The Effects of Immune Regulation and Dysregulation: Helper T Cell Receptor Affinity, Systemic Lupus Erythematosus and Cancer Risk, and Vaccine Hesitancy

Johnson, Deborah K.

03 June 2020

Helper T cells direct the immunological response to foreign pathogens and cancer. To become activated, helper T cells must recognize unique peptides presented on major histocompatibility complex II (pMHCII) by antigen presenting cells (APCs) with their T cell receptor (TCR). While much is known about helper T cell activation signaling cascades and the subsequent roles of helper T cell subsets, the initiation of helper T cell activation by the TCR and other co-receptors is less well understood. Specifically, the affinity of the TCR for its pMHCII can change helper T cell subset fate, proliferation, and alter the risk for activation induced cell death. High affinity TCRs are attractive targets for immunotherapies, but little is known about how helper T cells respond to high affinity TCRs. Here we describe high affinity TCR activation thresholds for both full length TCRs and chimeric antigen receptor TCRs both with and without the presence of the coreceptor CD4 and propose a mechanism whereby CD4 inhibits T cell activation via Lck sequestration and a CD4-independent method. Dysregulated helper T cells play critical roles in the development and perpetuation of systemic lupus erythematosus (SLE), a systemic autoimmune disease that causes widespread inflammation and organ damage throughout the body. Chronic inflammation in SLE affects the immune response to viruses and the risk of developing cancer. However, in SLE patients, it is unclear if viruses initiate the development of cancer directly or if the effects are non-interacting and concomitant. Here we describe the interactions between SLE, viruses, and cancer risk revealing that viruses and SLE do interact to increase the both the overall cancer risk and the risk for hematological malignancies. Due to vaccine efficacy, vaccine preventable diseases (VPDs) are no longer commonly experienced or understood by the public. Vaccines are a victim of their own success and according to the World Health Organization (WHO), vaccine hesitancy (VH) is one of the top threats to global health. VH is the refusal to accept vaccinations and the reasons for VH vary across time, place, and vaccine. Refuting VH is difficult as directly confronting false assumptions can cause individuals to become more entrenched in their position resulting in confirmation bias. Adults with VH attitudes are often motivated by concerns over personal liberty, harm, independence, and body purity. Here we describe the results of a VPD interview- and education-based intervention geared towards promoting positive vaccine attitudes for young adults and demonstrate that education focused on VPDs is more effective than vaccine safety.

Helper T cell

CD4+ T cell

CD4

T cell receptor (TCR)

Lck

IL-2

T cell activation

TCR single chain signaling (TCR-SCS)

chimeric antigen receptor (CAR)

full length TCR (flTCR)

high affinity TCRs

systemic lupus erythematosus (SLE)

cancer-risk

viruses

vaccine hesitancy (VH)

vaccine preventable diseases (VPDs)

vaccines

Life Sciences

Elucidating the role of BCL6 in helper T cell activation, proliferation, and differentiation

Hollister, Kristin N.

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / The transcriptional repressor BCL6 has been shown to be essential for the differentiation of germinal center (GC) B cells and follicular T helper (TFH) cells. The interaction of TFH and GC B cells is necessary for the development of high affinity antibodies specific for an invading pathogen. Germline BCL6-deficient mouse models limit our ability to study BCL6 function in T cells due to the strong inflammatory responses seen in these mice. To overcome this, our lab has developed a new BCL6 conditional knockout (cKO) mouse using the cre/lox system, wherein the zinc finger region of the BCL6 gene is flanked by loxP sites. Mating to a CD4-Cre mouse allowed us to study the effects of BCL6 loss specifically in T cells, without the confounding effects seen in germline knockout models. Using this cKO model, we have reaffirmed the necessity of BCL6 for TFH differentiation, including its role in sustained CXCR5 surface expression, a signature marker for TFH cells. This model also allowed us to recognize the role of BCL6 in promoting the expression of PD-1, another key surface marker for TFH cells. Without BCL6, CD4+ T cells cannot express PD-1 at the high levels seen on TFH cells. Our discovery of DNMT3b as a target for BCL6 suggests BCL6-deficient T cells have increased DNA methyltransferase activity at the PD-1 promoter. This data establishes a novel pathway for explaining how BCL6, a transcriptional repressor, can activate genes. Experiments with the BCL6 cKO model have also established a role for BCL6 in naïve CD4+ T cell activation. Furthermore, we did not observe increased differentiation of other helper T cell subsets, in contrast to what has been reported elsewhere with germline BCL6-deficient models. Unexpectedly, we found decreased T helper type 2 (Th2) cells, whereas mouse models with a germline mutation of BCL6 have increased Th2 cells. These results indicate that BCL6 activity in non-T cells is critical for controlling T cell differentiation. Finally, using an HIV-1 gp120 immunization model, we have, for the first time, shown BCL6-dependent GCs to be limiting for antibody development and affinity maturation in a prime-boost vaccine scheme.

