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Investigating the Role of FGL2 in Tumour Progression and Surgical Stress-Induced ImmunosuppressionGalpin, Kristianne 02 December 2022 (has links)
Fibrinogen-like protein 2 (FGL2) expression is associated with tumour progression and poor survival in a number of different cancers. In these cancers, FGL2 promotes tumour progression via an immunosuppression-mediated mechanism or by promoting angiogenesis. Querying single-cell RNA sequencing (scRNA-seq) human cancer data shows FGL2 is produced by immune and stromal cells in the tumour microenvironment (TME), while cancer cells have minimal expression of FGL2. We therefore studied the role of FGL2 produced by cells in the TME in tumour progression in two models of cancer in which the role of FGL2 has not been previously studied: epithelial ovarian cancer (EOC) and melanoma.
EOC is the most lethal gynecologic cancer with an imperative need for new treatments. Before testing novel immunotherapies, we first characterized the TME of six syngeneic ovarian cancer models. ID8-p53-/- and ID8-C3 tumours were most highly infiltrated by T cells, whereas STOSE and MOE-PTEN/KRAS tumours were primarily infiltrated by tumour associated macrophages and were unique in MHC class I and II expression. This panel of well-defined murine EOC models can serve as a valuable resource for studies that aim to test immunotherapies.
We next studied the role of FGL2 in tumour progression in melanoma and ovarian cancer models. Using wild-type and FGL2 knockout mice, we found that absence of FGL2 led to a more activated TME, including activated dendritic cells (DCs - CD86+, CD40+) and T cells (CD25+, TIGIT+), as well as demonstrating for the first time that the absence of FGL2 led to more activated Natural Killer (NK) cells (DNAM-1, NKG2D) in the TME. The absence of FGL2 prolonged survival in the B16F10 model of melanoma, and synergized with oncolytic virus to prolong survival in the ID8-p53-/-Brca2-/- model of ovarian cancer.
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Impact of a Constitutive 16p11.2 Microdeletion on Tumor Progression, Angiogenesis, and Pro-Oncogenic Transcriptional NetworksHaebe, Joshua 15 September 2022 (has links)
Colorectal cancers (CRCs) rely heavily on host-derived structures to support tumour development and maintain growth. The tumour microenvironment (TME) includes contributions from underlying vascular endothelial cells to maintain nutrient and oxygen availability, as well as a delicate interplay with effector and suppressor immune cells to ensure effective immune evasion. Despite previous attempts to target these TME components through direct, individual therapeutic interventions targeting pro-angiogenic signaling and blocking immune suppression, in many cases the CRC TME remains supportive of tumour growth. Here, I have identified a loci-specific Autism Spectrum Disorder-linked 16p11.2 microdeletion, that demonstrates a negative impact on tumour growth. Initially, I show that a constitutive 16p11.2 deficiency (16p11.2df) alters tumour growth, although has no impact on tumourigenesis. Moreover, I demonstrate that a 16p11.2df in host- derived structures of the TME but not tumour cells is sufficient to slow tumour growth. Further, I demonstrate that vascular networks are altered in tumours derived from a 16p11.2df TME. While I present systemic alterations to the immunological landscape of 16p11.2df individuals at the transcriptional level, there is no detectable alteration in cytotoxic immune cell infiltration into 16p11.2df-derived tumours despite increased expression of T cell activating cytokines. In addition to altered growth characteristics, tumours derived from 16p11.2df mice show an enrichment in apoptosis of tumour cells, despite no change in proliferation. These findings suggest the potential for a 16p11.2df-mediated induction of tumour dormancy, through which volumetric tumour growth is slowed. Together, this study demonstrates the need for further investigation of the 16p11.2 microdeletion as a critical regulator of tumour growth.
