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1. PNAG-specific equine IgG1 mediates significantly greater opsonization and killing of Prescottella equi (formerly Rhodococcus equi) than does IgG4/7

Author

Jocelyne M. Bray, Joana N. Rocha, Gerald B. Pier, Colette Cywes-Bentley, Sara D. Lawhon, Lawrence J. Dangott, Suresh D. Pillai, Robert C. Alaniz, Waithaka Mwangi, Noah D. Cohen, and Angela I. Bordin

Subjects
General Veterinary, General Immunology and Microbiology, biology, animal diseases, 030231 tropical medicine, Public Health, Environmental and Occupational Health, Virulence, biology.organism_classification, Microbiology, Antibody opsonization, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Infectious Diseases, chemistry, Glucosamine, parasitic diseases, biology.protein, Molecular Medicine, Colostrum, 030212 general & internal medicine, Rhodococcus equi, Antibody, Opsonin, Pathogen
Abstract

Prescottella equi (formerly Rhodococcus equi) is a facultative intracellular bacterial pathogen that causes severe pneumonia in foals 1–6 months of age, whereas adult horses are highly resistant to infection. We have shown that vaccinating pregnant mares against the conserved surface polysaccharide capsule, β-1 → 6-linked poly-N-acetyl glucosamine (PNAG), elicits opsonic killing antibody that transfers via colostrum to foals and protects them against experimental infection with virulent. R. equi. We hypothesized that equine IgG1 might be more important than IgG4/7 for mediating protection against R. equi infection in foals. To test this hypothesis, we compared complement component 1 (C1) deposition and polymorphonuclear cell-mediated opsonophagocytic killing (OPK) mediated by IgG1 or IgG4/7 enriched from either PNAG hyperimmune plasma (HIP) or standard plasma. Subclasses IgG1 and IgG4/7 from PNAG HIP and standard plasma were precipitated onto a diethylaminoethyl ion exchange column, then further enriched using a protein G Sepharose column. We determined C1 deposition by enzyme-linked immunosorbent assay (ELISA) and estimated OPK by quantitative microbiologic culture. Anti-PNAG IgG1 deposited significantly (P < 0.05) more C1 onto PNAG than did IgG4/7 from PNAG HIP or subclasses IgG1 and IgG4/7 from standard plasma. In addition, IgG1 from PNAG HIP mediated significantly (P < 0.05) greater OPK than IgG4/7 from PNAG HIP or IgG1 and IgG4/7 from standard plasma. Our findings indicate that anti-PNAG IgG1 is a correlate of protection against R. equi in foals, which has important implications for understanding the immunopathogenesis of R. equi pneumonia, and as a tool for assessing vaccine efficacy and effectiveness when challenge is not feasible.

Published
2019

2. Novel vaccine antigen combinations elicit protective immune responses against Escherichia coli sepsis

Author

Natalie M. Mitchell, Florian Schödel, Roy Curtiss, Gerald B. Pier, and Melha Mellata

Subjects
0301 basic medicine, beta-Glucans, 030106 microbiology, Escherichia coli Vaccines, Receptors, Cell Surface, Active immunization, Article, Immunoglobulin G, Microbiology, Mice, 03 medical and health sciences, Antigen, Sepsis, Animals, Medicine, Escherichia coli Infections, Antigens, Bacterial, Extraintestinal Pathogenic Escherichia coli, Vaccines, Conjugate, General Veterinary, General Immunology and Microbiology, biology, business.industry, Escherichia coli Proteins, Immunization, Passive, Public Health, Environmental and Occupational Health, Toxoid, Antibodies, Bacterial, Virology, Vaccination, Infectious Diseases, Immunization, biology.protein, Molecular Medicine, Female, Fimbriae Proteins, Rabbits, business, Molecular Chaperones
Abstract

