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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.
11

Apoptotic signaling in lung carcinoma cells with focus on mechanisms of radioresistance /

Ekedahl, Jessica, January 2003 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2003. / Härtill 5 uppsatser.
12

Small cell lung cancer and cancer stem cell-like cells

Sarvi, Sana January 2014 (has links)
Small cell lung cancer (SCLC) is a highly aggressive malignancy with extreme mortality and morbidity. Although initially chemo- and radio-sensitive, almost inevitable recurrence and resistance occurs. SCLC patients often present with metastases, making surgery not feasible. Current therapies, rationally designed on underlying pathogenesis, produce in vitro results, however, these have failed to translate into satisfactory clinical outcomes. Recently, research into cancer stem cells (CSCs) has gained momentum and form an attractive target for novel therapies. Based on this concept, CSCs are the cause of neoplastic tissue development that are inherently resistant to chemotherapy, explaining why conventional therapies can shrink the tumour but are unable to eliminate the tumour completely, leading to eventual recurrence. Here I demonstrate that SCLC H345 and H69 cell lines contain a subset of cells expressing CD133, a known CSC marker. CD133+ SCLC sub-population maintained their stem cell-like phenotype over a prolonged period of culture, differentiated in appropriate conditions and expressed the embryonic stem cell marker Oct-4 indicating their stem-like phenotype. Additionally, these cells displayed augmented clonogenic efficacy, were chemoresistant and tumorigenic in vivo, distinct from the CD133- cells. Thus, the SCLC CD133 expressing cells fulfil most criteria of CSClike definition. The molecular mechanisms associated with CD133+ SCLC chemoresistance and growth is unknown. Up-regulated Akt activity, a known promoter of resistance with survival advantage, was observed in CD133+ SCLC cells. Likewise, these cells demonstrated elevated expression of Bcl-2, an anti-apoptotic protein compared to their negative counterpart explaining CD133+ cell chemoresistance phenotype. Additionally, CD133+ cells revealed greater expression of neuropeptide receptors, gastrin releasing peptide (GRP) and V1A receptors compared to the CD133- cells. Addition of exogenous GRP and arginine vasopressin (AVP) to CD133+ SCLC cells promoted their clonogenic growth in semi-solid medium, illustrating for the first time neuropeptide dependent growth of these cells. A novel peptide (peptide-1) was designed based on the known structure of the substance P analogues that have shown benefit in animal models and in early clinical trials. This compound inhibited the growth of SCLC cells in in vitro with improved potency and stability compared to previous analogues and reduced tumorigenicity in vivo. Interestingly, peptide-1 was more effective in CD133+ cells due to increased expression of neuropeptide receptors on these cells. In conclusion, my results show that SCLC cells retain a sub-population of cells that demonstrate CSC-like phenotype. Preferential activation of Akt and Bcl-2 survival pathways and enhanced expression of neuropeptide receptors contribute to CD133+ SCLC chemoresistance and growth. Therefore, it can be proposed that CD133+ cells are the possible cause of SCLC development, treatment resistance and disease recurrence. Despite being chemoresistant, CD133+ cells demonstrated sensitivity to peptide-1. The identification of such new analogue that demonstrates efficacy towards resistant CD133+ SCLC cells is a very exciting step forward in the identification of a potential new therapy for resistant disease.
13

