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241	Identificação de novos inibidores da migração celular em células de câncer de mama e próstata / Identification of a new inhibitors of cellular migration in breast and prostate tumor cell. Stevanatto, Karime Bittar 09 December 2008 (has links) Câncer é a proliferação descontrolada de células anormais do organismo. As células cancerosas podem se transferir para outras partes do corpo onde passam a crescer e substituir o tecido sadio, num processo conhecido como metástase. De um total de 58 milhões de mortes ocorridas no mundo em 2007, o câncer foi responsável por 7,6 milhões. O câncer de mama é o segundo tipo de câncer mais freqüente no mundo, sendo o mais comum entre as mulheres. A cada ano, cerca de 20% dos novos casos de câncer em mulheres são de mama. No que diz respeito a valores absolutos, o câncer de próstata é o sexto tipo de câncer mais comum no mundo e o mais prevalente em homens, representando cerca de 10% do total. As principais formas de tratamento são a cirurgia, quimioterapia, radioterapia, hormonioterapia, imunoterapia e as terapias-alvo. Os tratamentos quimioterápicos e radioterápicos, principalmente, possuem baixa seletividade em sua ação frente a células malignas e benignas. O presente trabalho de dissertação tem como objetivo o desenvolvimento de testes in vitro, como o wound healing e o de migração, empregando células de adenocarcinoma mamário humano (MDA-MB-231) e de câncer de próstata humano (DU-145), além da triagem biológica de compostos químicos visando à identificação de novos candidatos a inibidores do processo de migração celular (metástase). Os protocolos experimentais foram estabelecidos e padronizados com sucesso, fornecendo resultados reprodutíveis, confiáveis e validados. Após extensivas triagens biológicas, duas classes de candidatos a inibidores foram identificadas. / Cancer is an abnormal proliferation of cells from an organ or tissue. The cancer cells may spread from one organ or part to another non-adjacent organ or part in a process called metastasis. In 2007, cancer was responsible for 7.6 million out of the 58 million deaths occurred in the World. Breast Cancer is the second leading cause of cancer death in the World, and the most frequent in women. Each year, over 20% of the new cases of cancer in women are breast cancer. In absolute values, prostate cancer is the sixth type of cancer more common in the World and the most prevalent in the men, representing about 10% of the total. There are a number of different methods used to treat cancer, including surgery, radiation and chemotherapy. Chemotherapy and radiotherapy treatments show low effectiveness and selectivity towards malignant and benign cells. The objective of the present dissertation work is to develop in vitro assays, such as wound healing and cell migration employing MDA-MD-231 breast cancer cells and DU-145 prostate cancer cells, as well as perform biological screening of chemical compounds in order to identify selective inhibitors of tumor metastasis as novel lead candidates for further development. The experimental protocols have been successfully implemented providing reproducible and reliable results. After extensive biological investigations, two inhibitor candidate classes have been identified. Anticancer Anticâncer Cancer Câncer Cells células Drug Design In vitro Assays Inhibitors Inibidores Medicinal Chemistry Planejamento de Fármacos Química Medicinal Testes in vitro
242	Azido- and Triazolyl-modified Nucleoside/tide Analogues: Chemistry, Fluorescent Properties, and Anticancer Activities Wen, Zhiwei 25 June 2018 (has links) Two classes of C5 azido-modified pyrimidine nucleosides were synthesized and explored as radiosensitizers. The 5-azidomethyl-2'-deoxyuridine (AmdU) was prepared from thymidine and converted to its cytosine counterpart (AmdC). The 5-(1-azidovinyl) modified 2'-deoxyuridine (AvdU) and 2'-deoxycytidine (AvdC) were prepared employing regioselective Ag-catalyzed hydroazidation of 5-ethynyl pyrimidine substrates with TMSN3. AmdU and AmdC were converted to 5'-triphosphates AmdUTP and AmdCTP, and incorporated into DNA-fragments via polymerase-catalyzed reaction during DNA replication and base excision repair. Radiation-mediated prehydrated electrons formed in homogeneous aqueous glassy (7.5 M LiCl) systems in the absence of oxygen at 77 K led to site-specific formation of π-type aminyl radicals (RNH•) from AmdU, AmdC, AvdU, and AvdC. The ESR spectral studies and DFT calculations showed RNH• undergo facile conversion to thermodynamically more stable σ-type iminyl radicals, R=N•. For AmdU, conversion of RNH• to R=N• was bimolecular involving α-azidoalkyl radical as intermediate; however, for AvdU, RNH• tautomerized to R=N•. Our work provides the first evidence for the formation of RNH• attached to C5 position of azidopyrimidine nucleoside and its facile conversion to R=N• under reductive