Systemic infections caused by extraintestinal pathogenic Escherichia coli (ExPEC) have emerged as the most common community-onset bacterial infections and are major causes of nosocomial infections worldwide. The management of ExPEC infections has been complicated by the heterogeneity of ExPEC strains and the emergence of antibiotic resistance, thus their prevention through vaccination would be beneficial. The protective efficacy of four common ExPEC antigen candidates composed of common pilus antigens EcpA and EcpD and iron uptake proteins IutA and IroN, were tested by both active and passive immunization in lethal and non-lethal murine models of sepsis. Additionally, antibody raised to a synthetic form of a conserved surface polysaccharide, β-(1-6)-linked poly-N-acetylglucosamine (dPNAG) containing 9 monomers of (non-acetylated) glucosamine (9GlcNH2) conjugated to tetanus toxoid TT (9GlcNH2-TT) was tested in passive immunization protocols. Active immunization of mice with recombinant antigens EcpA, EcpD, IutA, or IroN elicited high levels of total IgG antibody of IgG1/IgG2a isotypes, and were determined to be highly protective against E. coli infection in lethal and non-lethal sepsis challenges. Moreover, passive immunization against these four antigens resulted in significant reductions of bacteria in internal organs and blood of the mice, especially when the challenge strain was grown in iron-restricted media. Inclusion of antibodies to PNAG increased the efficacy of the passive immunization under conditions where the challenge bacteria were grown in LB medium but not in iron-restricted media. The information and data presented are the first step toward the development of a broadly protective vaccine against sepsis-causing E. coli strains.

Published
2016

3. PNAG-specific equine IgG

Author

Joana N, Rocha, Lawrence J, Dangott, Waithaka, Mwangi, Robert C, Alaniz, Angela I, Bordin, Colette, Cywes-Bentley, Sara D, Lawhon, Suresh D, Pillai, Jocelyne M, Bray, Gerald B, Pier, and Noah D, Cohen

Subjects
animal diseases, Age Factors, Opsonin Proteins, Antibodies, Bacterial, Article, Acetylglucosamine, Animals, Newborn, Phagocytosis, Complement C1, Rhodococcus equi, Immunoglobulin G, Pneumonia, Bacterial, Animals, Horse Diseases, Horses, Actinomycetales Infections
Abstract

Prescottella equi (formerly Rhodococcus equi) is a facultative intracellular bacterial pathogen that causes severe pneumonia in foals 1–6 months of age, whereas adult horses are highly resistant to infection. We have shown that vaccinating pregnant mares against the conserved surface polysaccharide capsule, β-1 → 6-linked poly-N-acetyl glucosamine (PNAG), elicits opsonic killing antibody that transfers via colostrum to foals and protects them against experimental infection with virulent. R. equi. We hypothesized that equine IgG(1) might be more important than IgG(4/7) for mediating protection against R. equi infection in foals. To test this hypothesis, we compared complement component 1 (C1) deposition and polymorphonuclear cell-mediated opsonophagocytic killing (OPK) mediated by IgG(1) or IgG(4/7) enriched from either PNAG hyperimmune plasma (HIP) or standard plasma. Subclasses IgG(1) and IgG(4/7) from PNAG HIP and standard plasma were precipitated onto a diethylaminoethyl ion exchange column, then further enriched using a protein G Sepharose column. We determined C1 deposition by enzyme-linked immunosorbent assay (ELISA) and estimated OPK by quantitative microbiologic culture. Anti-PNAG IgG(1) deposited significantly (P < 0.05) more C1 onto PNAG than did IgG(4/7) from PNAG HIP or subclasses IgG(1) and IgG(4/7) from standard plasma. In addition, IgG(1) from PNAG HIP mediated significantly (P < 0.05) greater OPK than IgG(4/7) from PNAG HIP or IgG(1) and IgG(4/7) from standard plasma. Our findings indicate that anti-PNAG IgG(1) is a correlate of protection against R. equi in foals, which has important implications for understanding the immunopathogenesis of R. equi pneumonia, and as a tool for assessing vaccine efficacy and effectiveness when challenge is not feasible.

