Literature DB >> 22959960

Proteomic identification of immunodominant chlamydial antigens in a mouse model.

Andy Teng1, Maria I Cruz-Fisher, Chunmei Cheng, Sukumar Pal, Guifeng Sun, Pooja Ralli-Jain, Douglas M Molina, Philip L Felgner, Xiaowu Liang, Luis M de la Maza.   

Abstract

Chlamydia trachomatis is the most common bacterial sexually transmitted pathogen in the world. To identify new vaccine candidates a protein microarray was constructed by expressing the open reading frames (ORFs) from Chlamydia mouse pneumonitis (MoPn). C57BL/6, C3H/HeN and BALB/c mice were immunized either intranasally or intravaginally with live MoPn elementary bodies (EB). Two additional groups were immunized by the intramuscular plus subcutaneous routes with UV-treated EB, using CpG and Montanide as adjuvants to favor a Th1 response, or Alum, to elicit a Th2 response. Serum samples collected from the three strains of mice were tested in the microarray. The array included the expression of 909 proteins from the 921 ORFs of the MoPn genome and plasmid. A total of 530 ORFs were recognized by at least one serum sample. Of these, 36 reacted with sera from the three strains of mice immunized with live EB. These antigens included proteins that were previously described as immunogenic such as MOMP and HSP60. In addition, we uncovered new immunogens, including 11 hypothetical proteins. In summary, we have identified new immunodominant chlamydial proteins that can be tested for their ability to induce protection in animal models and subsequently in humans.
Copyright © 2012 Elsevier B.V. All rights reserved.

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Year:  2012        PMID: 22959960      PMCID: PMC3575745          DOI: 10.1016/j.jprot.2012.08.017

Source DB:  PubMed          Journal:  J Proteomics        ISSN: 1874-3919            Impact factor:   4.044


  61 in total

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Authors:  S P Fling; R A Sutherland; L N Steele; B Hess; S E D'Orazio; J Maisonneuve; M F Lampe; P Probst; M N Starnbach
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3.  Prediction of pelvic inflammatory disease among young, single, sexually active women.

Authors:  Roberta B Ness; Kenneth J Smith; Chung-Chou H Chang; Enrique F Schisterman; Debra C Bass
Journal:  Sex Transm Dis       Date:  2006-03       Impact factor: 2.830

4.  Amphipols stabilize the Chlamydia major outer membrane protein and enhance its protective ability as a vaccine.

Authors:  Delia F Tifrea; Guifeng Sun; Sukumar Pal; Gustavo Zardeneta; Melanie J Cocco; Jean-Luc Popot; Luis M de la Maza
Journal:  Vaccine       Date:  2011-05-06       Impact factor: 3.641

5.  Effectiveness of inpatient and outpatient treatment strategies for women with pelvic inflammatory disease: results from the Pelvic Inflammatory Disease Evaluation and Clinical Health (PEACH) Randomized Trial.

Authors:  Roberta B Ness; David E Soper; Robert L Holley; Jeffrey Peipert; Hugh Randall; Richard L Sweet; Steven J Sondheimer; Susan L Hendrix; Antonio Amortegui; Giuliana Trucco; Thomas Songer; Judith R Lave; Sharon L Hillier; Debra C Bass; Sheryl F Kelsey
Journal:  Am J Obstet Gynecol       Date:  2002-05       Impact factor: 8.661

6.  Identification of immunodominant antigens by probing a whole Chlamydia trachomatis open reading frame proteome microarray using sera from immunized mice.

Authors:  Maria I Cruz-Fisher; Chunmei Cheng; Guifeng Sun; Sukumar Pal; Andy Teng; Douglas M Molina; Matthew A Kayala; Adam Vigil; Pierre Baldi; Philip L Felgner; Xiaowu Liang; Luis M de la Maza
Journal:  Infect Immun       Date:  2010-10-18       Impact factor: 3.441

7.  Genetically determined differences in IL-10 and IFN-gamma responses correlate with clearance of Chlamydia trachomatis mouse pneumonitis infection.

Authors:  X Yang; K T HayGlass; R C Brunham
Journal:  J Immunol       Date:  1996-06-01       Impact factor: 5.422

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Authors: 
Journal:  MMWR Morb Mortal Wkly Rep       Date:  2009-04-17       Impact factor: 17.586

9.  Pelvic inflammatory disease and fertility. A cohort study of 1,844 women with laparoscopically verified disease and 657 control women with normal laparoscopic results.