environment. These aminyl and iminyl radicals can generate DNA damage via oxidative pathways. The azido-nucleosides were successfully applied as radiosensitizers in EMT6 cancer cells in both hypoxic and normoxic conditions. To explore the generation and reactivity of 2'‑deoxyguanosin-N2-yl radical (dG(N2-H)•) postulated to generate from guanine moiety towards •OH, 2-azido-2'-deoxyinosine (2-N3dI) was prepared by conversion of 2-amino group in protected dG into 2-azido via diazotization with tert-butyl nitrite followed by displacement with azide and deprotection. The investigation of dG(N2-H)• generated from 2-N3dI and its subsequent reactions using ESR will be discussed. Cycloaddition between 5-ethynylpyrimidine or 8-ethynylpurine nucleosides and TMSN3 in the presence of Ag2CO3, CuI, or CuSO4/sodium ascorbate provided N-unsubstituted 1,2,3-triazol-4-yl analogues of the parental DNA bases (i.e. 5-TrzdU, 5‑TrzdC, 8-TrzdA, and 8-TrzdG). These novel triazolyl nucleosides showed excellent fluorescent properties: 8-TrzdA exhibits the highest quantum yield (ΦF) of 44% while 8‑TrzdG had ΦF of 9%. The 5-TrzdU and 5-TrzdC showed a large Stokes shift of ~110 nm. The application of these fluorescent nucleosides to cell imaging and DNA modifications will also be discussed. azide aminyl radical iminyl radical anticancer hypoxia radiosensitizer triazole fluorescent nucleoside analogues Organic Chemicals
243	Do the new signal transduction modulators have activity in vitro in tumor cells from ovarian carcinoma and lymphoma? Lundin, Desiré January 2005 (has links) <p>During the last decades, chemotherapy with cytotoxic drugs has played a significant role in cancer therapy. It’s important to develop new anticancer drugs, and drug sensitivity testing in vitro can be used to find the right diagnosis for the newly developed substances.</p><p>The aim of this study was to investigate the cytotoxic activity of the new signal transduction modulators bortezomib, gefitinib and PKC412. The well-established substances cisplatin, cytarabine, doxorubicin and vincristin were investigated for comparison.</p><p>The activity of the cytotoxic drugs was analysed in human tumor samples from patients with ovarian carcinoma (n=16) and lymphoma (n=15) by using the Fluorometric Microculture Cytotoxicity Assay (FMCA). The testing of cellular drug resistance by FMCA was accomplished successfully in 33 out of the 34 samples (97%).</p><p>The results of this study indicated that the activity of cytotoxic drugs in tumor cells obtained from patients with ovarian carcinoma and lymphoma may be detected by the FMCA. It also suggested that bortezomib and gefitinib could represent promising agents for treatment of ovarian carcinoma and that PKC412 might be of less use for patients with this diagnose.</p> Anticancer drug development ovarian carcinoma lymphoma FMCA cytotoxic drugs in vitro assay Biochemistry and clinical chemistry Biokemi och klinisk kemi
244	Do the new signal transduction modulators have activity in vitro in tumor cells from ovarian carcinoma and lymphoma? Lundin, Desiré January 2005 (has links) During the last decades, chemotherapy with cytotoxic drugs has played a significant role in cancer therapy. It’s important to develop new anticancer drugs, and drug sensitivity testing in vitro can be used to find the right diagnosis for the newly developed substances. The aim of this study was to investigate the cytotoxic activity of the new signal transduction modulators bortezomib, gefitinib and PKC412. The well-established substances cisplatin, cytarabine, doxorubicin and vincristin were investigated for comparison. The activity of the cytotoxic drugs was analysed in human tumor samples from patients with ovarian carcinoma (n=16) and lymphoma (n=15) by using the Fluorometric Microculture Cytotoxicity Assay (FMCA). The testing of cellular drug resistance by FMCA was accomplished successfully in 33 out of the 34 samples (97%). The results of this study indicated that the activity of cytotoxic drugs in tumor cells obtained from patients with ovarian carcinoma and lymphoma may be detected by the FMCA. It also suggested that bortezomib and gefitinib could represent promising agents for treatment of ovarian carcinoma and that PKC412 might be of less use for patients with this diagnose. Anticancer drug development ovarian carcinoma lymphoma FMCA cytotoxic drugs in vitro assay Biochemistry and clinical chemistry Biokemi och klinisk kemi
