western blot, and once again by ELISA or passive immunohemolysis after the absorption of these antisera with selected LPSs., Results: The serological studies of P. penneri 8 LPS demonstrated antibodies in the tested antisera recognizing a common epitope located in the core regions of six of the LPSs, i.e. P. penneri 8, 34, 133, 7, 14, and 15. Additionally, another type of antibody directed against some fragment of P. penneri 13 and the core regions of other LPSs investigated was observed in one antiserum., Conclusions: A distal, trisaccharide fragment of the P. penneri 8 LPS core region is suggested to determine the cross-reactions of the tested antisera with the six P. penneri LPSs.

Published

2008

7. Serological and structural characterization of the O-antigens of the unclassified Proteus mirabilis strains TG 83, TG 319, and CCUG 10700 (OA).

Author

Zabłotni A, Zych K, Kondakova AN, Siwińska M, Knirel YA, and Sidorczyk Z

Subjects

Animals, Proteus mirabilis classification, Proteus penneri chemistry, Proteus penneri immunology, Rabbits, Serologic Tests, O Antigens chemistry, O Antigens immunology, Proteus mirabilis chemistry, Proteus mirabilis immunology

Abstract

Introduction: Lipopolysaccharide (endotoxin, LPS) is an important potential virulence factor of Proteus rods. The serological specificity of the bacteria is defined by the structure of the O-polysaccharide chain (O-antigen) of the LPS. Until now, 76 O-serogroups have been differentiated among Proteus strains., Materials and Methods: LPSs were isolated from Proteus mirabilis TG 83, TG 319, and CCUG 10700 (OA) strains by phenol/water extraction. Antisera were raised by immunization of rabbits with heat-killed bacteria. Serological investigations were performed using enzyme immunosorbent assay, passive immunohemolysis, inhibition of both assays, absorption of antisera, and Western blot., Results: The cross-reactive epitope shared by these strains and P. penner O72a,O72b is located on the O-polysaccharide and is most likely associated with an alpha-D-Glcp-(1-->6)-beta-D-GalpNAc disaccharide fragment. The serological data indicated the occurrence of two core types in the LPSs studied, one characteristic for P. mirabilis TG 319 and CCUG 10700 (OA) and the other for P. mirabilis TG 83 and O57., Conclusions: The serological and structural data showed that P. mirabilis TG 83, TG 319, CCUG 10700 (OA), and O57 have the same O-antigen structure and could be qualified to the Proteus O57 serogroup.

Published

2007

8. Serological classification and epitope specificity of Proteus vulgaris TG 251 from Proteus serogroup O65.

Author

Zych K, Kołodziejska K, Drzewiecka D, Perepelov AV, Knirel YA, and Sidorczyk Z

Subjects

Animals, Antigens, Bacterial, Cross Reactions, Epitopes chemistry, Epitopes immunology, Lipopolysaccharides chemistry, Lipopolysaccharides isolation & purification, O Antigens chemistry, Proteus penneri classification, Proteus penneri immunology, Proteus penneri isolation & purification, Proteus vulgaris isolation & purification, Lipopolysaccharides immunology, O Antigens immunology, Proteus vulgaris classification, Proteus vulgaris immunology, Serotyping

Abstract

Introduction: Proteus rods are currently subdivided into five named species, i.e. Proteus mirabilis, P. vulgaris, P. penneri, P. hauseri, and P. myxofaciens, and three unnamed Proteus genomospecies 4 to 6. Based on the serospecificity of the lipopolysaccharide (LPS; O-antigen), strains of P. mirabilis and P. vulgaris were divided into 49 O-serogroups and 11 additional O-serogroups were proposed later. About 15 further O-serogroups have been proposed for the third medically important species, P. penneri. Here the serological classification of P. vulgaris strain TG 251, which does not belong to these serogroups, is reported. Serological investigations also allowed characterization of the epitope specificity of its LPS., Materials and Methods: Purified LPSs from five Proteus strains were used as antigens in enzyme immunosorbent assay (EIA), SDS/PAGE, and Western blot and alkali-treated LPSs in the passive immunohemolysis (PIH) test, inhibition of PIH and EIA, and absorption of the rabbit polyclonal O-antisera with the respective LPS., Results: The serological studies of P. vulgaris TG 251 LPS indicated the identity of its O-polysaccharide with that of P. penneri O65. The antibody specificities of P. vulgaris TG 251 and P. penneri O65 O-antisera, were described., Conclusions: P. vulgaris TG 251 was classified to the Proteus O65 serogroup. Two disaccharide-associated epitopes present in P. vulgaris TG 251 and P. penneri O65 LPSs are suggested to be responsible for cross-reactions with three heterologous Proteus strains.

