Global ETD Search

351	Arranjos supramoleculares de drogas em lípides sintéticos e/ ou polieletrólitos: estabidade coloidal e atividade in vitro / Supramolecular assemblies of drugs in synthetic lipid and/ or polyelectrolytes: colloid stability and in vitro activity Débora Braga Vieira 15 April 2008 (has links) Formação, estabilidade coloidal e atividade in vitro contra Candida albicans dos arranjos supramoleculares compostos por drogas, lípides catiônicos e/ ou polieletrólitos foram sistematicamente avaliados através de espalhamento de luz dinâmico para tamanho de partículas, análise de potencial-zeta, espectrofotometria UV-visível, efeitos de droga sobre a transição de fase gel para líquido-cristalina da bicamada catiônica e quantificação de incorporação de droga nos diferentes sistemas. Arranjos supramoleculares de drogas antifúngicas como miconazol ou anfotericina B foram obtidos por solubilização das drogas em fragmentos de bicamada catiônica de brometo de dioctadecildimetilamônio ou como partículas de droga recobertas com uma camada do mesmo lípide catiônico. Como modelo de droga anticancerígena, a cisplatina foi incorporada com sucesso em polieletrólitos de carga oposta: quitosana e carboximetilcelulose. Cisplatina induziu substancial estabilização coloidal e redução de tamanho de partículas de carboximetilcelulose-quitosana, possivelmente atuando como agente de ligação cruzada entre os dois polieletrólitos. Assim também, arranjos supramoleculares de anfotericina B em baixa e em alta proporção molar droga: lípide catiônico foram revestidos com polieletrólitos como carboximetilcelulose, cloreto de poli(dimetildialilamônio) e polilisina formando nanopartículas catiônicas. Nanopartículas catiônicas de anfotericina B apresentaram estabilidade coloidal e atividade fungicida ótima. Quanto aos arranjos do miconazol com os fragmentos de bicamada catiônica, observou-se o mesmo com a vantagem de se obter ação sinérgica entre o lípide catiônico e a droga. Dois sítios de interação com fragmentos de bicamada catiônica foram identificados para o miconazol: (1) as bordas hidrofóbicas disponíveis à temperatura ambiente; (2) os sítios no seio da bicamada ocupados com o aumento de temperatura. A potente ação antimicrobiana do lípide catiônico brometo de dioctadecildimetilamônio (DODAB) per se, motivou um estudo sistemático da ação antimicrobiana comparada de DODAB e brometo de cetiltrimetilamônio (CTAB) contra Candida albicans. A adsorção destes compostos e seus agregados sobre a célula diminuiu seguindo a ordem: CTAB > fragmentos de bicamada de DODAB > vesículas grandes de DODAB. A ausência de vazamento de compostos fosforilados intracelulares de baixo peso molecular, DNA ou proteína em presença dos catiônicos evidenciou mecanismo de ação antimicrobiana independente de lise celular. A adsorção dos compostos catiônicos sobre células de Candida albicans mudou o sinal de potencial da superfície celular de negativo para positivo, exibindo uma relação clara entre a carga positiva sobre a célula e morte celular. / The formation, colloid stability and activity in vitro against Candida albicans of several supramolecular assemblies composed of drug, cationic lipid and/or polyelectrolytes were systematically evaluated by means of dynamic light scattering for particle sizing, zeta- potential analysis, UV-visible spectroscopy, effect of drug on gel-to-liquid-crystalline phase transition of the cationic bilayer and determination of drug loading. Supramolecular assemblies of antifungal drugs such as miconazole and amphotericin B were obtained by solubilization of the drugs in cationic bilayer fragments composed of dioctadecyldimethylammonium bromide or coverage of drug particles with a layer of the quoted cationic lipid. As a model of anticancer drug, cisplatin was sandwiched between two oppositely charged polyelectrolytes: chitosan and carboxymethylcellulose. Cisplatin induced reduction in particle size acting as a cross-linker between polyelectrolytes. For amphotericin B, at low and high molar proportion drug to cationic lipid, similar supramolecular assemblies were coated by polyelectrolytes such as