Galectin-3 regulation of non small cell lung cancer growth

Kouverianou, Eleni January 2014 (has links)
Galectin-3 is a β-galactoside binding lectin expressed in tumour cells and macrophages and has been associated with increased malignancy in a variety of cancers. Previous work has shown that galectin-3 is an important regulator of macrophage function, promoting an alternative (M2) phenotype which potentiates chronic inflammation and fibrosis. Tumour associated macrophages (TAMs) adopt an M2 phenotype and are thought to promote tumour growth by down regulating T cell effector function and promoting angiogenesis. This project examines the hypothesis that host galectin-3 promotes lung cancer growth and spread. In order to test this hypothesis, Lewis Lung Carcinoma tumour growth and metastasis was investigated in strain matched mice either expressing or deficient in galectin-3. The Lewis Lung Carcinoma cell line (LLC1) is a spontaneous lung carcinoma line, derived from C57BL/6 mice, which readily forms tumours when transplanted. Furthermore, LLC1 cells were stably transfected with a Luciferase expressing vector in order to assist detection of tumour growth and metastasis in vivo. An orthotopic model of LLC1 growth suggested that galectin-3-/- animals do not support lung carcinoma growth and spread. This finding was confirmed by a subcutaneous model of cancer growth, where it was found that wild type animals display a higher proportion of macrophages expressing a prototypic M2 marker around tumour sites compared to galectin-3-/- animals. M2-promoting cytokine transcripts were also reduced in galectin-3-/- mice. Additionally, tumours of wild type mice were more invasive and presented more mature blood vessels compared to galectin-3-/- mice. To specifically address the role of recruited cells on tumour growth, metastasis and the inflammation profile around tumour sites, in relation to galectin-3 expression, bone marrow cells (BMCs) were transplanted from wild type to galectin-3-/- mice and vice versa. It was shown that galectin-3 positive BMCs restore the wild type phenotype of tumour growth in galectin-3-/- mice, while galectin-3 deficient BMCs impair tumour growth in wild type animals. Furthermore, macrophage ablation experiments demonstrated incapacity for tumour establishment in the absence of macrophages. A series of experiments investigating reported inhibition of galectin-3 by modified citrus pectin (MCP) via competitive inhibition did not provide conclusive results. MCP had no effect in vivo, but was able to inhibit LLC1 cell growth in vitro. Most importantly though, results were inconclusive as to whether galectin-3 binds MCP. Some ligand displacement was seen, but direct binding of the molecules could not be shown. In general, the results obtained demonstrate a strong pro-tumoural effect of galectin-3 on growth, tissue invasion and metastasis of LLC1 tumours via an increased proportion of Ym1-expressing macrophages around tumour sites. It was shown that macrophages are key cells for tumour initiation and that BMC phenotype in relation to galectin-3 expression determines the phenotype of tumour development in subcutaneous and orthotopic LLC1 models. Therefore, galectin-3 has a strong regulatory effect on tumour phenotype and could present a key target in the management of lung carcinomas.
14

Regrowth resistance in platinum-drug resistant small cell lung cancer cells

Stordal, Britta Kristina January 2007 (has links)
Doctor of Philosophy (PhD) / The H69CIS200 cisplatin-resistant and H69OX400 oxaliplatin-resistant cell lines developed as part of this study, are novel models of low-level platinum resistance. These resistant cell lines do not have common mechanisms of platinum resistance such as increased expression of glutathione or decreased platinum accumulation. Rather, these cell lines have alterations in their cell cycle allowing them to proliferate rapidly post drug treatment in a process known as ‘regrowth resistance’. This alteration in cell cycle control has come at the expense of DNA repair capacity. The resistant cell lines show a decrease in nucleotide excision repair and homologous recombination repair, the reverse of what is normally associated with platinum resistance. The alterations in these DNA repair pathways help signal the G1/S checkpoint to allow the cell cycle to progress despite the presence of DNA damage. The decrease in DNA repair capacity has also contributed to the development of chromosomal alterations in the resistant cell lines. Similarities in chromosomal change between the two platinum resistant cell lines have been attributed to inherent vulnerabilities in the parental H69 cells rather than part of the mechanism of resistance. The H69CIS200 and H69OX400 resistant cells are cross-resistant to both cisplatin and oxaliplatin. This demonstrates that oxaliplatin does not have increased activity in low-level cisplatin-resistant cancer. Oxaliplatin resistance also developed more rapidly than cisplatin resistance suggesting that oxaliplatin may be less effective than cisplatin in the treatment of SCLC. The resistant cell lines have also become hypersensitive to taxol but show no alterations in the expression, polymerisation or morphology of tubulin. Rather, the PI3K/Akt/mTOR pathway is involved in both platinum resistance and taxol sensitivity as both are reversed with rapamycin treatment. mTOR is also phosphorylated in the resistant cell lines indicating that platinum resistance is associated with an increase in activity of this pathway. The mechanism of regrowth resistance in the platinum-resistant H69CIS200 and H69OX400 cells is a combination of activation of PI3K/Akt/mTOR signalling and alterations in control of the G1/S cell cycle checkpoint. However, more work remains to determine which factors in these pathways are governing this novel mechanism of platinum resistance.
15

Molecular Characterisation and Prognostic Biomarker Discovery in Human Non-Small Cell Lung Cancer

