Literature DB >> 15155617

Comparative analysis of B- and T-cell epitopes of Mycobacterium leprae and Mycobacterium tuberculosis culture filtrate protein 10.

John S Spencer1, Hee Jin Kim, Angela M Marques, Mercedes Gonzalez-Juarerro, Monica C B S Lima, Varalakshmi D Vissa, Richard W Truman, Maria Laura Gennaro, Sang-Nae Cho, Stewart T Cole, Patrick J Brennan.   

Abstract

Culture filtrate protein 10 (CFP-10) from Mycobacterium tuberculosis is a well-characterized immunodominant 10-kDa protein antigen known to elicit a very potent early gamma interferon response in T cells from M. tuberculosis-infected mice and humans. The sequence of the Mycobacterium leprae homologue of CFP-10 shows only 40% identity (60% homology) at the protein level with M. tuberculosis CFP-10 and thus has the potential for development as a T- or B-cell reactive antigen for specific diagnosis of leprosy. Antisera raised in mice or rabbits against recombinant M. leprae and M. tuberculosis CFP-10 proteins reacted only with homologous peptides from arrays of overlapping synthetic peptides, indicating that there was no detectable cross-reactivity at the antibody level. Sera from leprosy and tuberculosis patients were also specific for the homologous protein or peptides and showed distinct patterns of recognition for either M. leprae or M. tuberculosis CFP-10 peptides. At the cellular level, only 2 of 45 mouse T-cell hybridomas raised against either M. leprae or M. tuberculosis CFP-10 displayed a cross-reactive response against the N-terminal heterologous CFP-10 peptide, the region that exhibits the highest level of identity in the two proteins; however, the majority of peptide epitopes recognized by mouse T-cell hybridomas specific for each protein did not cross-react with heterologous peptides. Coupled with the human serology data, these results raise the possibility that peptides that could be used to differentiate infections caused by these two related microorganisms could be developed. Immunohistochemical staining of sections of M. leprae-infected nude mouse footpads resulted in strongly positive staining in macrophages and dendritic cells, as well as weaker staining in extracellular areas, suggesting that M. leprae CFP-10, like its homologue in M. tuberculosis, is a secreted protein.

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Year:  2004        PMID: 15155617      PMCID: PMC415692          DOI: 10.1128/IAI.72.6.3161-3170.2004

Source DB:  PubMed          Journal:  Infect Immun        ISSN: 0019-9567            Impact factor:   3.441


  45 in total

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Journal:  Nature       Date:  1991-10-17       Impact factor: 49.962

Review 2.  Interactions between immunogenic peptides and MHC proteins.

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Journal:  Annu Rev Immunol       Date:  1991       Impact factor: 28.527

3.  T-cell antigenic sites tend to be amphipathic structures.

Authors:  C DeLisi; J A Berzofsky
Journal:  Proc Natl Acad Sci U S A       Date:  1985-10       Impact factor: 11.205

4.  The antigenic index: a novel algorithm for predicting antigenic determinants.

Authors:  B A Jameson; H Wolf
Journal:  Comput Appl Biosci       Date:  1988-03

5.  Two better cell lines for making hybridomas expressing specific T cell receptors.

Authors:  J White; M Blackman; J Bill; J Kappler; P Marrack; D P Gold; W Born
Journal:  J Immunol       Date:  1989-09-15       Impact factor: 5.422

6.  Detection of phenolic glycolipid I of Mycobacterium leprae and antibodies to the antigen in sera from leprosy patients and their contacts.

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Journal:  Yonsei Med J       Date:  1988       Impact factor: 2.759

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Authors:  A Sette; S Buus; S Colon; C Miles; H M Grey
Journal:  J Immunol       Date:  1988-07-01       Impact factor: 5.422

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Authors:  S W Hunter; B Rivoire; V Mehra; B R Bloom; P J Brennan
Journal:  J Biol Chem       Date:  1990-08-25       Impact factor: 5.157

9.  Measurement of protein using bicinchoninic acid.

Authors:  P K Smith; R I Krohn; G T Hermanson; A K Mallia; F H Gartner; M D Provenzano; E K Fujimoto; N M Goeke; B J Olson; D C Klenk
Journal:  Anal Biochem       Date:  1985-10       Impact factor: 3.365

10.  Structural mutation affecting intracellular transport and cell surface expression of murine class II molecules.

Authors:  I J Griffith; N Nabavi; Z Ghogawala; C G Chase; M Rodriguez; D J McKean; L H Glimcher
Journal:  J Exp Med       Date:  1988-02-01       Impact factor: 14.307
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  15 in total

1.  Lsr2 peptides of Mycobacterium leprae show hierarchical responses in lymphoproliferative assays, with selective recognition by patients with anergic lepromatous leprosy.