T cells

follicular T helper cells

BCL6

germinal center

HIV vaccine

T cells -- Differentiation

Cell transformation -- Regulation

Repressors, Genetic -- Research

HIV (Viruses) -- Vaccination

AIDS vaccines -- Research

Inflammation -- Immunological aspects

B cells -- Research -- Analysis

Germinal centers

Immune system

Autoimmune diseases

Mice -- Diseases -- Molecular aspects

Animal models in research

The work-family conflict experienced by South African women of different race groups : a phenomenological study

Tengimfene, Nikelwa F.

03 1900

The family roles and responsibilities are still allocated along the gender lines. Women assume primary child care and household roles despite working fulltime. They suffer from work-family conflict as they battle with these competing demands. A phenomenological approach was adopted for this study. The existing literature was used in defining work-family conflict, looking at different work-family theories; development of gendered defined roles, motherhood and demands brought on by women working fulltime. The semi-structured interview was used for data collection. The themes which emerged showed that women experience strong emotions associated with raising children whilst working. There is compromise on quality time dedicated in each role. Women assume sole custodian over their children’s upbringing. Women enter into a second shift after work. Having a career and children, is made easier through adoption of strong coping strategies and mechanisms. The conclusions and recommendations were made for future a research and organisational practices. / Industrial and Organisational Psychology / Thesis (M.A. (Industrial and Organisational Psycology))

Work-family conflict

Multiple roles

Working women

Motherhood

Socialisation

Role conflict

Overload

Interference

Strong emotions

Compromised quality time

Second shift

Sole custodianship

Elderly parents

Coping mechanisms

Helper/maids

305.48896

Work and family -- South Africa

Working mothers -- South Africa

Women -- Job stress -- South Africa

Women -- Employment -- South Africa

Dual-career families -- South Africa

Women in the professions -- South Africa

Work and family -- South Africa

Working mothers -- South Africa

The work-family conflict experienced by South African women of different race groups : a phenomenological study

Tengimfene, Nikelwa F.

03 1900

The family roles and responsibilities are still allocated along the gender lines. Women assume primary child care and household roles despite working fulltime. They suffer from work-family conflict as they battle with these competing demands. A phenomenological approach was adopted for this study. The existing literature was used in defining work-family conflict, looking at different work-family theories; development of gendered defined roles, motherhood and demands brought on by women working fulltime. The semi-structured interview was used for data collection. The themes which emerged showed that women experience strong emotions associated with raising children whilst working. There is compromise on quality time dedicated in each role. Women assume sole custodian over their children’s upbringing. Women enter into a second shift after work. Having a career and children, is made easier through adoption of strong coping strategies and mechanisms. The conclusions and recommendations were made for future a research and organisational practices. / Industrial and Organisational Psychology / Thesis (M.A. (Industrial and Organisational Psycology))

Work-family conflict

Multiple roles

Working women

Motherhood

Socialisation

Role conflict

Overload

Interference

Strong emotions

Compromised quality time

Second shift

Sole custodianship

Elderly parents

Coping mechanisms

Helper/maids

305.48896

Work and family -- South Africa

Working mothers -- South Africa

Women -- Job stress -- South Africa

Women -- Employment -- South Africa

Dual-career families -- South Africa

Women in the professions -- South Africa

Work and family -- South Africa

Working mothers -- South Africa

Targeting B non-Hodgkin lymphoma and tumor-supportive follicular helper T cells with anti-CXCR5 CAR T cells

