Abstract

CD4 T cells have long been thought to be orchestrators of the rest of the immune system, but the past decade of CD4 T cell research has revealed many new functions and new subsets of CD4 T cells such that the interactions between these subsets and the rest of the immune system in regards to viral pathogenesis need to be examined. We propose here a collaborative U19 program in response to RFA-AI-12-048, Immune Mechanisms of Virus Control. The work proposed is highly consistent with the aims of the RFA, including (1) examining the interactions between innate and adaptive immune mechanisms in viral systems, (2) examining such actions at mucosal sites, in this case the lung, (3) examining how different T and B cell subsets are maintained after infection, and (4) defining the impact of multiple infections on viral immunity and pathogenesis. This U19 studies viruses of interest to this RFA, including Group 1 (HHV-6), Group 3A (LCMV, vaccinia virus), and Group 3C (influenza virus) pathogens. Further, our program uses mouse models that have provided valuable information regarding the immune response to viral infections, and it translates these findings into human immunology. This program is directed by Dr. Raymond Welsh and involves already collaborating scientists within one department (Pathology) at the University of Massachusetts Medical School (UMMS). It consists of four research projects, one administrative core, and two scientific cores that will provide reagents to the projects as well as pursue novel technology development. Project 1 (Dr. Welsh) examines the ability of NK cells to act as natural suppressors of CD4 T cells and regulate B cells and CD8 T cell-dependent pathology and persistence in the lung;Project 2 (Dr. Swain) examines how memory CD4 T cells alter both innate and adaptive immunity to influenza A virus and contribute to long term antibody responses;Project 3 (Dr. Selin) examines how CD4 and CD8 T cells cross-reactive between different viruses mediate detrimental heterologous immunity in the lung in mouse models and in human influenza subjects;Project 4 (Dr. Stern) examines how human HHV-6-specific CD4 T cell responses regulate and are regulated by CD8 cells and NK cells. These highly collaborative projects will rely on a core B (Dr. Stern), which will provide MHC reagents for T cell analyses, and a core C (Dr. Huseby), which will provide T cell receptor cloning and transgenic mice. This program will be coordinated by an administrative Core A (Dr. Welsh), which will arrange meetings, consultations, resource sharing, and provide statistical analysis and data management. This work should provide insights into how to best harness these properties in the design of vaccine strategies.

Public Health Relevance

Infections of the respiratory track are among the leading cause of human illnesses, and they can be caused by many different viruses, which elicit strong immune responses and immunopathological lesions. This program project examines how CD4 T cells, considered the orchestrators of the immune system, interact with B cells, CD8 T cells, NK cells and the innate immune system to mediate or preclude virus-induced immunopathology. Knowledge gained form this study should help in the construction of vaccines and treatments for respiratory infections.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Program--Cooperative Agreements (U19)
Project #
1U19AI109858-01
Application #
8652531
Study Section
Special Emphasis Panel (ZAI1-ZL-I (J1))
Program Officer
Miller, Lara R
Project Start
2014-03-01
Project End
2019-02-28
Budget Start
2014-03-01
Budget End
2015-02-28
Support Year
1
Fiscal Year
2014
Total Cost
$2,368,478
Indirect Cost
$951,642

  Institution

Name
University of Massachusetts Medical School Worcester
Department
Pathology
Type
Schools of Medicine
DUNS #
603847393
City
Worcester
State
MA
Country
United States
Zip Code
01655

  Publications

Strutt, T M; Dhume, K; Finn, C M et al. (2018) IL-15 supports the generation of protective lung-resident memory CD4 T cells. Mucosal Immunol 11:668-680
Devarajan, Priyadharshini; Jones, Michael C; Kugler-Umana, Olivia et al. (2018) Pathogen Recognition by CD4 Effectors Drives Key Effector and Most Memory Cell Generation Against Respiratory Virus. Front Immunol 9:596
Hatfield, Steven D; Daniels, Keith A; O'Donnell, Carey L et al. (2018) Weak vaccinia virus-induced NK cell regulation of CD4 T cells is associated with reduced NK cell differentiation and cytolytic activity. Virology 519:131-144
Becerra-Artiles, Aniuska; Santoro, Tessa; Stern, Lawrence J (2018) Evaluation of a method to measure HHV-6B infection in vitro based on cell size. Virol J 15:4
Marshall, Nikki B; Vong, Allen M; Devarajan, Priyadharshini et al. (2017) NKG2C/E Marks the Unique Cytotoxic CD4 T Cell Subset, ThCTL, Generated by Influenza Infection. J Immunol 198:1142-1155
Blevins, Sydney; Huseby, Eric S (2017) Killer T cells with a beta-flavi(r) for dengue. Nat Immunol 18:1186-1188
Antunes, Dinler A; Rigo, Maurício M; Freitas, Martiela V et al. (2017) Interpreting T-Cell Cross-reactivity through Structure: Implications for TCR-Based Cancer Immunotherapy. Front Immunol 8:1210
Shin, Hyun Mu; Kapoor, Varun N; Kim, Gwanghun et al. (2017) Transient expression of ZBTB32 in anti-viral CD8+ T cells limits the magnitude of the effector response and the generation of memory. PLoS Pathog 13:e1006544
Song, InYoung; Gil, Anna; Mishra, Rabinarayan et al. (2017) Broad TCR repertoire and diverse structural solutions for recognition of an immunodominant CD8+ T cell epitope. Nat Struct Mol Biol 24:395-406
Watkin, Levi B; Mishra, Rabinarayan; Gil, Anna et al. (2017) Unique influenza A cross-reactive memory CD8 T-cell receptor repertoire has a potential to protect against EBV seroconversion. J Allergy Clin Immunol 140:1206-1210

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