carboxymethylcellulose, poly(diallyldimethylammonium) and polylysine yielding cationic nanoparticles that presented optimal colloid stability and fungicidal activity. Miconazole became attached at the hydrophobic edges of bilayer fragments at room temperature and/or, upon an increase in temperature, inserted in the bilayer core. Curiously, this last formulation in the cationic lipid yielded a synergistic action against Candida albicans. Dioctadecyldimethylammonium bromide (DODAB) is an excellent antimicrobial agents per se. Its mechanism of antimicrobial action was compared to the one for hexadecyltrimethylammonium bromide (CTAB). Adsorption of these compounds on the cells decreased going from CTAB to DODAB bilayer fragments and to large vesicles. Absence of leakage of small phosphorylated compounds, proteins or DNA from fungus indicated a mechanism of action different from cell lysis. Adsorption of the cationic compounds changed the sign of the cell zeta-potential from negative to positive. There was a clear relationship between positive charge on fungus and death. Anfotericina B Antifúngicos Brometo de dioctadecildimetilamônio Candida albicans Cisplatina Miconazol Polieletrólitos Polímeros Quimioterápicos Amphotericin B Candida albicans Cisplatin Dioctadecyldimethylammonium bromide Miconazole Polimers Polyelectrolytes
352	[en] DETERMINATION OF BIOMOLECULES DERIVED FROM PLATINUM-BASED ONCOLITIC COMPOUNDS IN DIFFERENT CELL LINES / [pt] DETERMINAÇÃO DE BIOMOLÉCULAS DERIVADAS DE COMPOSTOS ONCOLÍTICOS À BASE DE PLATINA EM DIFERENTES LINHAGENS CELULARES 29 November 2021 (has links) [pt] A utilização de drogas à base de platina é o tratamento de primeira linha para diversos tipos de câncer. Pacientes tratados com estas drogas apresentam resultados melhores que os obtidos com outros regimes de quimioterapia para os mesmos tipos de malignidades. As principais limitações para a utilização destes compostos são os efeitos colaterais severos e a resistência dos tumores ao tratamento. A cisplatina foi a primeira droga dessa categoria a ser empregada. Desde o final dos anos 70 até hoje, esta droga vem sendo amplamente utilizada e com sucesso substancial. Acredita-se que o principal mecanismo de ação desta classe de medicamentos seja a ligação de dois sítios ativos da platina com o DNA das células tumorais, impedindo sua multiplicação e finalmente induzindo a apoptose, o que provoca a redução, e em alguns casos a eliminação, dos tumores. Entretanto, devido à complexidade dos mecanismos envolvidos, uma descrição clara da atuação intracelular destas drogas ainda não foi estabelecida. A combinação de técnicas de separação como eletroforese ou cromatografia líquida de alta performance com técnicas de espectrometria atômica tem se apresentado como uma poderosa alternativa para investigação de fenômenos biológicos que envolvem, de alguma maneira, espécies metálicas. A hifenação destas técnicas permite a separação e detecção em linha de biomoléculas contendo metais, possibilitando a obtenção de informações únicas sobre os processos biológicos. O presente trabalho apresenta o desenvolvimento de métodos analíticos utilizando eletroforese em gel de agarose (GE), cromatografia líquida de alta eficiência (HPLC) e espectrometria de massa com plasma indutivamente acoplado (ICP-MS) para a determinação de biomoléculas contendo platina em materiais biológicos. O principal objetivo do trabalho é fornecer ferramentas analíticas para o estudo dos mecanismos de ação de drogas à base de platina em humanos. Foram utilizados diversos materiais biológicos, como sangue, urina e culturas de células. A cromatografia líquida em fase reversa foi usada na determinação das drogas intactas e de seus produtos de hidrólise; a cromatografia de exclusão por tamanho foi empregada para a avaliação de proteínas presentes nas amostras enquanto a cromatografia de par iônico para separação de fragmentos de DNA. A detecção de platina nos eluatos por ICP-MS permitiu a obtenção de cromatogramas limpos apresentando claramente as moléculas contendo platina. A evidência da aplicabilidade dos métodos desenvolvidos foi avaliada com a prospecção de biomarcadores de eficiência