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Gene expression of MAP2K1 and Cyclin D1 in BDII rat model of Endometrial cancerBudnjo, Almir January 2016 (has links)
Endometrial adenocarcinoma (EAC) is the most frequently diagnosed gynecological cancer of the female genital tract in the Western world. Research studies in EC is difficult to conduct on human tumor samples due to the complex nature of tumor arousal and genetic heterogeneousness in the human population. Therefore, inbred animal models can be promising tools to use in EC research due to similar histopathology and pathogenesis as humans. Studies performed on MAP2K1 and CCND1 has shown that their altered expression play a crucial role in carcinogenesis. CCND1 has been demonstrated to have oncogenic properties when overexpressed in human neoplasias. The aim of this study is to investigate gene expression levels of MAP2K1 and CCND1 in BDII rat model of endometrial adenocarcinoma cells. Quantitative real-time PCR was used to analyze expression levels of MAP2K1 and CCND1 genes in BDII/Han rat model of endometrial cancer cells using TaqMan approach. The differences in gene expression levels of MAP2K1 and CCND1 between pathologically EAC malignant and nonmalignant cells showed an upregulation of MAP2K1 and CCND1 in EAC malignant cells. The analyzed data presented observable mean differences between MAP2K1 and CCND1 in several endometrial cell lines that were examined. Although no statistical significance was reached, an alteration in gene expression levels in malignant and nonmalignant endometrial cells could be observed. Furthermore, this present study shows observable upregulation of MAP2K1 and CCND1 in endometrial carcinoma cells vs. nonmalignant endometrium cells and encourages further investigation of the role of CCND1 and MAP2K genes in endometrial carcinogenesis.
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Design, synthesis and biological evaluation of potential inhibitors of S100P, a protein implicated in pancreatic cancerCamara, Ramatoulie January 2015 (has links)
Pancreatic cancer is relatively uncommon. Despite its relative scarcity, it is the fourth-ranked cancer killer in the Western world with less than a 5% 5-year survival rate. The high mortality rate is due to the asymptomatic nature of the disease and the advanced stage at which it is usually diagnosed. S100P is a calcium-binding protein that has been shown to be highly expressed in the early stages of pancreatic cancer and has been proposed as a potential therapeutic target via the blocking of its interaction with its receptor RAGE, the receptor for advanced glycation end-products. In this thesis, computational techniques were employed on the NMR ensemble of S100P (PDB Accession code 1OZO) to identify potential inhibitors of the S100P-RAGE interaction in the hope of identifying a series of novel leads that could be developed into clinical candidates for the treatment of pancreatic cancer. In silico studies identified putative binding sites at the S100P dimeric interface capable of accommodating cromolyn, an anti-allergy drug shown to bind to the protein both in vitro and in vivo. Virtual screening of >1 million lead-like compounds using 3D pharmacophore models derived from the predicted binding interactions between S100P and cromolyn, identified 9,408 'hits'. These were hierarchically clustered according to similarities between chemical structures into 299 clusters and 77 singletons. Biological screening of 17 of the 'hits' identified from virtual screening stuidies, 4 of which were synthesised in-house, against pancreatic cancer cell lines identified five compounds that demonstrated an equal or greater capacity to reduce BxPC-3 S100P-expressing pancreatic cells' metastatic potential in vitro relative to cromolyn. Compound 24 in particular, showed significant (p<0.05) inhibition of invasion of these cells at a concentration of 100 μM that was comparable to cromolyn at the same concentration. This compound, structurally distinct from cromolyn, was successfully synthesised, purified and characterised in-house alongside 39 of its analogues. Biological screening of compound 24 and four of its analogues for anti-proliferative activity against BxPC-3 and Panc-1 pancreatic cancer cell lines showed all five compounds significantly (p < 0.0001) inhibiting proliferation in both cell lines at a concentration of 1 μM relative to the non-treated control. Hence, structurally distinct compounds that show promising inhibitory activity on the metastasis and proliferation of pancreatic cancer cells have been identified using a structure-based drug design methodology. These compounds, with further optimisation, could provide good starting points as therapeutic lead candidates for the treatment of pancreatic cancer.
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THE PROGNOSTIC POTENTIAL OF THE EPIDERMAL GROWTH FACTOR RECEPTOR AND NUCLEAR FACTOR KAPPA B PATHWAYS AND ASSOCIATED THERAPEUTIC STRATEGIES IN PATIENTS WITH SQUAMOUS CELL CARCINOMA OF THE HEAD AND NECKWirth, Pamela 01 January 2010 (has links)
Little is known about the signaling pathways that contribute to treatment response in advanced stage head and neck tumors. Increased expression of epidermal growth factor receptor (EGFR) and downstream pathways such as nuclear factor kappa B (NFκB) are implicated in aggressive tumor phenotypes and limited response to therapy. This study explored the rationale for combining the proteasome inhibitor bortezomib with the EGFR inhibitor gefitinib in a subset of head and neck squamous cell carcinomas with high EGFR gene amplification. Drug responses of gefitinib and bortezomib as single agents and in combination within head and neck squamous cell carcinoma cell lines were analyzed using MTS assays. The effects of gefitinib on the activation of EGFR and itsthree major downstream pathways, Akt, STAT3 and MAPK were determined by western blotting. The activation status of NFκB and the effects of bortezomib on the canonical pathway were assessed by DNA binding assays. Resistance to lower doses of gefitinib was associated with elevated EGFR and activated Akt expression. Gefitinib was able to effectively inhibit activation of STAT3, Akt and MAPK in HNSCC to varying degrees depending on EGFR expression status. Bortezomib treatment inhibited TNFα –induced nuclear NFκB/RelA expression but demonstrated variability in levels of baseline nuclear NFκB/RelA expression between sensitive and resistant cell lines. Bortezomib effectively suppresses NFκB/RelA nuclear activation but demonstrates additional modes of cellular toxicity beyond the NFκB pathway in sensitive cell lines. Further understanding of tumor response to the targeted inhibitors gefitinib and bortezomib may provide novel approaches in managing HNSCCs.
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