Mechanical regulation of T cell activation

Yuan, Dennis Jinglun

January 2021

Adoptive T cell immunotherapy is emerging as a powerful approach to treat diseases ranging from cancer to autoimmunity. T cell therapy involves isolation, modification, and reintroduction of T cells as “living drugs” to induce a durable response. A key capability to fully realize the potential of T cell therapies is effective manipulation of ex vivo T cell activation, with the aim of increasing T cell production and promoting specific phenotypes. While initial efforts to modulate T cell activation have heavily focused on mimicking biochemical signaling and ligand-receptor interactions between T cells and antigen presenting cells (APCs), there is increasing appreciation for understanding the role of mechanics at this interface and utilizing these insights to improve T cell activation systems. The aims of this dissertation is to contribute to this understanding by elucidating how mechanical properties of an activating surface regulate T cell activation, and apply these insights to generate biomaterial based systems to enhance activation from leukemia patient derived T cells. We first use a hydrogel system to investigate patterns T cell activation to substrate stiffness, discovering a biphasic response of T cell activation to stiffness that is synergist with ligand density. We then generate electrospun fiber scaffolds as an alternative platform to improve T cell expansion; we discover that 3D geometry in the form of fiber diameter and span lengths affects T cell activation. Lastly, we characterize the starting makeup of T cell populations from leukemia patients to study patterns of T cell exhaustion, utilizing the developed electrospun fiber scaffold system to enhance expansion of exhausted T cells from leukemia patients, and demonstrate patient-specific responses to different scaffold formulations. This approach allows for engineering of biomaterial designs that can leverage T cell mechanobiology to enhance T cell activation, with potential to be tailored to patient-specific expansion conditions and increasing the availability of T cell therapy to a wider range of patients.

Biomedical engineering

Immunology

T cells

Cancer--Immunotherapy

Immunotherapy

Leukemia

An investigation of the impact of sublingual immunotherapy in experimental models of food allergy and anaphylaxis

Gadkar, Siyon

11 1900

Food allergy is a potentially life-threatening disease affecting up to 10% of individuals in Western countries. Clinical reactivity to food allergens is primarily mediated by immunoglobulin (Ig) E, with symptoms ranging from mild urticaria to anaphylaxis. Currently, food allergy remains a disease without a cure. Oral immunotherapy (OIT), which involves consuming small amounts of allergen, remains an experimental treatment in Canada, although has been approved by the Food and Drug Administration (FDA) in the United States for treatment of peanut allergy. While efficacious to induce desensitization, OIT is accompanied by a significant rate of adverse effects. Sublingual immunotherapy (SLIT) is a novel route of treatment for food allergy, where small amounts of allergen are placed under the tongue and held for 2-3 minutes. In contrast to OIT, SLIT offers not only treatment efficacy but also promises an excellent safety profile. The first objective of this thesis was to first develop a SLIT regimen in murine models of food allergy where sensitization is carried out either epicutaneously or intragastrically. Secondly, we investigated the efficacy of SLIT in modulating the clinical and humoral responses in prophylactic and semi-therapeutic settings. In the prophylactic setting, where SLIT was administered prior to sensitizing allergen exposures, SLIT-treated mice were completely protected from allergic sensitization including absent production of serum ovalbumin-specific IgE. In the semi-therapeutic setting, where SLIT was administered to mice primed to develop food allergy, it produced a partial protection against food-induced clinical reactivity. This was associated with lower levels of IgE production in comparison to non-treated, allergic mice. Together, this work provides both an optimized SLIT protocol, as well as evidence on the efficacy of SLIT in the treatment of food allergy in murine models. These findings will aid future work investigating the cellular and molecular mechanisms underlying SLIT-induced protection. / Thesis / Master of Science (MSc) / Food allergy is a potentially life-threatening disease which is primarily mediated by IgE antibodies. Strict allergen avoidance and use of rescue epinephrine upon accidental allergen exposure remain the standard of care. Oral immunotherapy, where individuals ingest small amounts of allergen, is currently the experimental treatment of reference to induce clinical tolerance; however, it is accompanied by a significant rate of adverse reactions. In contrast, sublingual immunotherapy (SLIT), which is less efficacious, upholds a superior safety profile. The primary objective of this thesis was to investigate the impact of SLIT in inducing clinical and immunological changes in murine models of food allergy. We demonstrated that when administered prophylactically, SLIT prevents mice from undergoing anaphylaxis. When administered to sensitized mice in a pre-allergic state, SLIT was protective against severe clinical reactivity after challenge. In conclusion, the work presented here establishes a useful platform to investigate the mechanisms underlying SLIT-mediated protection.

Food Allergy

Immunotherapy

Sublingual Immunotherapy

SLIT

Murine Models of Food Allergy

Post-exposure treatment of Ebola virus using passive immunotherapy: proposal for a new strategy

Chippaux, J. P., Boyer, L. V., Alagon, A.

