Literature DB >> 20002212

Extensive major histocompatibility complex class I binding promiscuity for Mycobacterium tuberculosis TB10.4 peptides and immune dominance of human leucocyte antigen (HLA)-B*0702 and HLA-B*0801 alleles in TB10.4 CD8 T-cell responses.

Rebecca Axelsson-Robertson1, Frank Weichold, Donata Sizemore, Markus Wulf, Yasir A W Skeiky, Jerry Sadoff, Markus J Maeurer.   

Abstract

The molecular definition of major histocompatibility complex (MHC) class I-presented CD8(+) T-cell epitopes from clinically relevant Mycobacterium tuberculosis (Mtb) target proteins will aid in the rational design of T-cell-based diagnostics of tuberculosis (TB) and the measurement of TB vaccine-take. We used an epitope discovery system, based on recombinant MHC class I molecules that cover the most frequent Caucasian alleles [human leucocyte antigen (HLA)-A*0101, A*0201, A*0301, A*1101, A*2402, B*0702, B*0801 and B*1501], to identify MHC class I-binding peptides from overlapping 9-mer peptides representing the Mtb protein TB10.4. A total of 33 MHC class I-binding epitopes were identified, spread across the entire amino acid sequence, with some clustering at the N- and C-termini of the protein. Binding of individual peptides or closely related peptide species to different MHC class I alleles was frequently observed. For instance, the common motif of xIMYNYPAMx bound to six of eight alleles. Affinity (50% effective dose) and off-rate (half life) analysis of candidate Mtb peptides will help to define the conditions for CD8(+) T-cell interaction with their nominal MHC class I-peptide ligands. Subsequent construction of tetramers allowed us to confirm the recognition of some of the epitopes by CD8(+) T cells from patients with active pulmonary TB. HLA-B alleles served as the dominant MHC class I restricting molecules for anti-Mtb TB10.4-specific CD8(+) T-cell responses measured in CD8(+) T cells from patients with pulmonary TB.

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Year:  2009        PMID: 20002212      PMCID: PMC2842496          DOI: 10.1111/j.1365-2567.2009.03201.x

Source DB:  PubMed          Journal:  Immunology        ISSN: 0019-2805            Impact factor:   7.397


  42 in total

1.  Memory CD8+ T cell differentiation: initial antigen encounter triggers a developmental program in naïve cells.

Authors:  S M Kaech; R Ahmed
Journal:  Nat Immunol       Date:  2001-05       Impact factor: 25.606

Review 2.  Nine major HLA class I supertypes account for the vast preponderance of HLA-A and -B polymorphism.

Authors:  A Sette; J Sidney
Journal:  Immunogenetics       Date:  1999-11       Impact factor: 2.846

Review 3.  Immunology of tuberculosis.

Authors:  J L Flynn; J Chan
Journal:  Annu Rev Immunol       Date:  2001       Impact factor: 28.527

Review 4.  CD8+ T cells in tuberculosis.

Authors:  Vanja Lazarevic; JoAnne Flynn
Journal:  Am J Respir Crit Care Med       Date:  2002-10-15       Impact factor: 21.405

5.  Reduced T-cell receptor CD3zeta-chain protein and sustained CD3epsilon expression at the site of mycobacterial infection.

Authors:  U Seitzer; K Kayser; H Höhn; P Entzian; H H Wacker; S Ploetz; H D Flad; J Gerdes; M J Maeurer
Journal:  Immunology       Date:  2001-11       Impact factor: 7.397

6.  Negligible genetic diversity of mycobacterium tuberculosis host immune system protein targets: evidence of limited selective pressure.

Authors:  J M Musser; A Amin; S Ramaswamy
Journal:  Genetics       Date:  2000-05       Impact factor: 4.562

7.  Identification of major epitopes of Mycobacterium tuberculosis AG85B that are recognized by HLA-A*0201-restricted CD8+ T cells in HLA-transgenic mice and humans.

Authors:  A Geluk; K E van Meijgaarden; K L Franken; J W Drijfhout; S D'Souza; A Necker; K Huygen; T H Ottenhoff
Journal:  J Immunol       Date:  2000-12-01       Impact factor: 5.422

8.  Epitope mapping of the immunodominant antigen TB10.4 and the two homologous proteins TB10.3 and TB12.9, which constitute a subfamily of the esat-6 gene family.

Authors:  Rikke Louise Vinther Skjøt; Inger Brock; Sandra M Arend; Martin E Munk; Michael Theisen; Tom H M Ottenhoff; Peter Andersen
Journal:  Infect Immun       Date:  2002-10       Impact factor: 3.441

9.  Two-step binding mechanism for T-cell receptor recognition of peptide MHC.

Authors:  Lawren C Wu; Delphine S Tuot; Daniel S Lyons; K Christopher Garcia; Mark M Davis
Journal:  Nature       Date:  2002-08-01       Impact factor: 49.962

10.  Harmonization guidelines for HLA-peptide multimer assays derived from results of a large scale international proficiency panel of the Cancer Vaccine Consortium.

