Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Lack of Heterologous Cross-reactivity toward HLA-A*02:01 Restricted Viral Epitopes Is Underpinned by Distinct αβT Cell Receptor Signatures.

Literature DB >> 27645996

Lack of Heterologous Cross-reactivity toward HLA-A*02:01 Restricted Viral Epitopes Is Underpinned by Distinct αβT Cell Receptor Signatures.

Emma J Grant¹, Tracy M Josephs^2,3, Sophie A Valkenburg¹, Linda Wooldridge⁴, Margaret Hellard⁵, Jamie Rossjohn^2,3,6, Mandvi Bharadwaj¹, Katherine Kedzierska⁷, Stephanie Gras^8,3.

Abstract

αβT cell receptor (TCR) genetic diversity is outnumbered by the quantity of pathogenic epitopes to be recognized. To provide efficient protective anti-viral immunity, a single TCR ideally needs to cross-react with a multitude of pathogenic epitopes. However, the frequency, extent, and mechanisms of TCR cross-reactivity remain unclear, with conflicting results on anti-viral T cell cross-reactivity observed in humans. Namely, both the presence and lack of T cell cross-reactivity have been reported with HLA-A*02:01-restricted epitopes from the Epstein-Barr and influenza viruses (BMLF-1 and M158, respectively) or with the hepatitis C and influenza viruses (NS31073 and NA231, respectively). Given the high sequence similarity of these paired viral epitopes (56 and 88%, respectively), the ubiquitous nature of the three viruses, and the high frequency of the HLA-A*02:01 allele, we selected these epitopes to establish the extent of T cell cross-reactivity. We combined ex vivo and in vitro functional assays, single-cell αβTCR repertoire sequencing, and structural analysis of these four epitopes in complex with HLA-A*02:01 to determine whether they could lead to heterologous T cell cross-reactivity. Our data show that sequence similarity does not translate to structural mimicry of the paired epitopes in complexes with HLA-A*02:01, resulting in induction of distinct αβTCR repertoires. The differences in epitope architecture might be an obstacle for TCR recognition, explaining the lack of T cell cross-reactivity observed. In conclusion, sequence similarity does not necessarily result in structural mimicry, and despite the need for cross-reactivity, antigen-specific TCR repertoires can remain highly specific.

Entities: Disease Gene Species

Keywords: Epstein-Barr virus; Hepatitis C virus (HCV); Human Leukocyte Antigen; T cell immunity; cellular immune response; influenza virus; lymphocyte; major histocompatibility complex (MHC); viral immunology

Mesh：

Substances：

Year: 2016 PMID： 27645996 PMCID： PMC5114392 DOI： 10.1074/jbc.M116.753988

Source DB: PubMed Journal: J Biol Chem ISSN： 0021-9258 Impact factor: 5.157

54 in total

1. Memory CD8+ T cells in heterologous antiviral immunity and immunopathology in the lung.

Authors: H D Chen; A E Fraire; I Joris; M A Brehm; R M Welsh; L K Selin
Journal: Nat Immunol Date: 2001-11 Impact factor: 25.606

2. T cell immunodominance and maintenance of memory regulated by unexpectedly cross-reactive pathogens.

Authors: Michael A Brehm; Amelia K Pinto; Keith A Daniels; Jonathan P Schneck; Raymond M Welsh; Liisa K Selin
Journal: Nat Immunol Date: 2002-06-03 Impact factor: 25.606

3. How a single T cell receptor recognizes both self and foreign MHC.

Authors: Leremy A Colf; Alexander J Bankovich; Nicole A Hanick; Natalie A Bowerman; Lindsay L Jones; David M Kranz; K Christopher Garcia
Journal: Cell Date: 2007-04-06 Impact factor: 41.582

4. T cell allorecognition via molecular mimicry.

Authors: Whitney A Macdonald; Zhenjun Chen; Stephanie Gras; Julia K Archbold; Fleur E Tynan; Craig S Clements; Mandvi Bharadwaj; Lars Kjer-Nielsen; Philippa M Saunders; Matthew C J Wilce; Fran Crawford; Brian Stadinsky; David Jackson; Andrew G Brooks; Anthony W Purcell; John W Kappler; Scott R Burrows; Jamie Rossjohn; James McCluskey
Journal: Immunity Date: 2009-12-18 Impact factor: 31.745

