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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Study of fumagillin analogues on murine immune cells and immunomodulatory effects in different cancer models

Ho, Hoi-hang, 何凱恆 January 2012 (has links)
Fumagillin is the natural product isolated from fungus Aspergillus fumigatus, and is recognized as a potent anti-angiogenic compound. Substantial investigation has been focused on the anti-tumor activities of fumagillin and its analogues, some of which have been adopted in pre-clinical and clinical studies. However, investigation on the immunomodulating activities of this class of compounds is limited and results have been controversial. As there is intense interest in elucidating the interrelation between immune modulation and tumor development, novel immunopharmacological properties of chemotherapeutic agents have recently been explored for their therapeutic potentials in clinical applications. As a combination to both these research topics, fumagillin and its synthetic analogues were firstly investigated on different types of immune cells, such as T lymphocytes, dendritic cells and macrophages. F23, a fumagillin analogue with potent immunological activities, was further examined in three different murine cancer models, EL4 lymphoma, CT26 colon carcinoma and 4T1 mammary carcinoma, and their anti-tumor activities and intrinsic immunomodulatory effects were explored. Fumagillin and its analogues exert diversified functions in different types of immune cells. For example, they showed inhibitory effects on cell proliferation and cytokine production of T lymphocytes upon polyclonal stimulation, stimulatory effects on dendritic cells by inducing a highly-matured population, which contributed to induction of syngeneic and allogeneic lymphocyte proliferation and a preference to Th1 polarization, and multiple effects on macrophages based on phenotypic and cytokine analyses. Studies in murine cancer models showed that the fumagillin analogue F23 caused substantial inhibition of tumor development in three cancer models to different extents, with pronounced inhibitory effects on the expansion and functions of myeloid-derived suppressor cells (MDSCs), the signature cell population responsible for tumor progression and refractoriness to chemotherapeutic and immunotherapeutic agents, thereby suggesting the novel immunopharmacological properties of fumagillin and its analogues contributed to tumor suppression. / published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy
2

Targeting Akt in cell transfer immunotherapy for cancer

Crompton, Joseph January 2015 (has links)
No description available.
3

Corynebacterium parvum non-specific immunotherapy : Clinical and experimental studies

Mitcheson, H. D. January 1984 (has links)
No description available.
4

Modulation of the tumor microenvironment by the CXCR4 antagonist AMD3100 in pancreatic and colorectal adenocarcinoma

Smoragiewicz, Martin January 2019 (has links)
No description available.
5

A characterisation of the tumour microenvironment in murine pancreatic cancer as a target for combination immunotherapy

Wells, Richard John Beringer January 2015 (has links)
No description available.
6

Investigating the oncolytic properties of a group B adenovirus on cancer cells and its effects on the local immune response

Calderon, Hugo January 2017 (has links)
Oncolytic viruses are characterised by their ability to selectively infect and kill tumour cells. Recently it has emerged that they can exert an additional anticancer mechanism stimulating adaptive immune-mediated cancer cell killing. Enadenotucirev (EnAd, formerly known as ColoAd1), is a chimeric Ad11p/Ad3 virus group B oncolytic adenovirus that binds CD46 and is under development for the systemic treatment of metastatic carcinomas. The central aim of this thesis was to to assess whether EnAd provides an adjuvant effect on tumour-associated antigen presenting cells (APCs) that could drive T<sub>H</sub>1 polarisation for an effective anti-tumour immune response. This thesis describes the potent oncolytic properties, fast replication and high numbers of virus progeny production by EnAd in cancer cells. Recombinant EnAd variants were engineered to investigate the roles of the mutant regions in the genome of EnAd, and how these influence the modified phenotype. A chemical drug panel was used to identify pathways and cellular factors involved in cellular production of EnAd, finding that several mTOR inhibitors and microtubule inhibitors could improve virus replication. An in vitro system using partially matured human monocyte-derived dendritic cells (DCs), which displayed a similar phenotype to tumour-infiltrating DCs, was used to explore the effect of EnAd on APC responses. EnAd induced a strong adjuvant effect on these cells by up-regulating surface markers and secretion of pro-inflammatory factors. Further mechanistic experiments, alongside a CAR-binding group C adenovirus 5, indicated these adjuvant effects were virus particle-mediated and dependent on CD46 binding. To understand the functional implications downstream of these interactions, T cell activation and phenotype was assessed using a mixed lymphocyte reaction approach. The data indicated EnAd was a good candidate compared to other adenoviruses, that may steer the response of activated T-cells towards a T<sub>H</sub>1 phenotype, for an effective immune response. In conclusion, the potent oncolytic properties of EnAd virus may provide an adjuvant effect on tumour-associated APCs, helping to harness an adaptive immune response.
7