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Tumour associated macrophages in Diffuse Large B cell lymphomaDoig, Tamasin Naomi January 2016 (has links)
Tumour associated macrophages (TAMs) have been associated with prognosis in a wide variety of tumours with most studies showing a high number of macrophages equating with poor prognosis. This is postulated to be due to TAMs providing support to the tumour through a wide variety of mechanisms including suppression of the immune response, promotion of angiogenesis and provision of growth supporting signals. Previous work within the group has characterised some of the mechanisms by which Burkitt lymphoma cells attract macrophages to the tumour and some of the mechanisms by which these macrophages support tumour cell growth. This thesis extends some of the work carried out in Burkitt lymphoma to Diffuse Large B cell lymphoma (DLBCL) and examines TAMs in this tumour type. Diffuse Large B cell lymphoma is the commonest high grade lymphoma in the Western world. Like Burkitt lymphoma it is characterised by diffuse sheets of lymphoid blasts. In contrast to Burkitt lymphoma, it represents a less well-defined entity that encompasses tumours with variable morphology, genetic abnormalities and outcome. Rates of proliferation and apoptosis vary between individual tumours, and unlike Burkitt lymphoma not all cases are characterised by a prominent macrophage infiltrate. Previous work within the group has shown a relationship in Burkitt lymphoma between apoptosis, macrophage infiltration and proliferation suggesting that apoptosis recruits macrophages to provide support to the tumour cells. This relationship was studied here in a large cohort of patients with DLBCL and the same relationship shown to exist in this tumour also. Following this observation, a bioinformatic approach was taken to define a gene expression signature of the TAM in DLBCL in situ in an unbiased way. Using large publicly available human tumour gene expression datasets, a graph clustering approach using the tool Biolayout Express 3D was used to explore the transcriptome of DLCBL and other human tumours. Signatures of immune cells and stromal cells, functional pathways and tumour specific signatures were defined from individual tumour type transcriptomes by study of clusters of co-expressed genes. Further work used a novel graph clustering approach based on mean Pearson correlations to define a ‘core’ transcriptome signature shared across many unrelated tumour types and in which elements of the tumour stroma were prominent. To validate the TAM signature derived from the DLBCL dataset, protein expression of selected elements of the signature were analysed at the protein level by immunohistochemistry in an unrelated cohort of DLBCL. Selected markers from the DLBCL TAM signature were then assessed for relationship to outcome in a cohort of patients treated with CHOP chemotherapy. Of the proteins studied, a significant difference in outcome was demonstrated only for leukocyte associated immunoglobulin receptor 1 (LAIR1) expression by TAMs, where low intensity staining for LAIR1 in TAMs was associated with better overall survival. LAIR1 is a collagen-binding inhibitory receptor expressed only in cells of haemopoetic lineage whose role is little studied in macrophages. The final results chapter presents some preliminary data from co-culture experiments in which the expression of LAIR-1 on the ‘macrophage-like’ cell line THP-1 is studied in various polarisation states and the ability of these cells to support or constrain tumour cell growth studied in the presence or absence of collagen.
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Functional Remodelling of the Nucleolus by Long Noncoding RNAJacob, Mathieu January 2013 (has links)
The nucleolus is a plurifunctional organelle in which structure and function are intimately linked. Though it is primarily known as the site of ribosomal biogenesis, the nucleolus is also capable of orchestrating the immobilization of a broad range of proteins under specific environmental conditions. This process, known as nucleolar sequestration, contributes to cell viability under stress. Despite the importance of this post-translational regulatory pathway, very little is known about the mechanisms that govern it. Here, we show that heat shock and acidosis, two physiological stimuli associated with nucleolar sequestration, induce the expression of long noncoding RNA (lncRNA) from stimulus-specific loci of the ribosomal intergenic spacer (IGS). These lncRNAs, in turn, immobilize proteins encoding a nucleolar detention sequence (NoDS) within a compartment of the nucleolus termed the detention centre (DC). The DC is a spatially and dynamically distinct region, characterized by an 8-anilino-1-naphthalenesulfonate (ANS)-positive hydrophobic signature. Its formation is accompanied by a redistribution of nucleolar factors and an arrest in ribosomal biogenesis. Silencing of regulatory IGS lncRNA prevents the creation of this structure and allows the nucleolus to retain its tripartite organization and transcriptional activity. Signal termination causes a decrease in IGS transcript levels and a return to the active nucleolar conformation. We propose that the induction of IGS lncRNA, by environmental signals, operates as a molecular switch that regulates the structure and function of the nucleolus.