245	Peptide-Mediated Anticancer Drug Delivery Sadatmousavi, Parisa 13 August 2009 (has links) An ideal drug delivery system should contain an appropriate therapeutic agent and biocompatible carrier. In this study, we investigated the ability of the all-complementary self-assembling peptide AC8 in stabilizing the anticancer compound and determined the in-vitro therapeutic efficacy of the peptide-mediated anticancer drug delivery. The all-complementary peptide AC8 was designed based on the amino acid pairing principle (AAP), which contains hydrogen bonding, electrostatic, and hydrophobic interaction amino acid pairs. AAP interactions make the peptide capable of self-assembling into β-sheet structure in solution in a concentration dependent manner. Peptide solution concentration is a key parameter in controlling the nanoscale assembling of the peptide. The critical assembly concentration (CAC) of the peptide was found ~ 0.01 mg/ml by several techniques. The all-complementary peptide AC8 was found to be able to stabilize neutral state of hydrophobic anticancer compound ellipticine in aqueous solution. The formation of peptide-ellipticine complex was monitored by fluorescence spectroscopy at different mass ratios of peptide-to-ellipticine. The anticancer activity of the complexes with neutral state of ellipticine was found to show great anticancer activity against two cancer cells lines, A-549 and MCF-7. This peptide-mediated anticancer delivery system showed the induction of apoptosis on cancer cells in vitro by flow Cytometry. hydrophobic anticancer drug drug encapsulation critical assembly concentration Cytotoxicity Apoptosis induction Chemical Engineering
246	Peptide-Mediated Anticancer Drug Delivery Sadatmousavi, Parisa 13 August 2009 (has links) An ideal drug delivery system should contain an appropriate therapeutic agent and biocompatible carrier. In this study, we investigated the ability of the all-complementary self-assembling peptide AC8 in stabilizing the anticancer compound and determined the in-vitro therapeutic efficacy of the peptide-mediated anticancer drug delivery. The all-complementary peptide AC8 was designed based on the amino acid pairing principle (AAP), which contains hydrogen bonding, electrostatic, and hydrophobic interaction amino acid pairs. AAP interactions make the peptide capable of self-assembling into β-sheet structure in solution in a concentration dependent manner. Peptide solution concentration is a key parameter in controlling the nanoscale assembling of the peptide. The critical assembly concentration (CAC) of the peptide was found ~ 0.01 mg/ml by several techniques. The all-complementary peptide AC8 was found to be able to stabilize neutral state of hydrophobic anticancer compound ellipticine in aqueous solution. The formation of peptide-ellipticine complex was monitored by fluorescence spectroscopy at different mass ratios of peptide-to-ellipticine. The anticancer activity of the complexes with neutral state of ellipticine was found to show great anticancer activity against two cancer cells lines, A-549 and MCF-7. This peptide-mediated anticancer delivery system showed the induction of apoptosis on cancer cells in vitro by flow Cytometry. hydrophobic anticancer drug drug encapsulation critical assembly concentration Cytotoxicity Apoptosis induction Chemical Engineering
247	Preparation And Evaluation Of Polymer Based Microcarriers For Hydrophobic Anti-cancer Drugs Demetci, Demet 01 December 2007 (has links) (PDF) Chemotherapy is one of the most important treatments for cancer. However, systemic toxicity, drug resistance and unstable kinetics of the drug in the blood are serious problems of chemotherapy. The use of biodegradable polymers for controlled release of anticancer drugs has gained popularity in recent years. Controlled release of drugs from polymeric carriers has some advantages such as improvement in the efficiency of treatment, reduction in systemic toxicity and prevention of the drug resistance that is developed by the cancer cells. In this study, poly(D,L-lactide-co-glycolide) microparticles were used as carriers for the controlled release of all-trans-Retinoic acid, tamoxifen, tamoxifen citrate and idarubicin. It was aimed to prepare a drug carrier system for controlled release of hydrophobic anticancer drugs. The empty and drug loaded poly (D,L-lactide-co-glycolide) microparticles were prepared by solvent extraction/evaporation technique with single emulsion (oil/water). Optimized microparticles were characterized by using inverted light microscopy and scanning electron microscopy to examine their morphology and sizes. Drug content of microparticles and the amount of released drug were determined spectrophotometrically. In vitro toxicity of the microparticles on MCF-7 human breast cancer cells was investigated. It was revealed that the microparticles were smooth and spherical in shape. Their sizes differed in the range of 2-20 &micro / m. atRA-loaded microparticles showed approximately 90% encapsulation efficiency and it was confirmed that changing in drug/polymer ratio affected the extend of drug content. Increase in drug content caused a slower release pattern. Moreover, although the empty microparticles caused some toxicity, atRA-loaded PLGA microparticles showed slight cell growth inhibition. TP Biotechnology 248.13-248.65