Published

2007

9. Serological classification and epitope specificity of Proteus penneri S29 lipopolysaccharide.

Author

Zych K, Siwińska M, and Sidorczyk Z

Subjects

Adult, Animals, Carbohydrate Sequence, Humans, Molecular Sequence Data, Proteus Infections immunology, Proteus penneri chemistry, Rabbits, Serotyping, Epitopes, Lipopolysaccharides chemistry, Lipopolysaccharides classification, Proteus penneri immunology

Abstract

Introduction: Gram-negative bacteria of genus Proteus are common human intestinal and urinary tract pathogens. In the genus Proteus there are four clinically important named species: P. mirabilis, P. vulgaris, P. penneri, and P. hauseri, and three unnamed Proteus genomospecies: 4, 5, and 6. The clinical significance of P. penneri, described in 1982 as a new species, is poorly documented. The aim of this work is serological characterization and classification of a ceftriaxone-susceptible P. penneri S29 strain isolated from a 34-year-old patient with postneurosurgical meningitis. In this characterization we will also include a ceftriaxonresistant strain, P. penneri R15, isolated from the same patient after 12 days' treatment with ceftriaxon and other antibiotics., Material/methods: Rabbit polyclonal O-antisera were obtained against these two strains and purified and lipopolysaccharides (LPS) were extracted from the bacterial mass of the P. penneri S29 and R15 strains. In the serological investigations the following tests were used: enzyme immunosorbent assay (EIA), passive immunohemolysis (PIH), inhibition of these tests, absorption of rabbit O-antisera with the respective LPS, and repeated PIH, SDS/PAGE, and Western blot techniques., Results: The serological studies of the LPS extracted from both P. penneri strains showed the identity of both preparations of O-polysaccharides from LPS. In P. penneri S29 O-antiserum, four different types of antibodies were described and characterized., Conclusions: Both investigated P. penneri S29 and R15 strains were classified to the Proteus O31ab serogroup.

Published

2005

10. Structure of the O-polysaccharide and serological studies of the lipopolysaccharide of Proteus penneri 60 classified into a new Proteus serogroup O70.

Author

Zych K, Perepelov A, Baranowska A, Zabłotni A, Shashkov AS, Knirel YA, and Sidorczyk Z

Subjects

Animals, Antibodies, Bacterial, Carbohydrate Sequence, Cross Reactions, Epitopes chemistry, Humans, Lipopolysaccharides immunology, Molecular Sequence Data, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, O Antigens immunology, Proteus penneri immunology, Proteus penneri pathogenicity, Rabbits, Serotyping, Lipopolysaccharides chemistry, O Antigens chemistry, Proteus penneri chemistry, Proteus penneri classification

Abstract

An alkali-treated lipopolysaccharide of Proteus penneri strain 60 was studied by chemical analyses and 1H, 13C and 31P NMR spectroscopy, and the following structure of the linear pentasaccharide-phosphate repeating unit of the O-polysaccharide was established: 6)-alpha-D-Galp-(1-->3)-alpha-L-FucpNAc-(1-->3)-alpha-D-GlcpNAc-(1-->3)-beta-D-Quip4NAc-(1-->6)-alpha-D-Glcp-1-P-(O--> Rabbit polyclonal O-antiserum against P. penneri 60 reacted with both core and O-polysaccharide moieties of the homologous LPS. Based on the unique O-polysaccharide structure and serological data, we propose to classify P. penneri 60 into a new, separate Proteus serogroup O70. A weak cross-reactivity of P. penneri 60 O-antiserum with the lipopolysaccharide of Proteus vulgaris O8, O15 and O19 was observed and discussed in view of the chemical structures of the O-polysaccharides.

Published

2005

11. Structure and serological studies of the O-polysaccharide of Proteus penneri 75 Epitopes and subgroups of Proteus serogroup O73.

Author

Zych K, Perepelov AV, Baranowska A, Zabłotni A, Knirel YA, and Sidorczyk Z

Subjects

Animals, Antigens, Bacterial chemistry, Antigens, Bacterial immunology, Magnetic Resonance Spectroscopy, Molecular Sequence Data, Proteus penneri classification, Rabbits, Serotyping, Epitopes, O Antigens chemistry, O Antigens immunology, Proteus penneri chemistry, Proteus penneri immunology

Abstract

The O-specific polysaccharide of the lipopolysaccharide of Proteus penneri strain 75 consists of tetrasaccharide-ribitol phosphate repeating units and resembles ribitol teichoic acids of Gram-positive bacteria. The following structure of the polysaccharide was elucidated by chemical methods and 1H and 13C NMR spectroscopy: [structure in text] where Rib-ol is ribitol. Serological studies with polyclonal antisera showed that the same structure of the O-polysaccharide occurred in two strains: P. penneri 75 and 128. A similar structure has been established earlier for the O-polysaccharide of P. penneri 103 [Drzewiecka, D., et al., Carbohydr. Res. 337 (2002) 1535-1540]. On the basis of complex serological investigations with use of two polyclonal P. penneri 75 and 103 O-antisera, five strains could be classified into Proteus O73 serogroup: P. penneri 48, 75, 90, 103 and 128, two of which (P. penneri 75 and 128) should be subdivided into subgroup 73a, 73b and three others (P. penneri 48, 90 and 103) into subgroup 73a, 73c. Epitopes responsible for the cross-reactivity of P. penneri O73 strains and a related strain of P. mirabilis O20 were tentatively defined.