Authors:  Cedrik Michael Britten; Sylvia Janetzki; Leah Ben-Porat; Timothy M Clay; Michael Kalos; Holden Maecker; Kunle Odunsi; Michael Pride; Lloyd Old; Axel Hoos; Pedro Romero
Journal:  Cancer Immunol Immunother       Date:  2009-03-04       Impact factor: 6.968
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  29 in total

Review 1.  Antigens for CD4 and CD8 T cells in tuberculosis.

Authors:  Cecilia S Lindestam Arlehamn; David Lewinsohn; Alessandro Sette; Deborah Lewinsohn
Journal:  Cold Spring Harb Perspect Med       Date:  2014-05-22       Impact factor: 6.915

Review 2.  Orchestration of pulmonary T cell immunity during Mycobacterium tuberculosis infection: immunity interruptus.

Authors:  Samuel M Behar; Stephen M Carpenter; Matthew G Booty; Daniel L Barber; Pushpa Jayaraman
Journal:  Semin Immunol       Date:  2014-10-11       Impact factor: 11.130

3.  In silico and cell-based analyses reveal strong divergence between prediction and observation of T-cell-recognized tumor antigen T-cell epitopes.

Authors:  Julien Schmidt; Philippe Guillaume; Danijel Dojcinovic; Julia Karbach; George Coukos; Immanuel Luescher
Journal:  J Biol Chem       Date:  2017-05-23       Impact factor: 5.157

4.  Induction of an Immune-Protective T-Cell Repertoire With Diverse Genetic Coverage by a Novel Viral-Vectored Tuberculosis Vaccine in Humans.

Authors:  Mangalakumari Jeyanathan; Daniela Damjanovic; Yushi Yao; Jonathan Bramson; Fiona Smaill; Zhou Xing
Journal:  J Infect Dis       Date:  2016-10-04       Impact factor: 5.226

5.  Insights into HLA-restricted T cell responses in a novel mouse model of dengue virus infection point toward new implications for vaccine design.

Authors:  Daniela Weiskopf; Lauren E Yauch; Michael A Angelo; Daisy V John; Jason A Greenbaum; John Sidney; Ravi V Kolla; Aruna D De Silva; Aravinda M de Silva; Howard Grey; Bjoern Peters; Sujan Shresta; Alessandro Sette
Journal:  J Immunol       Date:  2011-09-14       Impact factor: 5.422

6.  The polyomavirus BK large T-antigen-derived peptide elicits an HLA-DR promiscuous and polyfunctional CD4+ T-cell response.

Authors:  Bala Ramaswami; Iulia Popescu; Camila Macedo; Chunqing Luo; Ron Shapiro; Diana Metes; Geetha Chalasani; Parmjeet S Randhawa
Journal:  Clin Vaccine Immunol       Date:  2011-03-02

7.  Chinese origin rhesus macaque major histocompatibility complex class I molecules promiscuously present epitopes from SIV associated with molecules of Indian origin; implications for immunodominance and viral escape.

Authors:  Nicholas James Maness; Andrew D Walsh; Richard A Rudersdorf; Priscilla A Erickson; Shari M Piaskowski; Nancy A Wilson; David I Watkins
Journal:  Immunogenetics       Date:  2011-05-31       Impact factor: 2.846

8.  Human leukocyte antigens A*3001 and A*3002 show distinct peptide-binding patterns of the Mycobacterium tuberculosis protein TB10.4: consequences for immune recognition.

Authors:  Rebecca Axelsson-Robertson; Raija K Ahmed; Frank F Weichold; Marthie M Ehlers; Marleen M Kock; Donata Sizemore; Jerry Sadoff; Markus Maeurer
Journal:  Clin Vaccine Immunol       Date:  2010-11-17

9.  HLA class I allele promiscuity revisited.

Authors:  Xiangyu Rao; Ilka Hoof; Ana Isabel C A Fontaine Costa; Debbie van Baarle; Can Keşmir
Journal:  Immunogenetics       Date:  2011-06-22       Impact factor: 2.846

10.  Functional classification of class II human leukocyte antigen (HLA) molecules reveals seven different supertypes and a surprising degree of repertoire sharing across supertypes.

Authors:  Jason Greenbaum; John Sidney; Jolan Chung; Christian Brander; Bjoern Peters; Alessandro Sette
Journal:  Immunogenetics       Date:  2011-02-09       Impact factor: 2.846
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