The Gatekeeper of TCR Signaling: LAT in T cell Homeostasis and Autoimmunity

O'Brien, Sarah A

January 2015

<p>Linker for Activation of T cells, LAT, is a transmembrane adaptor protein that is vital for integrating TCR-mediated signals that modulate T cell development, activation, and proliferation. Upon engagement of the T cell receptor, LAT is phosphorylated and associates with Grb2, Gads, and PLC&#947;1 through its four distal tyrosine residues. Mutation of tyrosine 136 abolishes LAT binding to PLC&#947;1. This results in impaired TCR-mediated calcium mobilization and Erk activation. LATY136F knock-in mice have a severe but incomplete block in T cell development. Yet, CD4+ &#945;&#946; T cells undergo uncontrolled expansion in the periphery, resulting in a severe autoimmune syndrome characterized by Th2 skewing and resultant B cell autoreactivity. Here, we further studied the role of LAT-PLC&#947;1 signaling in T cell lineage commitment, cytokine production, and autoimmunity.</p><p>First, we investigated the importance of the LAT-PLC&#947;1 interaction in &#947;&#948; T cells by crossing LATY136F mice with TCR&#946;-deficient mice. Our data showed that the LATY136F mutation had no major effect on the homeostasis of epithelial &#947;&#948; T cells, which could be found in the skin and small intestine. Interestingly, a population of CD4+ &#947;&#948; T cells in the spleen and lymph nodes underwent continuous expansion and produced elevated amounts of IL4, resulting in an autoimmune syndrome similar to that caused by &#945;&#946; T cells in LATY136F mice. Development of these hyperproliferative &#947;&#948; T cells was not dependent on expression of MHC class II or CD4, and their proliferation could be partially suppressed by regulatory T cells. Our data indicated that a unique subset of CD4+ &#947;&#948; T cells could hyperproliferate in LATY136F mice and suggested that LAT-PLC&#947;1 signaling may function differently in various subsets of &#947;&#948; T cells. </p><p>In addition to examining &#947;&#948; and &#945;&#946; T cell development, we also were interested in further exploring the role of LAT in cytokine production. While our previous data have demonstrated that T cells in LATY136F mice are Th2 skewed, producing large amounts of IL4, we investigated other cytokines that may be important for autoimmunity and found that these CD4+ &#945;&#946; T cells could also produce the proinflammatory cytokine IL6. Analysis of whole cell lysates from CD4+ &#945;&#946; LATY136F T cells demonstrated that NF&#954;B, AKT, and p38 were constitutively phosphorylated, and inhibition of these pathways resulted in reduced IL6 production. By crossing LATY136F mice with IL6 deficient mice, we demonstrated that early T cell survival was diminished in the absence of IL6. We further showed that this reduced CD4+ T cell pool was not due to further blocks in development, or an increase in FoxP3+ regulatory T cells. Finally, we demonstrated that over time, CD4+ T cells do hyperproliferate, yet B cell class switching and autoreactivity remains low. Our data uncovered a novel role for LAT-PLC&#947;1 signaling in regulating IL6 production by T cells during autoimmunity. </p><p>Finally, we wanted to further examine IL4 production and T helper cell differentiation in LATY136F mice. We examined IL4 production using KN2 reporter mice, where huCD2 marks T cells that have recently produced IL4 protein. We demonstrated that only a small proportion of the LATY136F T cells were actively secreting IL4. This subset of T cells were Tfh cells that expressed BCL6 and localized to B cell-rich germinal centers within the spleen. Most studies to date have examined Tfh cells in infection models, and have demonstrated that Tfh cells have very low expression of GATA3. Our results revealed in a spontaneous T cell-mediated autoimmune model system, that Tfh cells express both high levels of BCL6 and GATA3. Additionally, using an inducible deletion system, where normal development occurs, we showed that Tfh cells differentiation is the result of aberrant LAT signaling, rather than autoreactive TCRs with high affinity for self-peptide-MHC. LATY136F Tfh cells did require B cells for their development. Together, these results displayed a novel role for tonic LAT-PLC&#947;1 signaling in modulating Tfh cell differentiation and BCL6 expression.</p> / Dissertation