Pfeilschifter, Janina Marie

09 September 2021

CAR-T-Zell-Therapie ist eine vielversprechende neuartige Behandlungsform für Patienten mit aggressiven B-Zell Non-Hodgkin-Lymphomen (B-NHL). In dieser Arbeit wurde die anti-CXCR5 CAR-T-Zell-Therapie als Alternative zur anti-CD19 CAR-T-Zell-Therapie für die Behandlung von reifen B-NHLs untersucht. CXCR5 ist ein B-Zell-homing Rezeptor, der von reifen B Zellen und follikulären T-Helferzellen (TFH Zellen) exprimiert wird. TFH Zellen wurden als tumor-unterstützend in chronisch lymphatischer Leukämie (CLL) und im follikulären Lymphom (FL) beschrieben. Dieses Expressionsmuster erlaubt es, auf einzigartige Weise zeitgleich die malignen Zellen und die tumorunterstützende Mikroumgebung mithilfe von CAR-T-Zell-Therapie gerichtet gegen einen Chemokinrezeptor anzugreifen. Die wichtigsten Ergebnisse dieser Arbeit waren, dass (1) die anti-CXCR5 CAR T-Zellen zielgerichtet CXCR5 positive reife B-NHL Zelllinien und Patientenproben in vitro eliminierten und eine starke anti-Tumor Reaktivität in einem immundefizienten Xenotransplantationsmausmodell zeigten, (2) die anti-CXCR5 CAR T-Zellen zielgerichtet die tumorunterstützenden TFH Zellen in CLL und FL Patientenproben in vitro erkannten und dass (3) CXCR5 ein sicheres Expressionsprofil zeigte. CXCR5 war stark und häufig auf B-NHL exprimiert und die Expression auf gesundem Gewebe war auf lymphoide Zellen beschränkt. Zusammenfassend lässt sich sagen, dass die anti-CXCR5 CAR-T-Zell-Therapie eine neue Behandlungsmöglichkeit für Patienten mit reifen B-NHL darstellt, indem durch die anti-CXCR5 CAR-T Zellen sowohl der Tumor als auch ein Anteil der tumorunterstützende Mikroumgebung eliminiert werden. Im zweiten Teil der Arbeit wurde das Eμ-Tcl1 murine CLL Lymphommodell genutzt um die Auswirkung der Lymphomentwicklung auf die CXCR5+ T Zellen zu untersuchen. Mittels RNA-Einzelzell-Sequenzierung konnte ein profunder Einfluss des Lymphomwachstums auf das T Zell-Kompartiment der Mäuse, denen Eμ-Tcl1 Zellen gespritzt wurden, gezeigt werden. / CAR T cell therapy is a promising new treatment option for patients suffering from aggressive B non-Hodgkin lymphomas (NHLs). In CAR T cell therapy, patient-derived T cells are genetically modified to express a chimeric receptor commonly directed towards a surface antigen expressed by neoplastic cells. In this thesis, anti-CXCR5 CAR T cell therapy was investigated as an alternative to anti-CD19 CAR T cell therapy for the treatment of mature B-NHLs. CXCR5 is a B cell homing receptor expressed by mature B cells and follicular helper T (TFH) cells. TFH cells were described to support the tumor cells in chronic lymphocytic leukemia (CLL) and follicular lymphoma (FL). This expression pattern allows simultaneous targeting of the malignant cells and the tumor-supporting microenvironment by CAR T cell therapy against a chemokine receptor in an unprecedented manner. Main findings included that (1) anti-CXCR5 CAR T cells targeted specifically CXCR5 expressing mature B-NHL cell lines and patient samples in vitro and showed strong in vivo anti-tumor reactivity in an immunodeficient xenograft mouse model, (2) anti-CXCR5 CAR T cells targeted tumor-supportive TFH cells derived from CLL and FL patient samples in vitro and (3) CXCR5 showed a safe expression profile. CXCR5 was strongly and frequently expressed by B-NHLs and its expression on healthy tissue was restricted to lymphoid cells. In summary, anti-CXCR5 CAR T cell therapy presents a novel treatment option for patients suffering from mature B-NHLs by eliminating the tumor and part of the tumor-supportive microenvironment. The second part of the project, the Eμ-Tcl1 murine lymphoma model, which mimics human CLL, was used to study the impact of lymphomagenesis on CXCR5+ T cells. Using single cell RNA sequencing, a profound influence of lymphoma growth on the T cell compartment in Eμ-Tcl1 tumor-challenged mice could be shown.

CAR-T-Zell-Therapie

B-Zell Non-Hodgkin-Lymphome

NHL

B-NHL

follikulären T-Helferzellen

TFH Zellen

anti-CXCR5 CAR-T-Zell-Therapie

CAR-T-Zellen

Mikroumgebung

Murines Lymphommodell

Chemokinrezeptor

chronisch lymphatische Leukämie

follikuläres Lymphom

anti-CD19 CAR-T-Zell-Therapie

Eμ-Tcl1

CXCR5

CAR T cell therapy

B non-Hodgkin lymphoma

B-NHL

NHL

CAR T cells

CXCR5

chemokine receptor

anti-CXCR5 CAR T cell therapy

follicular helper T cells

TFH cells

Eμ-Tcl1

murine lymphoma model

microenvironment

chronic lymphocytic leukemia

follicular lymphoma

anti-CD19 CAR T cell therapy

570 Biologie

YC 2704

YC 2712

YC 2715

ddc:570