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The eIF4E2-Mediated Hypoxic Protein Synthesis Complex Permits Tumourigenesis in Several Genetically Distinct CancersPerera, Joseph Kishan Rex January 2013 (has links)
Identifying exploitable differences between cancer cells and normal cells has been ongoing since the dawn of cancer therapeutics. This task has proven difficult due to the complex genetic makeup of cancers. Tumours, however, share a low oxygen (hypoxic) microenvironment that selects for malignant cancer cells. It has recently been shown that cells switch from eIF4E to eIF4E2-mediated protein synthesis during periods of hypoxia, similar to those found in tumour cores. We hypothesize that this hypoxic translation complex is required for cell survival in hypoxia and can be targeted by inhibiting the eIF4E2 cap-binding protein. Here, we show that genetically diverse cancer cells require the cap-binding protein eIF4E2 for their growth, proliferation, and resistance to apoptosis in hypoxia, but not in normoxia. Furthermore, in vitro and in vivo eIF4E2-depleted tumour models cannot grow or sustain hypoxic regions without the reintroduction of exogenous eIF4E2. Thus, tumour cells could be targeted over somatic cells by selectively inhibiting their protein synthesis machinery, much like the function of antibiotics that revolutionized medicine.
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The role of the tumour microenvironment components in cancer cell behaviour and drug responseSenthebane, Dimakatso Alice 26 April 2023 (has links) (PDF)
Cancer is a public health burden which continues to cause many deaths and an economic burden worldwide. New and improved ways of thinking about anti-cancer drug design and development are needed now and in future. Recent reports demonstrate the key role played by the tumour microenvironment (TME) in tumour progression and the development of drug resistance. This study investigated the interactions between cancer cells and the stroma within the TME, specifically fibroblasts, mesenchymal stem cells (MSC), cancer stem cells (CSCs) as well as the extracellular matrix (ECM), with the goal to develop an in vitro model that mimics solid tumours in terms of cellular characteristics and drug response. Mesenchymal stem cells were investigated as potential sources of cancer-associated fibroblasts (CAFs) in solid tumours. The expression of CAFs markers, α-SMA and vimentin, increased significantly in MSCs co-cultured with oesophageal and breast cancer cells indicating conversion of MSCs into cell-like CAFs. WHCO1 (oesophageal) and MDA MB 231 (breast) cancer cells co-cultured with MSCs survived paclitaxel and cisplatin treatments better than cancer cells alone. To assess the prognostic value of CSCs, the expression and malignant behaviour of CSC markers were also examined in clinicopathologically-confirmed oesophageal cancer biopsies and in vitro. Oesophageal cancer biopsies stained strongly for the cancer stem cell markers, CD44 and ALDH1A1, demonstrating the presence of CSCs in these tumours. FACS-isolated side population cells exhibited high levels of cancer stem cell markers, self-renewal markers and drug resistance proteins and were associated with increased drug resistance versus cancer cells. In order to measure how ECM proteins affect oesophageal cancer cell response to chemotherapeutic drugs, 3D cell-derived ECMs was used as a model. The analysis of ECM proteins using qRT-PCR in oesophageal cancer biopsies showed that collagens, fibronectin, and laminins were overexpressed in tumour tissue compared with adjacent normal tissues. The culture of cancer cells on decellularised ECMs reduced the effect of drugs on cancer cells compared to those plated on plastic (control). The reduction of the effects of drugs was associated with significant activation of survival signalling pathways. Knockdown of collagen and fibronectin with siRNA combined with drugs resulted in increased sensitivity of cancer cells to drugs and lower colony formation and cancer cell migration. Lastly, this study utilized multi-cell tumour spheroids (MCTS) from WHCO1 and MDA MB 231 cells co-cultured with WI38 and CT1 fibroblasts to mimic tumour cell-stromal cell interactions as observed within the in vivo tumour microenvironment. The data show that spheroids were more resistant to drugs than monolayer cultures of the same cells. MCTS displayed characteristics similar to in vivo tumours in terms of response to drugs. Associated with these findings were increased levels of CSCs in MCTS compared to monolayer. This study demonstrated that MSCs are a possible source of ‘CAFs' in vivo and can support cancer cell growth. This study also demonstrated the presence of CSCs in tumours and that the targeting of these cells can shrink tumours and prevent potential metastasis and relapse of tumours. This study revealed that ECM proteins play major roles in the response of cancer cells to chemotherapy and suggest that targeting ECM proteins, especially type I collagen and fibronectin, can be an effective therapeutic strategy against chemoresistant tumours. MCTS, as shown in this study, is a valuable tool for the evaluation of the therapeutic effect of drugs. Overall, this study demonstrates the critical role played by the tumour microenvironment in tumour growth and metastasis and provides new insights into cancer treatment.