do tratamento com cisplatina. Diversas linhagens celulares foram expostas a diferentes tratamentos com cisplatina e tiveram seus comportamentos avaliados. A determinação de adutos de DNA contendo platina apresentou-se como uma interessante perspectiva para a obtenção de um biomarcador de resistência ao tratamento com cisplatina. / [en] The use of platinum-based drugs is the first line treatment for many cancers. Patients treated with these drugs present better outcome when compared with other chemotherapy regimens for the same types of malignancies. The major limitations to the use of these drugs are the severe side effects and resistance tumors present to the treatment. Cisplatin was the first platinum-based drug to be approved for human use. Since the late 1970 s until today, this drug has been widely used with great success. It is believed that the major mechanism of action of these drugs is the binding of two active sites of platinum complexes with the DNA of the tumor cells, preventing their multiplication and finally inducing apoptosis, that leads to a reduction, and in some cases eliminating, tumors. However, due to the complexity of the mechanisms involved, a clear description of the intracellular action of these drugs has not been established. The combination of separation techniques such as electrophoresis or high performance liquid chromatography with atomic spectrometric techniques has emerged as a powerful alternative for investigation metal-related biological phenomena. The so called hyphenation of these techniques allows the separation and detection of biomolecules containing metals, making possible to obtain unique information about biological processes. This work presents the development of analytical methodologies using agarose gel electrophoresis (GE), high performance liquid chromatography (HPLC) and inductively coupled plasma with mass spectrometry (ICP-MS) for the determination of platinum-containing biomolecules in biological materials. The main objective of this work is to provide analytical tools for the study of the mechanisms of action of platinum-based drugs in humans. Various biological materials such as blood, urine and cell cultures were used. Reverse phase liquid chromatography was used for the determination of intact drugs and its hydrolysis products; size exclusion chromatography was used to assess the protein profile in samples while the ion-pair chromatography for separation of DNA fragments. The detection of platinum in the eluates by ICP-MS allowed the obtention of clean chromatograms clearly presenting the platinum-containing molecules. The evidence of the applicability of the developed methods was assessed with the search for biomarkers of efficacy of treatment with cisplatin. Several cell lines were exposed to different treatments of cisplatin and their behavior were evaluated. The determination of DNA adducts containing platinum presented an interesting approach for obtaining a marker of resistance to cisplatin treatment. [pt] BIOMARCADOR [pt] ADUTO DE DNA [pt] K562 [pt] OXALIPLATINA [pt] HPLC-ICP-MS [pt] CARBOPLATINA [pt] CISPLATINA [en] BIOMARKER [en] DNA ADDUCT [en] K562 [en] OXALIPLATIN [en] HPLC-ICP-MS [en] CARBOPLATINUM [en] CISPLATIN
353	DEVELOPMENT OF MIRIPLATIN-LOADED NANOPARTICLES AGAINST NON-SMALL CELL LUNG CANCER Yuan, Zhongyue 01 January 2021 (has links) Lung cancer claims the highest mortality and the second-most estimated new cases among all oncological diseases [1]. Non-small cell lung cancer (NSCLC) accounts for approximately 85% of all newly diagnosed lung cancers [2]. Approximately 40% of newly diagnosed lung cancer patients are stage IV. For stage IIIB/IV NSCLC, cytotoxic combination chemotherapy is standard first-line chemotherapy. A regimen of platinum (cisplatin or carboplatin) plus paclitaxel, gemcitabine, docetaxel, vinorelbine, irinotecan, or pemetrexed is the recommended clinical treatment [3]. Cisplatin is the first-generation platinum-based anti-cancer drug. Although cisplatin is much more effective than other platinum drugs at the same dosage [4], accumulating reports have shown the failure of conventional platinum-based