Abstract

The cellular origins of helper T cell memory and the regulation of its development in vivo have been the focus of intense research in recent years. Unraveling the mechanisms controlling effective memory formation is of fundamental interest with potentially high impact on the public health initiative of vaccine design. Insights into the complex cellular processes that underlie the development of Th cell immunity may also reveal new treatment modalities for a broad range of clinically-relevant conditions such as autoimmune disease, transplant rejection, and various infectious diseases. Immunological memory is a multi-faceted process whose main purpose is long-term protection precisely targeted to previously- experienced antigens. Th cell memory is a systemic phenomenon characterized by the rapid emergence of effector Th cells in response to rechallenge with antigen. My laboratory is primarily interested in the cellular origins of this rapid memory response to antigen and the regulation of its development in vivo. We hypothesize that Th cell memory is organized in multiple cellular compartments, each sub-specialized to regulate long-term antigen- specific protection. We use a murine model of protective immunity to a non-replicating protein antigen to focus Th cell activity on the development of antigen-specific B cell immunity. We have developed a flow cytometric strategy to quantify, phenotype, and isolate antigen-specific Th cells at various stages after initial priming and antigen rechallenge in vivo. We propose to study clonal selection, function, and regulation of antigen-specific Th cell immunity directly ex vivo, post-adoptive transfer in vivo and using single cell analyses of function in vitro. The seminal work of Kupfer, Dustin, and others have identified a molecular process that serves to organize cognate inter-cellular interactions that are now commonly referred to as the formation of an immunological synapse. During the development of an immune response, antigen-specific Th cells will form immune synapses with a variety of different cell types, often in dynamic microenvironments specifically associated with the response to antigen. Here, we outline a Serial Synapsis Model for the ordered development of antigen-specific Th cell immunity. This model integrates our understanding of the progression of cellular events in vivo with overlapping phases of synapse dependent and synapse independent lymphocyte development. Using this model as a framework, we will pursue our central hypothesis in three broad specific aims. (1) To understand the mechanisms that underlie clonal selection in the Th cell compartment during an immune response and assess what contribution the pre-immune repertoire plays in the development of clonal dominance. (2) To evaluate quantitatively the spectrum of Th cell function that develops as a consequence of antigen experience. (3) To probe the changes in Th cell physiology that accompany developmental progression from naive to effector to memory Th cells in vivo.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI040215-10
Application #
7029622
Study Section
Experimental Immunology Study Section (EI)
Program Officer
Rathbun, Gary
Project Start
1996-09-30
Project End
2007-09-09
Budget Start
2006-04-01
Budget End
2007-09-09
Support Year
10
Fiscal Year
2006
Total Cost
$361,696
Indirect Cost

  Institution

Name
Scripps Research Institute
Department
Type
DUNS #
781613492
City
La Jolla
State
CA
Country
United States
Zip Code
92037

  Publications

Dufaud, Chad R; McHeyzer-Williams, Louise J; McHeyzer-Williams, Michael G (2017) Deconstructing the germinal center, one cell at a time. Curr Opin Immunol 45:112-118
McHeyzer-Williams, Louise J; Milpied, Pierre J; Okitsu, Shinji L et al. (2015) Class-switched memory B cells remodel BCRs within secondary germinal centers. Nat Immunol 16:296-305
Pelletier, Nadége; McHeyzer-Williams, Louise J; Wong, Kurt A et al. (2010) Plasma cells negatively regulate the follicular helper T cell program. Nat Immunol 11:1110-8
McHeyzer-Williams, Louise J; Pelletier, Nadege; Mark, Linda et al. (2009) Follicular helper T cells as cognate regulators of B cell immunity. Curr Opin Immunol 21:266-73
Fazilleau, Nicolas; Mark, Linda; McHeyzer-Williams, Louise J et al. (2009) Follicular helper T cells: lineage and location. Immunity 30:324-35
Fazilleau, Nicolas; McHeyzer-Williams, Louise J; Rosen, Hugh et al. (2009) The function of follicular helper T cells is regulated by the strength of T cell antigen receptor binding. Nat Immunol 10:375-84
Malherbe, Laurent; Mark, Linda; Fazilleau, Nicolas et al. (2008) Vaccine adjuvants alter TCR-based selection thresholds. Immunity 28:698-709
Fazilleau, Nicolas; Eisenbraun, Michael D; Malherbe, Laurent et al. (2007) Lymphoid reservoirs of antigen-specific memory T helper cells. Nat Immunol 8:753-61
McHeyzer-Williams, Louise J; McHeyzer-Williams, Michael G (2004) Developmentally distinct Th cells control plasma cell production in vivo. Immunity 20:231-42
Malherbe, Laurent; Hausl, Christina; Teyton, Luc et al. (2004) Clonal selection of helper T cells is determined by an affinity threshold with no further skewing of TCR binding properties. Immunity 21:669-79

Showing the most recent 10 out of 20 publications