Edlund, Karolina January 2012 (has links)
Non-small cell lung cancer (NSCLC) constitutes a clinically, histologically, and genetically heterogeneous disease entity that represents a major cause of cancer-related death. Early-stage patients, who undergo surgery with curative intent, experience high recurrence rates and the effect of adjuvant treatment is modest. Prognostic biomarkers would be of particular relevance to guide intensified treatment depending on expected outcome and moreover often infer a biological role in tumourigenesis. This thesis presents a translational study approach to establish a well-characterised NSCLC frozen-tissue cohort and to obtain a profile of each specimen with regard to genome-wide copy number alterations, global gene expression levels and somatic mutations in selected cancer-related genes. Furthermore, the generation of a formalin-fixed, paraffin-embedded tissue microarray enabled validation of findings on the protein level using immunohistochemistry. The comprehensive molecular characterisation, combined with data on clinical parameters, enabled the analysis of biomarkers linked to disease outcome. In Paper I, single nucleotide polymorphism arrays were applied to assess copy number alterations in NSCLC and associations with overall survival in adenocarcinoma and squamous cell carcinoma were described. In Paper II, we evaluated expression levels of selected stromal proteins in NSCLC using immunohistochemistry and the adhesion molecule CD99 was identified as an outcome-related biomarker in two independent cohorts. Paper III presents a strategy for prognostic biomarker discovery based on gene expression profiling, meta-analysis, and validation of protein expression on tissue microarrays, and suggests the putative tumour suppressor CADM1 as a candidate biomarker. In Paper IV, we propose a prognostic role for tumour-infiltrating IGKC-expressing plasma cells in the local tumour microenvironment, indicating an involvement of the humoral immune response in anti-tumor activity. In Paper V, we combined next-generation deep sequencing with statistical analysis of the TP53 database to define novel parameters for database curation. In summary, this thesis exemplifies the benefits of a translational study approach, based on a comprehensive tumour characterisation, and describes molecular markers associated with clinical outcome in NSCLC.
16

Cisplatin, Etoposide, and Vincristine Combination Chemotherapy in the Treatment of Non-Small Cell Lung Cancer

SAITO, HIDEHIKO, SAKAI, SHUZO, NOMURA, FUMIO, SAKA, HIDEO, SAITO, HIROSHI, NAGURA, EIICHI, SHIMOKATA, KAORU, ICHIYAMA, SATOSHI, WATANABE, ATSUSHI 03 1900 (has links)
No description available.
17

Genetic heterogeneity of EGFR and KRAS mutations in primary tumor tissue from non-small cell lung cancer patients

Mattsson, Johanna January 2011 (has links)
Activated epidermal growth factor receptor (EGFR) and Kirsten rat sarcoma viral oncogene homolog (KRAS) mutations characterize molecular subgroups of non-small cell lung cancer (NSCLC) and have a strong predictive value for response to EGFR inhibitor therapy. Recently, EGFR mutation testing was included in the diagnostic algorithm of NSCLC. However, there is a controversy about the clonal stability of the mutation during the progression of the disease. The aim of this study was to analyze NSCLC tumor tissue for the presence of both EGFR and KRAS mutations in morphologically different parts of the primary tumor. Formaldehyd fixed and paraffin embedded lung cancer specimens from primary resected NSCLC patients were selected; five cases harboring EGFR and five with KRAS mutations. From each tumor, three morphologically different tumor sites were manually micro-dissected and analyzed for the presence of EGFR and KRAS mutations. Additionally, normal lung tissue at a distance from the primary tumor as well as in close vicinity was tested.The EGFR and KRAS status were consistent in the three different areas of the primary tumors of all ten cases. EGFR as well as KRAS mutations were as well detectable in close and in some distant normal lung parenchyma in 7 of 10 analyzed patient samples. In conclusion, we found consistent KRAS and EGFR mutation status in primary NSCLC tumors. This finding is of importance for clinical practice, because it indicates that any part of the tumor, independent of intratumoral histological pattern, is representative for EGFR and KRAS mutation testing.
18