248	Tumorspezifische Substanzen zur Symptomkontrolle in der Palliativmedizin - Entscheidungsfindung und Anwendung / Anticancer therapies in specialized palliative care - decision making processes and therapeutic application von Schoenebeck, Xenia 18 June 2012 (has links) No description available. 610 Medizin, Gesundheit MED 430 Medicine Palliativmedizin Tumorspezifische Substanzen Symptomkontrolle symptom control palliative care anticancer therapies 44.66
249	Preparation And Characterization Of Poly(d,l-lactide-co-glycolide) Microspheres For Controlled Release Of Anticancer Drugs Eyovge, Gokcen 01 August 2005 (has links) (PDF) Breast cancer is the most frequent type of cancer seen in woman. Chemotherapy is one of the most important treatments for breast cancer. However, systemic toxicity, drug resistance and unstable kinetics of the drug in the blood are serious problems of chemotherapy. The use of biodegradable polymers for controlled release of anticancer drugs has gained popularity in recent years. Controlled release of anticancer drugs from polymeric carriers has some advantages such as improvement in the efficiency of treatment, reduction in systemic toxicity and prevention of the drug resistance that is developed by the cancer cells. In this study, it was aimed to prepare such a controlled release system for anticancer drugs which are used in breast cancer treatment by using biodegradable copolymer poly(D,L-lactide-co-glycolide) and to characterize in terms of morphology, size, drug content and drug release rate. In the first part of this study / empty and drug loaded poly (D,L-lactide-co-glycolide) microspheres were prepared. Two sets of empty poly(D,L-lactide-co-glycolide) microspheres were prepared by solvent evaporation technique with single emulsion (oil/water) to determine the effect of stirring rate on size of microspheres. Increase in stirring rate caused decrease in size of microspheres. Drug loaded poly(D,L-lactide-co-glycolide) microspheres were prepared for controlled release of anticancer drugs which are used in breast cancer treatment namely / 5-fluorouracil, methotrexate and tamoxifen by using solvent evaporation technique either with double emulsion (water/oil/water) or single emulsion (oil/water). In the second part of this study / empty and drug loaded microspheres were characterized. Inverted light microscopy and scanning electron microscopy were used to examine morphology and size of microspheres. Drug content of microspheres and amount of released drug were determined and drug release profile was obtained for each anticancer drug separetely. QH General Biology 301-705
250	Integrating Efficacy and Toxicity in Preclinical Anticancer Drug Development : Methods and Applications Haglund, Caroline January 2011 (has links) Preclinical testing is an important part of cancer drug development. The aim of this thesis was to establish and evaluate preclinical in vitro methods useful in the development of new anticancer drugs. In paper I, the development of non-clonogenic assays (FMCA-GM) using CD34+ stem cells for assessment of haematological toxicity was described. A high correlation was seen when comparing the 50% inhibitory concentrations (IC50) from FMCA-GM with the IC50 from the established clonogenic assay (CFU-GM). In paper II, FMCA-GM was complemented with additional cell models, establishing a normal cell panel. In vitro toxicity towards the five normal cell types was compared with known clinical adverse event profiles. The normal cell panel roughly reflected the tissue specific toxicities but was most useful in the prediction of therapeutic index. In paper III the use of peripheral blood lymphocytes from human, dog, rat and mouse to detect species differences in cellular drug sensitivity was described. Good agreement between our method and the established CFU-GM assay was observed. In paper II the benefit of using primary tumour cells from patients to predict cancer diagnosis-specific activity was studied. The in vitro activity of fourteen anticancer drugs was tested in tumour samples of both haematological and solid tumour origin. In general, clinical activity was well reflected. In paper IV, the efficacy and toxicity models were applied for experimental follow-up of a novel inhibitor of the ubiquitin-proteasome system, CB3 (Phosphoric acid, 2,3-dihydro-1,1-dioxido-3-thienyl diphenyl ester). In the preliminary characterization of CB3, antitumour activity and a favourable toxicity profile were displayed, although the exact mechanism of action remains to be elucidated. CB3 will therefore be further investigated. In conclusion, the work presented here contributes to different parts of the preclinical drug development and the methods may aid in the characterization of anticancer compounds Anticancer drugs In vitro assays Toxicity testing Haematological toxicity Primary tumour cells Species difference Clinical pharmacology Klinisk farmakologi

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