Authors:  L Weström; R Joesoef; G Reynolds; A Hagdu; S E Thompson
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10.  Protection against ascending infection of the genital tract by Chlamydia trachomatis is associated with recruitment of major histocompatibility complex class II antigen-presenting cells into uterine tissue.

Authors:  A J Stagg; M Tuffrey; C Woods; E Wunderink; S C Knight
Journal:  Infect Immun       Date:  1998-08       Impact factor: 3.441
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  13 in total

1.  Defining species-specific immunodominant B cell epitopes for molecular serology of Chlamydia species.

Authors:  K Shamsur Rahman; Erfan U Chowdhury; Anil Poudel; Anke Ruettger; Konrad Sachse; Bernhard Kaltenboeck
Journal:  Clin Vaccine Immunol       Date:  2015-03-11

Review 2.  A re-evaluation of the role of B cells in protective immunity to Chlamydia infection.

Authors:  Lin-Xi Li; Stephen J McSorley
Journal:  Immunol Lett       Date:  2015-02-20       Impact factor: 3.685

Review 3.  Update on Chlamydia trachomatis Vaccinology.

Authors:  Luis M de la Maza; Guangming Zhong; Robert C Brunham
Journal:  Clin Vaccine Immunol       Date:  2017-04-05

4.  Reduced Endometrial Ascension and Enhanced Reinfection Associated With Immunoglobulin G Antibodies to Specific Chlamydia trachomatis Proteins in Women at Risk for Chlamydia.

Authors:  Chuwen Liu; Katrin Hufnagel; Catherine M O'Connell; Nilu Goonetilleke; Neha Mokashi; Tim Waterboer; Tammy S Tollison; Xinxia Peng; Harold C Wiesenfeld; Sharon L Hillier; Xiaojing Zheng; Toni Darville
Journal:  J Infect Dis       Date:  2022-03-02       Impact factor: 7.759

5.  Assessment of the role in protection and pathogenesis of the Chlamydia muridarum V-type ATP synthase subunit A (AtpA) (TC0582).

Authors:  Chunmei Cheng; Pooja Jain; Sukumar Pal; Delia Tifrea; Guifeng Sun; Andy A Teng; Xiaowu Liang; Philip L Felgner; Luis M de la Maza
Journal:  Microbes Infect       Date:  2013-10-23       Impact factor: 2.700

6.  Comparison of the nine polymorphic membrane proteins of Chlamydia trachomatis for their ability to induce protective immune responses in mice against a C. muridarum challenge.

Authors:  Sukumar Pal; Alison Favaroni; Delia F Tifrea; Philipp T Hanisch; Sören E T Luczak; Johannes H Hegemann; Luis M de la Maza
Journal:  Vaccine       Date:  2017-04-03       Impact factor: 3.641

7.  Profiling and validation of individual and patterns of Chlamydia trachomatis-specific antibody responses in trachomatous trichiasis.

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8.  Whole genome identification of C. trachomatis immunodominant antigens after genital tract infections and effect of antibiotic treatment of pigtailed macaques.

Authors:  Dorothy L Patton; Andy Teng; Arlo Randall; Xiaowu Liang; Philip L Felgner; Luis M de la Maza
Journal:  J Proteomics       Date:  2014-05-24       Impact factor: 4.044

9.  Escherichia coli Nissle 1917 bacterial ghosts retain crucial surface properties and express chlamydial antigen: an imaging study of a delivery system for the ocular surface.

Authors:  Jacqueline Montanaro; Aleksandra Inic-Kanada; Angela Ladurner; Elisabeth Stein; Sandra Belij; Nora Bintner; Simone Schlacher; Nadine Schuerer; Ulrike Beate Mayr; Werner Lubitz; Nikolaus Leisch; Talin Barisani-Asenbauer
Journal:  Drug Des Devel Ther       Date:  2015-07-21       Impact factor: 4.162

10.  Genome-wide profiling of humoral immunity and pathogen genes under selection identifies immune evasion tactics of Chlamydia trachomatis during ocular infection.

Authors:  Harry Pickering; Andy Teng; Nkoyo Faal; Hassan Joof; Pateh Makalo; Eunice Cassama; Meno Nabicassa; Anna R Last; Sarah E Burr; Sarah L Rowland-Jones; Nicholas R Thomson; Chrissy H Roberts; David C W Mabey; Robin L Bailey; Richard D Hayward; Luis M de la Maza; Martin J Holland
Journal:  Sci Rep       Date:  2017-08-29       Impact factor: 4.379
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