Promoter DNA hypermethylation leads to Reelindown regulation in cancer cells

LI, GUO-YU, 05 July 2012 (has links)
The Reelin gene located on the human chromosome region 7q22, encodes an extracellular matrix glycoprotein, a ligand for ApoER2 and low-density lipoprotein receptors (LDL) Receptor, is required for mediating the correct positioning of neurons during embryonic brain development1. In the current study, first we applied RT-PCR and immunohistochemistry analysis (IHC) analysis on tissue microarrays (TMA) to verify the Reelin expression patterns in a variety of adult tissues, suggesting additional roles for Reelin in stabling the cyto-architecture and controlling the remodeling of many organs during development. Second, we report the Reelin expression status in tumorigenesis. We discover that the loss of Reelin expression is associated with multiple types of cancers, including more than 80% of both breast and colorectal cancers. Interestingly, our study also found suspension small cell lung cancer (SCLC) cell lines that grow as large aggregates retained high Reelin expression, whereas attached non small cell lung cancer cultures do not. That may imply the Reelin expression may be also associated with cell culture morphology and growth characteristics in the in vitro culture system for lung cancers. Our results here also demonstrated that epigenetic silencing of Reelin expression by DNA hypermethylation in tumors directly correlates with loss of Reelin expression in many cancers. Reelinmethylation was reversed and expression restored by treating tumor cell lines with the demethylating agent 5-aza-2-deoxycytidine. In conclusion, from the molecular basis of Reelingene inactivation in human cancer here, we propose that the Reelinvariation in more than 80% of breast and colorectal cancers makes it a significant novel tumor marker.
19

Therapeutic role of arsenic trioxide in small cell lung cancer : in vitro and in vivo models

Zheng, Chunyan, 鄭春艷 January 2015 (has links)
Small cell lung cancer (SCLC) is characterized by prompt response to chemotherapy and radiotherapy but relapsing with drug resistance and distant metastasis, leading to poor overall prognosis. New anticancer agents and regimens are drastically needed for SCLC treatment. Arsenic trioxide (ATO), a traditional Chinese medicine used as a poison for thousands of years, has been tested in many hematological and solid cancers both in vitro and in vivo, with promising effects. In order to establish the scientific ground for future clinical application of ATO in SCLC, this study aimed to investigate the anticancer effect and mechanism of ATO in SCLC using in vitro and in vivo models, either as a single agent or in combination with standard chemotherapy. In addition, an ATO-acquired resistant cell line (H841-AR) derived from SCLC cell line H841 was used to explore potential mechanisms of ATO resistance and cross-resistance to other chemotherapeutic drugs. In the first part of this study, ATO was shown to exert cytotoxic effect in all of the chosen SCLC cell lines. Various cellular mechanisms were triggered upon ATO exposure: redox status disturbances (hydrogen peroxide (H2O2) generation, glutathione (GSH) depletion and thioredoxin 1 (Trx1) down-regulation), mitochondrial membrane depolarization (MMD), DNA damage, apoptosis and necroptosis. In concert with this, Bcl-2 was down-regulated accompanied by MMD, release of AIF and SMAC, DNA degradation, XIAP inhibition and caspases activation. Adoption of N-acetyl-L-cysteine (NAC) and buthionine sulfoximine (BSO) demonstrated GSH depletion and reactive oxygen species (ROS) generation played the pivotal role to mediate cytotoxic effect of ATO in SCLC. In the second part of this study, when combined with chemotherapeutic agents, ATO displayed synergistic and antagonistic interaction with cisplatin and etoposide respectively in SCLC cell line models. The beneficial combination of ATO and cisplatin was also substantiated by tumor xenograft models. Augmented GSH depletion and suppressed drug efflux mechanism were found to explain the synergistic effects. In the last part of this study, H841-AR was generated as an acquired multi-drug resistant (ATO, cisplatin and etoposide) cell line to investigate the potential resistance mechanisms and possible future drug combinations. Comparing H841-AR cells with parental H841 cells using cDNA microarray, a long list of genes was altered in ATO-resistant cells. At least 20 up-regulated and 45 down-regulated genes were short-listed as candidates with a cut-off at 5-fold change. Interestingly, qPCR data has shown that 5 selected up-regulated genes in H841-AR cells were also highly expressed in DMS79 cells with intrinsic ATO resistance compared to the relatively sensitive cell lines, indicating that these genes might be associated with ATO resistance in SCLC. In summary, ATO was shown to be an active anticancer agent in SCLC, either alone or in combination with cisplatin. The major mechanisms of action of ATO and its synergism with cisplatin in SCLC were elucidated. Genetic data derived from an acquired resistant (to ATO, cisplatin and etoposide) SCLC cell line may help to uncover the mechanisms of resistance to ATO, allowing possible future drug combinations. / published_or_final_version / Medicine / Doctoral / Doctor of Philosophy
20

Epigentic silencing of the glucocorticoid receptor in small cell lung cancer cells.