Published
2018

4. Pleiotropic effects of the lpxM mutation in Yersinia pestis resulting in modification of the biosynthesis of major immunoreactive antigens

Author

N. P. Konnov, Sof'ya N. Senchenkova, Vladimir L. Motin, Rima Z. Shaikhutdinova, L. V. Sayapina, Andrey P. Anisimov, L. N. Pan'kina, Anna N. Kondakova, Nina A. Kocharova, Olga V. Bystrova, Svetlana V. Dentovskaya, Y. A. Knirel, S. A. Ageev, Gerald B. Pier, Valentina A. Feodorova, E. P. Savostina, B. Lindner, O. S. Kuznetsov, and Otto Holst

Subjects
Lipopolysaccharides, Yersinia pestis, Mutant, Virulence, Vaccines, Attenuated, Article, Epitope, Microbiology, Lipid A, Epitopes, Mice, Antigen, Animals, Antigens, Bacterial, Plague Vaccine, General Veterinary, General Immunology and Microbiology, biology, Tumor Necrosis Factor-alpha, Public Health, Environmental and Occupational Health, biology.organism_classification, Enterobacteriaceae, Infectious Diseases, Mutation, Molecular Medicine, Female, Immunization, Bacterial antigen
Abstract

Deletion mutants in the lpxM gene in two Yersinia pestis strains, the live Russian vaccine strain EV NIIEG and a fully virulent strain, 231, synthesise a less toxic penta-acylated lipopolysaccharide (LPS). Analysis of these mutants revealed they possessed marked reductions in expression and immunoreactivity of numerous major proteins and carbohydrate antigens, including F1, Pla, Ymt, V antigen, LPS, and ECA. Moreover, both mutants demonstrated altered epitope specificities of the antigens as determined in immunodot-ELISAs and immunoblotting analyses using a panel of monoclonal antibodies. The strains also differed in their susceptibility to the diagnostic plague bacteriophage L-413C. These findings indicate that the effects of the lpxM mutation on reduced virulence and enhanced immunity of the Y. pestis EV DeltalpxM is also associated with these pleiotropic changes and not just to changes in the lipid A acylation.

Published
2009

5. Vaccines and immunotherapy against Pseudomonas aeruginosa

Author

Gerald B. Pier and Gerd Döring

Subjects
Pseudomonas Vaccines, medicine.drug_class, medicine.medical_treatment, medicine.disease_cause, Monoclonal antibody, Pilus, Microbiology, Antigen, medicine, Animals, Humans, Pseudomonas Infections, General Veterinary, General Immunology and Microbiology, biology, Pseudomonas aeruginosa, Public Health, Environmental and Occupational Health, Antibodies, Monoclonal, Immunotherapy, biology.organism_classification, Antibodies, Bacterial, Virology, Vaccination, Infectious Diseases, Salmonella enterica, biology.protein, Molecular Medicine, Antibody
Abstract

A number of different vaccines and several monoclonal antibodies have been developed in the last decades for active and passive vaccination against the Gram-negative opportunistic pathogen Pseudomonas aeruginosa. These approaches include vaccine antigens such as lipopolysaccharide, surface polysaccharides, polysaccharide-protein conjugates, flagella, outer membrane proteins, pili, whole formalin-killed P. aeruginosa cells, live-attenuated P. aeruginosa and Salmonella enterica strains expressing P. aeruginosa antigens and DNA sequences. While many of these experimental vaccines and monoclonal antibodies have been tested in preclinical trials, only a few have reached clinical phases and none of these vaccines has obtained market authorization. The purpose of this review is to provide a brief summary of the present state of the development of vaccines and immunotherapies against P. aeruginosa infections. According to the different types of infection caused by P. aeruginosa--localized on mucosal surfaces such as the airways or systemic infection in the blood stream--several potential routes suggesting optimal means to administer the experimental vaccines are presented. Finally, the inherent problem of testing P. aeruginosa candidate vaccines in patient populations is discussed.