Developing new immuno-oncology drugs from traditional Chinese medicine

Li, Yang 28 October 2020 (has links)
The most exciting area in current cancer research is immuno-oncology, which aims to develop immunotherapy that activates the human immune system to attack cancers. However, we still lack broadly effective drugs and drug targets for this promising new cancer treatment modality. In an attempt to seek new immuno-oncology drugs that particularly target the antitumor innate immunity, our lab had previously screened traditional Chinese herbal medicine and found that water extract from a medicinal plant, Alocasia Cucullata (AC), has strong anticancer activity in mouse solid tumor models and acts partly by promoting antitumor, proinflammatory macrophages. However, the active components responsible for this exciting immuno-oncology activity and the corresponding immune targets are unknown. Therefore, the aim of my PhD study is to develop chemical biology strategies to isolate and purify the active components of AC from the crude water extract and identify the corresponding cellular targets and mechanisms. Results from my study identified two separable activities and active components, one smaller than 3K and the other larger than 100K, which work synergistically to simulate antitumor macrophages. Further analysis revealed the >100K active component is a large polysaccharide that binds to multiple Toll-like Receptors (TLRs) critical for activating proinflammatory M1-type macrophages. Identity of the Nonetheless, I was able to clean up this fraction by 50 fold and perform RNAseq to examine the innate immune targets of this intriguing drug lead and found it acts to differentiate monocytes to macrophages. Overall my PhD thesis has explored new chemical biology strategies to purify and characterize active components from traditional Chinese medicine towards new drug development and developed a variety of cell-based immune activity assays for identifying and characterizing novel innate immune drug targets and mechanisms
8

Investigating the co-evolution of tumor antigens and the anti-tumor immune response

Little, Nicole S 30 August 2017 (has links)
Background: High-grade serous carcinoma (HGSC) can exhibit high intratumoral heterogeneity (ITH). Despite a strong association between tumor-infiltrating lymphocytes (TIL) and survival in HGSC, ITH may have profound impacts on the anti-tumor T cell response. Yet, it is unknown how anti-tumor T cell responses contend with ITH over time in HGSC. Previous studies in melanoma and HGSC both showed tumor-reactive T cell clones emerge over time with their cognate tumor-antigens. Therefore, I hypothesized patients would share a common mechanism of T cell evolution to respond to ITH in HGSC. If so, I expect to see similar patterns of tumor recognition between primary and recurrent disease. Methods: Tumor-associated lymphocytes (TAL) were expanded from primary and recurrent ascites samples using high-dose IL-2 and a rapid-expansion protocol (REP). Following expansion, TAL were assessed for recognition of autologous tumor by IFN-γ ELISPOT and flow cytometry for CD137. CD137+ tumor-reactive TAL were FACS-purified and the tumor-reactive T cell repertoire was profiled by deep sequencing of TCRβ chains (TCRseq). Tumor-reactive TCR clonotypes were compared between primary and recurrent disease to elucidate differences in tumor-reactive populations over time in HGSC. Results: Patient TAL recognized tumor in two out of three cases. In patient IROC 060, the tumor became more immunogenic between primary and recurrent disease, which may reflect expression of new antigens and/or loss of an immunosuppressive phenotype. In patient IROC 106, the tumor remained immunogenic between primary and recurrent disease, which may reflect maintenance of stable antigen expression and an immune-sensitive phenotype. Patient IROC 034 did not exhibit any tumor-reactivity, suggesting tumor-reactivity is not ubiquitous in HGSC. FACS-purification of CD137+ T cells followed by TCRseq was successfully performed on T cell populations of both high- and low-abundance, suggesting TCRseq can be performed on populations containing very few T cells. TCRseq results that profiled the clonal repertoire of tumor-reactive TAL from primary and recurrent disease in two patients, IROC 060 and IROC 106, showed both patients had evidence of T cell loss and T cell emergence between primary and recurrent disease. Further, IROC 106 had evidence of T cell clones that were maintained between primary and recurrent disease. Conclusions: Anti-tumor T cell responses from ascites are both diverse between patients and dynamic within a patient, suggesting various mechanisms of T cell evolution to contend with ITH in HGSC. I developed a pipeline for the identification of tumor-reactive TCR sequences without the need for a priori knowledge of specific antigens. Additionally, this pipeline is feasible for very low-abundance samples, such as tumor-reactive T cells. Significance: This study provides early insights into how TAL contend with ITH in HGSC. Ultimately, these results will inform the design of adoptive T cell therapy for recurrent HGSC. / Graduate
9

Harnessing Natural Killer cells for immunotherapy against solid tumours / Adoptive NK cell therapy for solid tumours