Authors:  Mehervani Chaduvula; A Murtaza; Namita Misra; N P Shankar Narayan; V Ramesh; H K Prasad; Rajni Rani; R K Chinnadurai; Indira Nath
Journal:  Infect Immun       Date:  2011-12-05       Impact factor: 3.441

2.  Postgenomic approach to identify novel Mycobacterium leprae antigens with potential to improve immunodiagnosis of infection.

Authors:  Annemieke Geluk; Michèl R Klein; Kees L M C Franken; Krista E van Meijgaarden; Brigitte Wieles; Kelly Cristina Pereira; Samira Bührer-Sékula; Paul R Klatser; Patrick J Brennan; John S Spencer; Diana L Williams; Maria C V Pessolani; Elizabeth P Sampaio; Tom H M Ottenhoff
Journal:  Infect Immun       Date:  2005-09       Impact factor: 3.441

3.  Antigen discovery: a postgenomic approach to leprosy diagnosis.

Authors:  Romulo Aráoz; Nadine Honoré; Sungae Cho; Jong-Pill Kim; Sang-Nae Cho; Marc Monot; Caroline Demangel; Patrick J Brennan; Stewart T Cole
Journal:  Infect Immun       Date:  2006-01       Impact factor: 3.441

4.  Gene expression profile and immunological evaluation of unique hypothetical unknown proteins of Mycobacterium leprae by using quantitative real-time PCR.

Authors:  Hee Jin Kim; Kalyani Prithiviraj; Nathan Groathouse; Patrick J Brennan; John S Spencer
Journal:  Clin Vaccine Immunol       Date:  2012-12-12

5.  Analysis of antibody responses to Mycobacterium leprae phenolic glycolipid I, lipoarabinomannan, and recombinant proteins to define disease subtype-specific antigenic profiles in leprosy.

Authors:  John S Spencer; Hee Jin Kim; William H Wheat; Delphi Chatterjee; Marivic V Balagon; Roland V Cellona; Esterlina V Tan; Robert Gelber; Paul Saunderson; Malcolm S Duthie; Stephen T Reece; William Burman; Robert Belknap; William R Mac Kenzie; Annemieke Geluk; Linda Oskam; Hazel M Dockrell; Patrick J Brennan
Journal:  Clin Vaccine Immunol       Date:  2010-12-22

6.  Use of protein microarrays to define the humoral immune response in leprosy patients and identification of disease-state-specific antigenic profiles.

Authors:  Nathan A Groathouse; Amol Amin; Maria Angela M Marques; John S Spencer; Robert Gelber; Dennis L Knudson; John T Belisle; Patrick J Brennan; Richard A Slayden
Journal:  Infect Immun       Date:  2006-09-11       Impact factor: 3.441

7.  Phenotypic profiling of Mycobacterium tuberculosis EspA point mutants reveals that blockage of ESAT-6 and CFP-10 secretion in vitro does not always correlate with attenuation of virulence.

Authors:  Jeffrey M Chen; Ming Zhang; Jan Rybniker; Laetitia Basterra; Neeraj Dhar; Anna D Tischler; Florence Pojer; Stewart T Cole
Journal:  J Bacteriol       Date:  2013-09-27       Impact factor: 3.490

8.  Risk and protective factors for leprosy development determined by epidemiological surveillance of household contacts.

Authors:  Isabela M B Goulart; Dulcinéa O Bernardes Souza; Carolina R Marques; Vânia L Pimenta; Maria A Gonçalves; Luiz R Goulart
Journal:  Clin Vaccine Immunol       Date:  2007-11-07

9.  Proposing low-similarity peptide vaccines against Mycobacterium tuberculosis.

Authors:  Guglielmo Lucchese; Angela Stufano; Darja Kanduc
Journal:  J Biomed Biotechnol       Date:  2010-06-03

10.  Rational combination of peptides derived from different Mycobacterium leprae proteins improves sensitivity for immunodiagnosis of M. leprae infection.

Authors:  Annemieke Geluk; Jolien van der Ploeg; Rose O B Teles; Kees L M C Franken; Corine Prins; Jan Wouter Drijfhout; Euzenir N Sarno; Elizabeth P Sampaio; Tom H M Ottenhoff
Journal:  Clin Vaccine Immunol       Date:  2008-01-16
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