Published

2005

12. Characterization and serological classification of a collection of Proteus penneri clinical strains.

Author

Drzewiecka D, Zych K, and Sidorczyk Z

Subjects

Antigens, Bacterial isolation & purification, Bacterial Typing Techniques, Humans, Lipopolysaccharides immunology, Lipopolysaccharides isolation & purification, Proteus Infections microbiology, Proteus penneri immunology, Proteus penneri pathogenicity, Serotyping, Urinary Tract Infections microbiology, Proteus penneri classification, Proteus penneri isolation & purification

Abstract

Introduction: Bacteria of the genus Proteus, which are a common cause of urinary tract infections, are divided into four species: P. mirabilis, P. vulgaris, P. penneri, and P. hauseri, and three unnamed genomospecies, Proteus 4, 5, and 6 (single-strain species P. myxofaciens was isolated from the gypsy moth). Establishing the serological classification of these species would aid in completing the classification scheme of the whole genus Proteus and in applying serological methods in diagnostic procedures and epidemiological investigations for these opportunistic pathogens. The aim of this research was a serological characterization and classification of 57 Proteus penneri clinical strains, isolated from patients from different countries all over the world, into Proteus O serogroups., Material/methods: Purified lipopolysaccharides (LPSs) extracted from 57 P. penneri strains were used as antigens in enzyme immunosorbent assay (EIA), SDS/PAGE, and Western blot techniques, and alkali treated LPSs in passive immunohemolysis test (PIH), inhibition of PIH, and absorption of rabbit polyclonal O-antisera., Results: That result confirms the serological distinction of this species within the genus Proteus, and may have diagnostic significance., Conclusions: As a result of serological studies of LPSs extracted from the P. penneri strains, one new Proteus serogroup, represented by the P. penneri 97 strain, was established. Three further strains were classified into the Proteus serogroup O8, which had not contained any P. penneri strains before. All the remaining strains were classified into 11 already existing Proteus O serogroups. It is important to emphasize that 72% of studied strains were classified into serogroups that contain P. penneri strains only.

Published

2004

13. Structure of the O-polysaccharide of Proteus penneri 28 and Proteus vulgaris O31 and classification of P. penneri 26 and 28 in Proteus serogroup O31.

Author

Kondakova AN, Zych K, Senchenkova SN, Bartodziejska B, Shashkov AS, Knirel YA, Rozalski AA, and Sidorczyk Z

Subjects

Bacterial Typing Techniques, Carbohydrate Sequence, Humans, Lipopolysaccharides immunology, Molecular Sequence Data, Nuclear Magnetic Resonance, Biomolecular, O Antigens immunology, Proteus immunology, Proteus penneri immunology, Serotyping, Lipopolysaccharides chemistry, O Antigens chemistry, Proteus chemistry, Proteus classification, Proteus penneri chemistry, Proteus penneri classification

Abstract

The lipopolysaccharides (LPS) of Proteus penneri 28 and Proteus vulgaris O31 (PrK 55/57) were degraded with dilute acetic acid and structurally identical high-molecular-mass O-polysaccharides were isolated by gel-permeation chromatography. Sugar analysis and nuclear magnetic resonance (NMR) spectroscopic studies showed that both polysaccharides contain D-GlcNAc, 2-acetamido-2,6-dideoxy-L-glucose (L-2-acetamido-2,6-dideoxyglucose (N-acetylquinovosamine)) and 2-acetamido-3-O-[(S)-1-carboxyethyl]-2-deoxy-D-glucose (N-acetylisomuramic acid) and have the following structure: [carbohydrate structure: see text] where (S)-1-carboxyethyl [a residue of (S)-lactic acid] (S-Lac) is an ether-linked residue of (S)-lactic acid. The O-polysaccharide studied is structurally similar to that of P. penneri 26, which differs only in the absence of S-Lac from the GlcNAc residue. Based on the O-polysaccharide structures and serological data of the LPS, it was suggested classifying these strains in one Proteus serogroup, O31, as two subgroups: O(31a), 31b for P. penneri 28 and P. vulgaris PrK 55/57 and O31a for P. penneri 26. A serological relatedness of the LPS of Proteus O(31a), 31b and P. penneri 62 was revealed and substantiated by sharing epitope O31b, which is associated with N-acetylisomuramic acid. It was suggested that a cross-reactivity of P. penneri 28 O-antiserum with the LPS of several other P. penneri strains is due to a common epitope(s) on the LPS core.

Published

2003