5. Structural basis of plasticity in T cell receptor recognition of a self peptide-MHC antigen.

Authors: K C Garcia; M Degano; L R Pease; M Huang; P A Peterson; L Teyton; I A Wilson
Journal: Science Date: 1998-02-20 Impact factor: 47.728

6. Recognition of distinct cross-reactive virus-specific CD8+ T cells reveals a unique TCR signature in a clinical setting.

Authors: Thi H O Nguyen; Louise C Rowntree; Daniel G Pellicci; Nicola L Bird; Andreas Handel; Lars Kjer-Nielsen; Katherine Kedzierska; Tom C Kotsimbos; Nicole A Mifsud
Journal: J Immunol Date: 2014-04-28 Impact factor: 5.422

7. Genetic and structural basis for selection of a ubiquitous T cell receptor deployed in Epstein-Barr virus infection.

Authors: John J Miles; Anna M Bulek; David K Cole; Emma Gostick; Andrea J A Schauenburg; Garry Dolton; Vanessa Venturi; Miles P Davenport; Mai Ping Tan; Scott R Burrows; Linda Wooldridge; David A Price; Pierre J Rizkallah; Andrew K Sewell
Journal: PLoS Pathog Date: 2010-11-18 Impact factor: 6.823

8. Generation of T-cell receptors targeting a genetically stable and immunodominant cytotoxic T-lymphocyte epitope within hepatitis C virus non-structural protein 3.

Authors: Anna Pasetto; Lars Frelin; Anette Brass; Anila Yasmeen; Sarene Koh; Volker Lohmann; Ralf Bartenschlager; Isabelle Magalhaes; Markus Maeurer; Matti Sällberg; Margaret Chen
Journal: J Gen Virol Date: 2011-11-09 Impact factor: 3.891

9. Private specificities of CD8 T cell responses control patterns of heterologous immunity.

Authors: Sung-Kwon Kim; Markus Cornberg; Xiaoting Z Wang; Hong D Chen; Liisa K Selin; Raymond M Welsh
Journal: J Exp Med Date: 2005-02-14 Impact factor: 14.307

10. Human HLA-A0201-restricted cytotoxic T lymphocyte recognition of influenza A is dominated by T cells bearing the V beta 17 gene segment.

Authors: P J Lehner; E C Wang; P A Moss; S Williams; K Platt; S M Friedman; J I Bell; L K Borysiewicz
Journal: J Exp Med Date: 1995-01-01 Impact factor: 14.307

10 in total

1. Analysis of the affinity of influenza A virus protein epitopes for swine MHC I by a modified in vitro refolding method indicated cross-reactivity between swine and human MHC I specificities.

Authors: Shuhua Fan; Yongli Wang; Xian Wang; Li Huang; Yunxia Zhang; Xiaomeng Liu; Wenshuai Zhu
Journal: Immunogenetics Date: 2018-07-10 Impact factor: 2.846

2. Broad CD8⁺ T cell cross-recognition of distinct influenza A strains in humans.

Authors: Emma J Grant; Tracy M Josephs; Liyen Loh; E Bridie Clemens; Sneha Sant; Mandvi Bharadwaj; Weisan Chen; Jamie Rossjohn; Stephanie Gras; Katherine Kedzierska
Journal: Nat Commun Date: 2018-12-21 Impact factor: 14.919

3. A plasmid-encoded peptide from Staphylococcus aureus induces anti-myeloperoxidase nephritogenic autoimmunity.

Authors: Joshua D Ooi; Jhih-Hang Jiang; Peter J Eggenhuizen; Ling L Chua; Mirjan van Timmeren; Khai L Loh; Kim M O'Sullivan; Poh Y Gan; Yong Zhong; Kirill Tsyganov; Lani R Shochet; Jessica Ryan; Coen A Stegeman; Lars Fugger; Hugh H Reid; Jamie Rossjohn; Peter Heeringa; Stephen R Holdsworth; Anton Y Peleg; A Richard Kitching
Journal: Nat Commun Date: 2019-07-29 Impact factor: 14.919

4. Challenging immunodominance of influenza-specific CD8⁺ T cell responses restricted by the risk-associated HLA-A*68:01 allomorph.