Immunology

autoimmunity

LAT

T cell hyperproliferation

TCR signaling

Th2 immunity

Prenatal Stress, Depression, and Herpes Viral Titers

Hsu, Pao-Chu

01 January 2013

Recent studies suggest that some cases of prenatal depression may be associated with reactivation of latent infections of the herpesvirus family. The possible relationships among stress, prenatal depression, and herpes viral reactivation in pregnancy are understudied and the molecular pathways such as the neuroimmune biogenic amine pathway are unidentified. Chronic stress shifts the T helper-1 cell (Th1) cytokine profile to a Th2 profile, which favors virus induced pathogenesis and survival. Pregnancy is also associated with a similar Th2 dominance. In non-pregnant individuals, exposure to psychological or physical stress may be associated with latent herpes viral reactivation and could result in behavioral deficits and depression. Normally, type-1 cytokines such as Interferon-gamma (IFN -gamma) and inflammatory cytokines such as tumor necrosis factor-alpha (TNF-alpha) induce indoleamine-2, 3-dioxygenase (IDO) activation which inhibits herpes virus replication and reactivation, decreases tryptophan production, and alters phenylalanine /tyrosine metabolism. Thus it is possible that prenatal depression may occur from tryptophan stealing through the IDO pathway which results in decreased serotonin as well as increased risk for latent herpes viral reactivation. The purpose of this study is to analyze the relationships among stress, herpes viral titers, depression, and metabolites of IDO activation, which involves tryptophan and guanosine-triphosphate-cyclohydrolase-1(GTP-CH1) pathways. This study builds on Influence of Lactation on Postpartum Stress and Immunity (Grant number: R01-NR05000) which investigated perinatal immune, endocrine, and inflammatory changes in pregnancy and the postpartum. A secondary data analysis was conducted on baseline data from women collected at 16 to 25 gestational weeks. This data set included some herpes viral titers, and additional ones were measured in stored plasma samples. The aim of this study is to examine relationships among stress, herpes viral reactivation, depression, and the IDO activation pathway. The results of this study provide information about the possible role of further relationships of prenatal stress, latent herpes viral reactivation, and depression mechanisms. The results will be important in health promotion and disease prevention during pregnancy.

CMV

HSV-2

IDO

Phenylalanine

Th1/Th2 Immunity

Tryptophan

Biological Psychology

Immunology and Infectious Disease

Nursing

Virology

MODELING AND MECHANISTIC INSIGHTS INTO THE DEVELOPMENT OF ALLERGIC AIRWAY RESPONSES TO HOUSE DUST MITE

Llop, Guevara Alba

04 1900

<p>Allergic asthma is a chronic and complex disease of the airways characterized by dysregulated immune-inflammatory responses to aeroallergens and reversible airflow obstruction. The prevalence and economic burden of allergic asthma have increased substantially over the last five decades. Despite remarkable progress in our understanding of the immunobiology and pathophysiology of asthma, the ontogeny of the disease remains elusive. As a result, there is a lack of effective preventative strategies. Here, we used a murine model of allergic asthma to house dust mite (HDM), the most pervasive indoor aeroallergen worldwide to address issues pertaining to the development of allergic asthma. First, we provided a comprehensive computational view of the impact of dose and length of HDM exposure on both local and systemic allergic outcomes (Chapter 2). Parameters, such as thresholds of responsiveness, and non-linear relationships between allergen exposure, allergic sensitization and airway inflammation were identified. We, then, investigated molecular signatures implicated in the onset of allergic responses (Chapter 3). HDM exposure was associated with production of the epithelial-associated cytokines TSLP, IL-25 and IL-33. However, only IL-33 signaling was necessary for intact Th2 immunity to HDM, likely because of its superior ability to induce the critical co-stimulatory molecule OX40L on dendritic cells and expand innate lymphoid cells. Lastly, as individuals are most likely exposed to allergens concomitantly to other environmental immunogenic agents, we studied the impact of an initial immune perturbation on allergic responses to sub-threshold amounts of HDM (Chapter 4). We showed that transient expression of GM-CSF in the airway substantially lowers the threshold of allergen required to generate robust, HDM-specific Th2 immunity, likely through increasing IL-33 production from alveolar type II cells. These studies favor a paradigm whereby distinct molecular pathways can elicit type 2 immunity, intimating the need to classify asthma into distinct clinical subsets.</p> / Doctor of Philosophy (PhD)

allergic asthma

house dust mite allergens

mouse model

airway inflammation

allergic sensitization

Th2 immunity