Houston, Kerryn. 01 November 2013 (has links)
Small cell lung cancer (SCLC) is an aggressive neuroendocrine tumour which secretes ACTH and other related peptides. Contrary to normal production by the pituitary, ACTH production is not inhibited by glucocorticoids (Gcs) in SCLC. This insensitivity to Gc action can be attributed to impaired Gc receptor (GR) expression in these cells. Over-expression of the GR induces apoptosis both in vitro and in vivo. Evasion of GR signalling thus confers a significant survival advantage to SCLC cells. Re-expression of endogenous GR in SCLC cells may provoke the same effect. Many tumours silence the expression of tumour suppresser genes by epigenetic mechanisms. Recent evidence suggests that the GR in SCLC cells is epigenetically silenced by hypermethylation of its promoter. The overall aim of this study was to determine whether endogenous GR re-expression induces apoptosis of SCLC cells. The DMS 79 SCLC cell line, and the control HEK and non-SCLC A549 cell lines were treated with the DNA methyltransferase inhibitor (DNMTi), 5-aza-2′-deoxycytidine (5-aza), to determine whether treatment with 5-aza results in re-expression of endogenous GR. Conflicting results were thought to result from the use of possibly degraded 5-aza. However, a quantitative real-time PCR analysis using newly purchased, freshly prepared 5-aza indicated that 5-aza treatment up-regulated GR mRNA expression in the DMS 79 cells (p<0.0005). No significant changes in GR expression were seen in the HEK and/or A549 cells, suggesting that the GR in these cell lines is not methylated. Contrary to expectations and possibly due to the use of degraded stock, Western blot analysis revealed that 5-aza had no effect on GR protein expression in DMS 79 cells, yet affected GR protein expression in HEK and A549 cells (p=0.003 and p=0.042, respectively). Cell viability assays indicated that treatment with varying concentrations of 5-aza had no effect on the viability of DMS 79 and A549 cells, but had a minimal effect on HEK cell (p<0.0005) viability. These data reinforce the hypothesis that stock 5-aza had degraded as 5-aza is known to exert cytotoxic effects at higher concentrations. Using newly purchased, freshly prepared 5-aza, flow cytometry and/or microscopy were performed to establish whether endogenous GR re-expression was sufficient to kill the SCLC cells by apoptosis. FITC Annexin V staining and nuclear morphology showed that significant proportions of the 1 μM (p=0.010 and p=0.027) and 5 μM (p=0.002 and p=0.018) 5-aza treated DMS 79 cells were apoptosing, with little apoptosis seen in HEK cells. 5-Aza induced negligible HEK cell death, as determined by microscopic analyses. The effect of dexamethasone (Dex; a synthetic Gc) on HEK and DMS 79 cells was examined to determine whether Gc treatment could enhance apoptosis. Treatment with Dex alone, and in combination with 5-aza, resulted in significant HEK cell death (p=0.046 and p=0.005 respectively), but not apoptosis. This was unexpected as HEK cells express very little unmethylated GR, and may be due to excessive drug exposure or combined drug toxicity. The same effect was observed with DMS 79 cells (p=0.003 and p<0.0005 respectively), with 5-aza appearing to enhance cell death induced by Dex. No effects on apoptosis were seen confirming earlier reports that GR-mediated apoptosis is ligand-independent. As 5-aza does not selectively demethylate the GR, cells were exposed to the GR antagonist, RU486, to establish whether apoptosis associated with 5-aza treatment is specifically due to demethylation and subsequent expression of the GR. Treatment with RU486 in conjunction with 5-aza induced cell death (p=0.014), but not apoptosis, of HEK cells. Again, this may have been due to excessive drug exposure or combined drug toxicity. Flow cytometric data showed that DMS 79 cell death was induced by both RU486 (p=0.004), and RU486 in combination with 5-aza (p=0.003). Furthermore, although not significant, RU486 treatment appeared to inhibit apoptosis induced by 5-aza in the DMS 79 cells. The data suggest that re-expression of the GR may be responsible for apoptotic induction. Our findings, although not significant, hint that endogenous re-expression of the GR leads to apoptosis. Unlike mutations, epigenetic marks are reversible and clinical trials with DNMTis have shown promising results. The identification of a novel endogenous mechanism that specifically induces apoptosis of SCLC cells offers great promise for the development of targeted therapeutics for the treatment of this deadly disease. / Thesis (M.Sc.)-University of KwaZulu-Natal, Westville, 2013.

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