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Myeloid-derived suppressor cells in acute myeloid leukaemiaPyzer, Athalia Rachel January 2017 (has links)
The tumour microenvironment consists of an immunosuppressive niche created by the complex interactions between cancer cells and surrounding stromal cells. A critical component of this environment are myeloid-derived suppressor cells (MDSCs), a heterogeneous group of immature myeloid cells arrested at different stages of differentiation and expanded in response to a variety of tumour factors. MDSCs exert diverse effects in modulating the interactions between immune effector cells and malignant cells. An increased presence of MDSCs is associated with tumour progression, poorer outcomes, and decreased effectiveness of immunotherapeutic strategies. In this project, we sought to quantify and characterise MDSC populations in patients with Acute Myeloid Leukaemia (AML) and delineate the mechanisms underlying their expansion. We have demonstrated that immune suppressive MDSCs are expanded in the peripheral blood and bone marrow of patients with AML. Furthermore, AML cells secrete extra-cellular vesicles (EVs) that skew the tumour microenvironment from antigen-presentation to a tumour tolerogenic environment, through the expansion of MDSCs. We then demonstrated that MDSC expansion is dependent on tumour and EV expression of the oncoproteins MUC1 and c-Myc. Furthermore, we determined that MUC1 signalling promotes c-MYC expression in a microRNA (miRNA) dependent mechanism. This observation lead us to elucidate the critical role of MUC1 in suppressing microRNA-genesis in AML, via the down-regulation of the DICER protein, a key component of miRNA processing machinery. Finally, exploiting this critical pathway, we showed that MDSCs can be targeted by MUC1 inhibition or by the use of a novel hypomethylating agent SGI-110.
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The role of extrinsic clotting pathway activation in the colorectal cancer microenvironmentRees, Peter Adam January 2018 (has links)
Malignancy is associated with a hypercoagulable state manifested clinically by an increased incidence of venous thromboembolism (VTE). Colorectal cancer (CRC) patients who develop VTE have reduced survival. This increased mortality extends beyond the acute VTE event, suggesting that VTE is associated with aggressive tumour biology. Tissue factor (TF) and other clotting factors have been implicated in this process. However, the significance of clotting factors in the tumour microenvironment (TME) remains unknown. The aim of this thesis is to i) determine if a procoagulant TME is a biomarker for poor prognosis and VTE in patients undergoing resectional surgery for CRC and ii) determine the effect of TF, thrombin and FXa on proliferation and migration in vitro in CRC and if their inhibitors have potential as anticancer therapies. In the in vitro studies, epithelial expression of TF had a modest effect on proliferation and migration when quantified using the PrestoBlue proliferation and transwell migration assays. Exogenous TF, FXa and thrombin all increased migration in DLD-1 wild type cells. In addition, exogenous thrombin increased proliferation amongst SW620 wild type cells. This suggests that coagulation factors from the TME, rather than epithelial expression, may influence tumour biology. Moreover, dabigatran, a direct thrombin inhibitor, abrogated the pro-proliferative effects of thrombin, which highlights its potential role as an anticancer therapy. In a multicentre, prospective cohort study of 159 CRC patients undergoing resectional surgery, rates of duplex screen detected deep vein thrombosis (DVT) were correlated to plasma and tumour markers of hypercoagulability. TF is upregulated in the stroma of cancer compared to normal tissue. However, stromal TF expression decreased in more advanced (T4) tumours. This suggests that a procoagulant TME has a role in early tumourigenesis. In total, 5.4%, 7.0% and 9.1% of patients had an asymptomatic DVT pre- operatively, at six weeks post-surgery and after the commencement of adjuvant chemotherapy respectively. The development of a post-operative complication was a risk factor for DVT, whilst locally advanced tumours resulted in a prolonged hypercoagulable state i.e. raised D-dimer at six weeks. This highlights a possible role for pre- and post- operative screening duplex ultrasonography and super-extended VTE prophylaxis in selected patients. In conclusion, this thesis establishes a role for exogenous coagulation factors in promoting tumour biology in CRC. VTE is more common amongst patients undergoing resectional surgery for CRC than previously estimated. The utility of tumour and plasma hypercoagulabilty as biomarkers for survival in CRC will be further analysed when long term follow-up data is available.