Published
2008

6. Multi-valent human monoclonal antibody preparation against Pseudomonas aeruginosa derived from transgenic mice containing human immunoglobulin loci is protective against fatal pseudomonas sepsis caused by multiple serotypes

Author

Rhonda Kimmel, Sheryl M. Petersen, Sharon T. Thomas, Robin X Luo, Gerald B. Pier, Binyam Bezabeh, Zengzu Lai, and John R. Schreiber

Subjects
Lipopolysaccharides, Neutropenia, medicine.drug_class, Immunoglobulins, Enzyme-Linked Immunosorbent Assay, Mice, Transgenic, medicine.disease_cause, Immunoglobulin E, Monoclonal antibody, Immunoglobulin G, Epitope, Microbiology, Mice, Sepsis, Intensive care, medicine, Animals, Humans, Pseudomonas Infections, Cyclophosphamide, General Veterinary, General Immunology and Microbiology, biology, Pseudomonas aeruginosa, Public Health, Environmental and Occupational Health, Antibody titer, Antibodies, Monoclonal, Virology, Molecular Weight, Infectious Diseases, biology.protein, Molecular Medicine, Immunization, Antibody, Immunosuppressive Agents
Abstract

Pseudomonas aeruginosa is a serious human pathogen in a variety of patient groups including those with burns, hospitalized in intensive care, cystic fibrosis and neutropenia. Since there is no vaccine available, passive antibody prophylaxis against protective epitopes is an alternative strategy to prevent P. aeruginosa infection. However, immunoglobulin derived from multiple donors has variable anti-pseudomonas antibody titers, and human Mab are difficult to make from patient samples. We previously reported the use of XenoMouse mice, Ig-inactivated transgenic mice reconstituted with human immunoglobulin loci, to generate human Mab against a single serotype of P. aeruginosa lipopolysaccharide O-specific side chain (PS). We now report the creation of a panel of anti-PS human IgG2 Mab against nine additional O-specific side chain P. aeruginosa serotypes. The majority of the Mab were highly opsonic for uptake and killing of homologous P. aeruginosa by human PMN in the presence of human complement, and all the Mab protected cyclophosphamide-induced neutropenic mice from fatal P. aeruginosa sepsis with homologous serotypes. DNA sequence analysis showed that the Mab used V(H)3, V(H)4, V(H)5 and V(H)6 and Vkappa2, 3 and 4 variable region genes consistent with the heterogeneity of P. aeruginosa LPS O-side chain structure. We conclude that human Mab made in these transgenic mice against common pathogenic serotypes of P. aeruginosa are opsonic and highly protective, and that a high titer, multi-valent human Mab preparation against the majority of circulating O-side chain serotypes of P. aeruginosa could be used as prophylaxis against invasive infections in selected patient groups.

Published
2005

7. Meeting summary

Author

Trautmann M, Richard I. Walker, Cebra Jj, Gerald B. Pier, Giannasca Pj, Cross As, Blanchard T, Braun Jm, Johannes Huebner, von Specht Bu, Fattom A, Romani L, Holder Ia, and Matthews R

Subjects
Vaccination, medicine.medical_specialty, Infectious Diseases, Antibiotic resistance, General Veterinary, General Immunology and Microbiology, business.industry, Family medicine, Public Health, Environmental and Occupational Health, medicine, Molecular Medicine, Acute diseases, business
Abstract

Opportunistic pathogens present an ever-growing threat to mankind in spite of numerous medical advances. This event is a consequence of an increase in bacterial resistance to commonly used antibiotics all over the world as well as a greater survival of individuals immunocompromised by chronic and acute diseases or injuries. To meet this challenge, the International Study Group for New Antimicrobial Strategies (ISGNAS) took a fresh look at the possibilities for vaccination against opportunistic infections. Although this approach to control these infections has been a goal for many years, to date there are no licensed products available for this purpose. Based on the results presented at an ISGNAS-sponsored meeting in Herborn, Germany, June 23-25, 2003, there is now reason to hope that this situation could change. This volume of the Old Herborn University Seminar Monographs constitutes the report of that meeting. The meeting consisted of one day of formal reports followed by discussion among the conference faculty. The major points presented during this meeting are summarised below.