Poznanski, Sophie M. January 2023 (has links)
Suppression of anti-tumour immunity by the tumour microenvironment remains a major barrier to the development of broadly effective immunotherapies to treat solid tumours. Cytotoxic natural killer (NK) cells are vital to anti-cancer immunity and have shown clinical efficacy for treating hematologic malignancies. However, NK cell therapies have failed to be effective against solid tumours as cytotoxic NK cells become dysfunctional in the tumour microenvironment. While tumours hinder cytotoxic NK cells, they stimulate the tumour-promoting functions of regulatory NK cells. The mechanisms that dictate NK cell polarization and their fate in the tumour microenvironment remain poorly defined but harbour key therapeutic potential. Glucose-driven cellular metabolism has emerged as a central regulator of NK cell anti-tumour activity. Notably, tumour cells have deregulated metabolism, causing a metabolically hostile environment that is low in glucose and oxygen and high in metabolic waste. In the work presented, we demonstrate that NK cells expanded from cancer patients or healthy donors exert strong anti-tumour activity and dismantle the immunosuppressive tumour microenvironments of advanced ovarian and lung cancer. As a result, expanded NK cells were capable of sensitising initially non-responsive patient tumours to PD1 checkpoint-blockade therapy. Further, we uncover that the activity of cellular metabolic pathways plays a key role in NK cell functional fate in tumour microenvironment. We show that the tumour microenvironment induces paralysis of cytotoxic NK cell glucose metabolism to cause their dysfunction. However, reprogramming of NK cell metabolism through expansion arms expanded NK cells with enhanced metabolic flexibility which enabled their anti- tumour activity to be paradoxically strengthened by the tumour microenvironment. We further identify that regulatory NK cells have a distinct metabolic program compared to cytotoxic NK cells, including lower glucose-driven metabolism, that is amenable with the tumour microenvironment. Our work provides new mechanistic insight into how NK cell fate is regulated and how the pathological environment of a tumour capitalizes on this. This knowledge provides new therapeutic targets to intervene with the suppression of cytotoxic immunity in tumours. Further, this work identifies that expanded NK cells are a promising therapeutic candidate that exploit the metabolic hostility of the tumour microenvironment and synergize with other immunotherapies. / Thesis / Candidate in Philosophy / Harnessing the body’s natural immune defenses against cancer in the form of immunotherapy has emerged as a powerful treatment modality. Over the past decade, immune cell therapies have revolutionized the treatment of blood cancers like leukemia and lymphoma. Yet despite the potential, immune cell therapies have failed to be broadly effective against solid tumours because the anti-cancer activity of immune cells, such as Natural Killer (NK) cells, becomes severely impaired by the tumour environment. In this work, we identify that NK cells expanded from cancer patients and healthy donors overcome suppression by tumours and eliminate detectable tumour in pre-clinical models of advanced ovarian and lung cancer. These expanded NK cells also enhanced the functions of other immunotherapies. Further, we shed new light on how NK cells become dysfunctional in tumours. We uncover that NK cells undergo a metabolic energy crisis in tumours that causes their dysfunction, but that expanded NK cells have increased metabolic fitness which allows them to overcome this energy crisis and remain highly functional. Finally, we also characterize the metabolism of a subset of NK cells that are tumour-promoting and find that they harbour metabolic advantages to thrive in tumours. Overall, our work provides new insight as to how to overcome immunosuppression by tumours. This work identifies that expanded NK cells are a promising therapeutic candidate that exploit the hostility of tumours and synergize with other immunotherapies.
10

Natural Killer Cell as Effectors in Chimeric Antigen Receptor Based Immunotherapies for Cancer

Hogg, Richard Thomas January 2019 (has links)
Recent developments in the expansion and manipulation of primary NK cells has allowed this source of effective anti-tumour cells to be exploited for cell-based cancer immunotherapies. While ex vivo expanded primary NK cells are highly effective in the treatment of haematological malignancies, their efficacy against the solid tumour has been limited due to the presence of immune-regulatory factors in the tumour microenvironment. These factors can abrogate NK cell function by down regulating the expression of NK activating receptors, thus preventing these highly cytotoxic effector cells from activating in response to tumour challenge. Our work explores whether the expression of a tumour specific chimeric antigen receptor (CAR) on ex vivo expanded primary NK cells would allow the lost activatory signalling to be recouped, and regain their efficacy against the solid tumour. Unfortunately, the use of primary NK cells as effectors in CAR based cell immunotherapies has been hampered by the technical limitations of producing large numbers of CAR positive primary NK cells. This has led many researchers to utilise the NK-92 cell line instead of primary cells. We demonstrate that ex vivo expanded primary CAR NK cells can be produced efficiently and demonstrate higher anti-tumour functionality than CAR NK-92. Finally, due to the intricacies of NK cell biology, they are able to effectively discriminate between healthy and malignant targets thus preventing their cytotoxic function from being directed towards the incorrect target. This could be a key advantage in the use of primary NK cells over T cells as effectors of CAR as the off-tumour/on-target adverse effects seen with CAR T cells has severely hampered this clinical strategy. We have shown that CAR T cells but not CAR NK cells are reactive towards phenotypically non-malignant, clinically relevant, healthy cells expressing the CAR target. / Thesis / Master of Science (MSc)

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