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The biological and therapeutic significance of tumour necrosis : identification and characterisation of viable cells from the necrotic core of multicellular tumour spheroids provides evidence of a new micro-environmental niche that has biological and therapeutic significanceEvans, Charlotte Louise January 2014 (has links)
Tumour necrosis has long been associated with poor prognosis and reduced survival in cancer. Hypotheses to explain this include the idea that as aggressive tumours tend to grow rapidly, they outgrow their blood supply leading to areas of hypoxia and subsequently necrosis. However whilst this and similar hypotheses have been put forward to explain the association, the biological significance of the cells which make up necrotic tissue has been largely ignored. This stems from the belief that because a tumour is more aggressive and fast growing it develops areas of necrosis, rather than, the tumour is more aggressive because it contains areas of necrosis. Which came first like the egg and chicken is yet to be determined, however to date most research has only considered the possibility of the former. Viable cells were found in the necrotic core of Multicellular Tumour Spheroids. When examined these cells were found to be different to the original cell line in terms of proliferation, migration, and chemosensitivity. A proteomic analysis showed that these phenotypical changes were accompanied by changes in a large number of proteins within the cells, some of which could be potential therapeutic targets. Furthermore this has led to a new hypothesis for tumour necrosis and its association with poor prognosis. Necrotic tissue provides a microenvironemental niche for cells with increased survival capabilities. Protected from many chemotherapeutics by their non-proliferative status once conditions improve these cells can return to proliferation and repopulate the tumour with an increasingly aggressive population of cells.
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Apoptosis-driven microenvironmental conditioning by microvesicles in non-Hodgkin lymphomaPatience, Lauren Alexandra January 2017 (has links)
Plasma membrane derived microvesicles (MV) are nanoscale particles released from cells both constitutively and in response to stimuli including stress, apoptosis and oncogenic transformation. Due to their mechanism of biogenesis, the majority of MV expose phosphatidylserine (PS) on their surface and as such can be identified by staining with annexin V (AxV). First observed nearly 40 years ago as coagulant ‘dust’ originating from activated platelets, MV were initially studied for their role in thrombosis. In more recent years it has become apparent that MV release is increased in several diseases including cancer; this, in conjunction with their ability to carry cargo such as proteins and nucleic acid species, strongly implicates them in disease pathology. Given their small size it is considered likely that MV are able to travel to distal sites within the body allowing the widespread dissemination of effects otherwise not achievable by their parent cells. In the context of malignancy, the contribution of MV is especially important in that MV have been demonstrated to have roles in oncogenic transformation, promotion of tumour growth and increasing metastatic potential. Although clearly important in pathogenesis, their small size makes qualitative and quantitative analysis extremely difficult. Furthermore, the study of MV has been greatly hampered by a lack of standardised protocols for their isolation and as such the majority of studies have been in vitro. In line with this, the relevance of observed effects to in vivo systems is often questioned; given the high quantities of MV used in in vitro systems, the question of whether these concentrations bear any relevance in vivo remain to be answered. We hypothesise that the high rates of apoptosis observed in many tumours, most notably in the high grade B cell malignancy, Non-Hodgkin’s lymphoma (NHL), provides an environment whereby MV are continually released into the surrounding milieu allowing for an amplification of effects. As apoptosis has been previously implicated in promoting tumourigenesis we propose that this is extended to include MV released from apoptotic tumour cells (aMV). Given the numerous technical challenges involved in MV research, initial studies involved