January 2015

BACKGROUND: Better treatments are urgently needed for the management of Ebola virus epidemics in Equatorial Africa. METHODS: We conducted a systematic review of the literature on the use of passive immunotherapy for the treatment or prevention of Ebola virus disease. We placed findings from this review into the context of passive immunotherapy currently used for venom-induced disease, and recent improvements in manufacturing of polyvalent antivenom products. RESULTS: Passive immunotherapy appears to be one of the most promising specific treatments for Ebola. However, its potential has been incompletely evaluated, considering the overall experience and recent improvement of immunotherapy. Development and use of heterologous serum derivatives could protect people exposed to Ebola viruses with reasonable cost and logistics. CONCLUSION: Hyperimmune equine IgG fragments and purified polyclonal whole IgG deserve further consideration as treatment for exposure to the Ebola virus.

Africa

Ebola

Epidemics

Immunotherapy

Prophylaxis

Tolerance induction in an experimental model of autoimmunity

Liu, George Yen-Hsi

January 1995

No description available.

572.8

Peptide therapy; Immunotherapy; EAE

Modulation of collagen-induced arthritis by mucosal administration of the B-subunit of Escherichia coli heat-labile enterotoxin

Luross, Jeffrey Arvid Lewis

January 2001

No description available.

615.1

Characterization and structural analysis of campath-1 antigen

Xia, Meng-Qi

January 1992

No description available.

610

The recruitment of ribosomal inactivating protein or T cells by antibody derivatives in the treatment of B cell lymphoma

McBride, Harry Michael

January 1993

No description available.

610

Strategies for immune intervention in murine collagen-induced arthritis

Williams, Richard Owen

January 1995

No description available.

610

MARRYING IMMUNOTHERAPY AND CHEMOTHERAPY: A CANCER THERAPY BASED ON T LYMPHOCYTE EXPANSION AUGMENTED BY ALTERNATE GAMMA CHAIN CYTOKINES AND GEMCITABINE-MEDIATED INHIBITION OF MYELOID DERIVED SUPPRESSOR CELLS

Cha, Esther

04 August 2009

Successful adoptive immunotherapy (AIT) for cancer relies on the infusion of in vitro expanded, tumor-reactive lymphocytes with a goal of generating productive tumor immunity. Previously, our lab has developed a protocol to activate selectively tumor-reactive T lymphocytes in vitro using two pharmacologic agents, bryostatin-1 and ionomycin. Following the pharmacological stimulation, conventionally, IL-2 is added to stimulate in vitro proliferation. In this report, alternate cytokines from the common cytokine receptor γ-chain family, namely IL-7 and IL-15, were explored as the alternative cytokine supplements. We found that tumor DLN cells activated in vitro with B/I and cultured in IL-7/15 alternate common γ-chain cytokines expanded better than IL-2 cultured cells. Furthermore, immunosuppressive myeloid-derived suppressor cells from the tumor microenvironment were targeted with a chemotherapeutic agent, gemcitabine. Despite combining gemcitabine and the T lymphocytes expanded in IL-7/15, AIT failed to induce regression of large established 4T1 mammary flank tumors.

Adoptive Immunotherapy

Life Sciences

Physiology

The immunomodulatory effect of methimazole on inbred mice.

January 1992

by Tsui Kai Wing. / Thesis (M.Phil.)--Chinese University of Hong Kong, 1992. / Includes bibliographical references (leaves 100-112). / Abstract --- p.i / Acknowledgements --- p.iii / List of Abbreviations --- p.iv / Contents --- p.v / Chapter Chapter 1 --- General Introduction --- p.1 / Chapter Chapter 2 --- The Effect of In Vivo Methimazole Treatment on the Functions of Macrophages --- p.10 / Introduction --- p.10 / Materials and Methods --- p.14 / Results --- p.27 / Discussion --- p.38 / Chapter Chapter 3 --- The Effect of In Vivo Methimazole Treatment on the Function of Lymphocytes --- p.41 / Introduction --- p.41 / Materials and Methods --- p.44 / Results --- p.50 / Discussion --- p.60 / Chapter Chapter 4 --- The Lack of Demonstrable Effect of In Vitro Methimazole Treatment on the Functions of Macrophages and Lymphocytes --- p.62 / Introduction --- p.62 / Materials and Methods --- p.63 / Results --- p.66 / Discussion --- p.74 / Chapter Chapter 5 --- Effect of Thyroid Hormone Replacement on the Immune Response of Methimazole-Treated Mice --- p.76 / Introduction --- p.76 / Materials and Methods --- p.78 / Results --- p.82 / Discussion --- p.91 / Chapter Chapter 6 --- General Discussion --- p.95 / References --- p.99

Methimazole

Macrophages

Lymphocytes

Immunotherapy

Mice