Authors: C E van de Sandt; E B Clemens; E J Grant; L C Rowntree; S Sant; H Halim; J Crowe; A C Cheng; T C Kotsimbos; M Richards; A Miller; S Y C Tong; J Rossjohn; T H O Nguyen; S Gras; W Chen; K Kedzierska
Journal: Nat Commun Date: 2019-12-06 Impact factor: 14.919

5. HLA-A*11:01-restricted CD8+ T cell immunity against influenza A and influenza B viruses in Indigenous and non-Indigenous people.

Authors: Jennifer R Habel; Andrea T Nguyen; Louise C Rowntree; Christopher Szeto; Nicole A Mifsud; E Bridie Clemens; Liyen Loh; Weisan Chen; Steve Rockman; Jane Nelson; Jane Davies; Adrian Miller; Steven Y C Tong; Jamie Rossjohn; Stephanie Gras; Anthony W Purcell; Luca Hensen; Katherine Kedzierska; Patricia T Illing
Journal: PLoS Pathog Date: 2022-03-07 Impact factor: 6.823

6. Protocol for generation of human peptide-specific primary CD8⁺ T cell lines.

Authors: Emma J Grant; Stephanie Gras
Journal: STAR Protoc Date: 2022-07-31

7. Expansion of Unique Hepatitis C Virus-Specific Public CD8⁺ T Cell Clonotypes during Acute Infection and Reinfection.

Authors: Sabrina Mazouz; Maude Boisvert; Mohamed S Abdel-Hakeem; Omar Khedr; Julie Bruneau; Naglaa H Shoukry
Journal: J Immunol Date: 2021-08-02 Impact factor: 5.426

8. Single-Cell Approach to Influenza-Specific CD8⁺ T Cell Receptor Repertoires Across Different Age Groups, Tissues, and Following Influenza Virus Infection.

Authors: Sneha Sant; Ludivine Grzelak; Zhongfang Wang; Angela Pizzolla; Marios Koutsakos; Jane Crowe; Thomas Loudovaris; Stuart I Mannering; Glen P Westall; Linda M Wakim; Jamie Rossjohn; Stephanie Gras; Michael Richards; Jianqing Xu; Paul G Thomas; Liyen Loh; Thi H O Nguyen; Katherine Kedzierska
Journal: Front Immunol Date: 2018-06-27 Impact factor: 7.561

9. Suboptimal SARS-CoV-2-specific CD8⁺ T cell response associated with the prominent HLA-A*02:01 phenotype.

Authors: Jennifer R Habel; Thi H O Nguyen; Carolien E van de Sandt; Jennifer A Juno; Priyanka Chaurasia; Kathleen Wragg; Marios Koutsakos; Luca Hensen; Xiaoxiao Jia; Brendon Chua; Wuji Zhang; Hyon-Xhi Tan; Katie L Flanagan; Denise L Doolan; Joseph Torresi; Weisan Chen; Linda M Wakim; Allen C Cheng; Peter C Doherty; Jan Petersen; Jamie Rossjohn; Adam K Wheatley; Stephen J Kent; Louise C Rowntree; Katherine Kedzierska
Journal: Proc Natl Acad Sci U S A Date: 2020-09-10 Impact factor: 11.205

10. CD8⁺ T cells specific for conserved coronavirus epitopes correlate with milder disease in COVID-19 patients.

Authors: Vamsee Mallajosyula; Conner Ganjavi; Saborni Chakraborty; Alana M McSween; Ana Jimena Pavlovitch-Bedzyk; Julie Wilhelmy; Allison Nau; Monali Manohar; Kari C Nadeau; Mark M Davis
Journal: Sci Immunol Date: 2021-07-01

10 in total