identifying the limitations of the instruments available for MV analysis. Preliminary experiments identified considerable resolution issues with the older style EPICS XL flow cytometer (Beckman Coulter) and so a newer flow cytometer, The Attune™ (Thermo Fisher), capable of higher resolution was utilised for the remainder of the project. Despite this improvement, flow cytometry was demonstrated to be less effective at quantifying MV than nanoparticle tracking analysis (NTA). As the fluorescent capacity of NTA is still in its infancy, it was used in concert with flow cytometry in order to quantify and phenotype MV as accurately as possible. As there is currently no concensus on an optimal method of MV isolation subsequent studies focused on determining a method of MV isolation that was appropriate for our experimental system. To this end, centrifugation, filtration and antibody coated magnetic bead-based methods were all tested and their limitations identified. In terms of bead-based isolation strategies, the generation of AxV, protein S, gla domain and gas 6 fusion proteins was attempted with the intention to conjugate to magnetic beads and provide a novel means to isolate aMV. Unfortunately this aspect of the project was ultimately abandoned due to time constraints and although commerically available antibody coated beads were tested for their ability to isolate MV, later co-culture experiments demonstrated that the beads had off target effects that were deleterious to cells. As a result, centrifugation and filtration methods were next researched and validated extensively. TEM analysis of MV morphology identified damage likely induced by the high-speed centrifugation of a fragile apoptotic cell population. As such, a protocol combining low speed centrifugation and filtration was designed and validated by several methods including TEM and staining with AxV. The surface levels of parent cell markers (CD19 and CD20) and apoptosis associated proteins were compared in aMV and vMV (MV released from viable tumour cells) and results demonstrated that B cell surface markers were off loaded into MV to a greater extent following apoptosis. Additional phenotypic studies extended previous work from the group demonstrating the presence of apoptotic cell associated molecular patterns (ACAMPs) capable of binding a panel of antibodies to LPS. Flow cytometry results confirmed the presence of ACAMPs on aMV and results from co-culture experiments with CD14 positive and negative cells suggested that unlike recognition of LPS, binding via ACAMPs was not CD14 dependent. The protein and nucleic acid content of MV was also studied and interestingly, results demonstrated significantly increased quantities of DNA and RNA in aMV compared to vMV. Furthermore, aMV were also shown to contain the matrix metalloproteinases, MMP2 and MMP12 alluding to a role for aMV in angiogenesis. The final stage of the project was focused on determining the roles of aMV in the tumour microenvironment and effects relating to cell growth, cell cycle and angiogenesis were studied and compared to vMV. Results showed that both aMV conditioned supernatant and aMV concentrated by the centrifugation were able to significantly increase the growth of the parent cell population. Further studies using DAPI staining to determine the cell cycle status of cells co-cultured with aMV demonstrated an increase in DNA synthesis and cell division upon incubation with aMV. An in vitro angiogenesis assay was designed to determine any pro-angiogenic capabilities of aMV given the earlier results demonstrating the presence of MMPs. These results provided some of the most interesting findings of the project and showed that aMV were able to increase the angiogenic potential of human endothelial cells (HUVECs); an effect that was shown to be greatly reduced following storage at either 4 or - 80°C. These results demonstrated that aMV possess factors capable of manipulating the tumour microenvironment to favour disease progression and that previously described pro-tumour functions of MV are increased as a result of apoptosis. These findings have implications both in terms of extending the previously described hallmarks of cancer and also when designing a course of therapy whereby in some instances the generation of large amounts of apoptosis may in fact serve to promote regeneration of the tumour cell population.
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