Published
2004

8. Refers to: J.-P. Rasigade, N. Sicot, F. Laurent, G. Lina, F. Vandenesch, J. Etienne, A history of Panton-Valentine leukocidin (PVL)-associated infection protects against death in PVL-associated pneumonia, Vaccine 29 (25) (2011) 4185-4186

Author

Gerald B. Pier

Subjects
Leukocidins, Microbial toxins, Staphylococcus aureus, General Veterinary, General Immunology and Microbiology, business.industry, Virulence Factors, Bacterial Toxins, Public Health, Environmental and Occupational Health, Exotoxins, medicine.disease, medicine.disease_cause, Virology, Microbiology, Pneumonia, Infectious Diseases, Pneumonia, Staphylococcal, medicine, Molecular Medicine, Humans, Panton–Valentine leukocidin, business
Published
2011

9. A Yersinia pestis lpxM-mutant live vaccine induces enhanced immunity against bubonic plague in mice and guinea pigs

Author

Olga V. Bystrova, Nina A. Kocharova, Andrey P. Anisimov, L. V. Sayapina, Rima Z. Shaikhutdinova, Anna N. Kondakova, Y. A. Knirel, L. N. Pan'kina, B. Lindner, Otto Holst, E. P. Savostina, Valentina A. Feodorova, S. A. Ivanov, Gerald B. Pier, Sof'ya N. Senchenkova, Vladimir L. Motin, and Svetlana V. Dentovskaya

Subjects
Lipopolysaccharide, Yersinia pestis, Guinea Pigs, Virulence, Biology, Vaccines, Attenuated, Microbiology, Guinea pig, chemistry.chemical_compound, Mice, Immunity, medicine, Animals, Mice, Inbred BALB C, Plague, Plague Vaccine, Attenuated vaccine, General Veterinary, General Immunology and Microbiology, Public Health, Environmental and Occupational Health, Yersiniosis, biology.organism_classification, medicine.disease, Enterobacteriaceae, Virology, Infectious Diseases, Lipid A, chemistry, Molecular Medicine, Female, Gene Deletion
Abstract

The lpxM mutant of the live vaccine Yersinia pestis EV NIIEG strain synthesising a less toxic penta-acylated lipopolysaccharide was found to be avirulent in mice and guinea pigs, notably showing no measurable virulence in Balb/c mice which do retain some susceptibility to the parental strain itself. Twenty-one days after a single injection of the lpxM-mutant, 85-100% protection was achieved in outbred mice and guinea pigs, whereas a 43% protection rate was achieved in Balb/c mice given single low doses (10(3) to 2.5 x 10(4) CFU) of this vaccine. A subcutaneous challenge with 2000 median lethal doses (equal to 20,000 CFU) of fully virulent Y. pestis 231 strain, is a 6-10-fold higher dose than that which the EV NIIEG itself can protect against.

Published
2007

10. Biologic properties and vaccine potential of the staphylococcal poly-N-acetyl glucosamine surface polysaccharide

Author

Tomas Maira-Litran, Donald A. Goldmann, Andrea Kropec, and Gerald B. Pier

Subjects
Micrococcaceae, Staphylococcus, Virulence, medicine.disease_cause, Staphylococcal infections, Microbiology, Acetylglucosamine, chemistry.chemical_compound, Antibiotic resistance, Glucosamine, medicine, Animals, Humans, General Veterinary, General Immunology and Microbiology, biology, Public Health, Environmental and Occupational Health, Staphylococcal Vaccines, Staphylococcal Infections, biology.organism_classification, medicine.disease, Virology, Infectious Diseases, chemistry, Staphylococcus aureus, Molecular Medicine, Bacteria
Abstract

Staphylococci have become the most common causes of nosocomial bacterial infections, and this fact, along with increasing problems associated with antimicrobial resistance, spurs the need for finding immunotherapeutic alternatives to prevent and possibly treat these infections. Most virulent, clinical isolates of both coagulase-negative staphylococci (CoNS) and Staphylococcus aureus carry the ica locus which encodes proteins that synthesize a polymer of beta-1-6 linked N-acetyl glucosamine residues (PNAG). Animal studies have shown purified PNAG can elicit protective immunity against both CoNS and S. aureus, suggesting its potential as a broadly protective vaccine for many clinically important strains of staphylococci.

Published
2004

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