chemotherapy due to various side effects and drug resistance [5]. Miriplatin, a member of platinum drug family, has been approved in Japan in 2009 for transcatheter arterial chemoembolization treatment of hepatocellular carcinoma (HCC) [6]. Miriplatin is a lipophilic platinum drug that contains myristates (14-carbon chains) as leaving groups and diamino cyclohexane as the non-leaving carrier ligand. The application of miriplatin in clinic is limited because it has very poor solubilities both in water and in common organic solvents [7]. The structure of solid tumors and tumor microenvironment (TME) in lung cancer constitute a barrier to the deep penetration of chemotherapy agents, which limits the effectiveness of chemotherapy [8]. Nanoparticles with appropriate properties provide a promising delivery system to overcome the biological and physiochemical barriers that hinder anti-cancer activity [9]. Lipid-based nanoparticles such as liposomes, micelles, and solid lipid nanoparticles (SLNs) can delivery anti-cancer drugs to improve their anti-cancer activities. In this study, we formulated miriplatin into various micelles, liposomes, and SLNs by film-hydration and evaluated their physicochemical properties and anti-cancer activity against NSCLC cells in culture. Miriplatin-loaded formulations with different compositions were successfully prepared by the film-hydration method. Most miriplatin-loaded micelles were more homogeneous and much smaller than miriplatin-loaded liposomes and SLNs. The majority of miriplatin-loaded micelles were about 15 nm in diameter, while SLNs were around 120 nm, and liposomes were about 180 nm. Formulations with a higher molar ratio of PE-PEG2000 had smaller sizes. SLNs loaded with a higher molar ratio of miriplatin in the compositions showed smaller sizes. Inductively coupled plasma mass spectrometry (ICP-MS) and inductively coupled plasma optical emission spectrometry (ICP-OES) techniques were attempted to quantify the platinum element in the formulations. Formulations with a higher molar ratio of PE-PEG2000 had higher recovery of platinum element. Most miriplatin-loaded formulations had higher than 80% platinum recovery. The recovery of intact miriplatin was characterized by HPLC. Miriplatin-loaded micelles had much higher intact miriplatin recovery (about 100%) than SLNs (about 30%). By TEM imaging, the micelles showed the morphology of spherical dots of about 10 nm in diameter while SLNs showed both spherical and rodlike structures of about 120 nm in diameter. The TEM results were consistent with the size and PDI results by the Zetasizer. Three-dimensional multicellular spheroids (3D MCS) of A549 and A549-iRFP cell lines were successfully established as cell culture models to evaluate activity against non-small cell lung cancer. The viability of 3D MCS after 7-days treatment with miriplatin-loaded micelles was about 0%, which was similar to cisplatin. Miriplatin-loaded formulations with a higher molar ratio of PE-PEG2000 in the compositions had higher anti-cancer activity against 3D MCS. The anticancer activity of miriplatin-loaded formulations against 3D MCS was positively associated with the recovery of intact miriplatin from the formulations. The IC50 value of miriplatin-loaded micelles against A549-iRFP 3D MCS was around 25 µM, while that of cisplatin was 84.78 µM. In summary, the reported lipid-based nano-formulations represent a promising delivery system of miriplatin against NSCLC. Cisplatin Drug delivery system Lipid-based nanoparticles Miriplatin Non-small cell lung cancer Pharmaceutical sciences Medicinal and Pharmaceutical Chemistry Medicine and Health Sciences Pharmacy and Pharmaceutical Sciences
354	PAX 23 in normal kidney development and as therapeutic targets in renal cancer Hueber, Pierre-Alain. January 2007 (has links) No description available. Carcinoma, Renal Cell -- pathology. Kidney Neoplasms -- pathology. Kidney -- embryology. Wilms Tumor -- pathology. Gene Therapy -- methods. Cisplatin -- therapeutic use.
355	Genetic Diversity and Treatment Resistance in Prostate Cancer Cell Lines Donix, Lukas 05 June 2023 (has links) Die Dissertationsarbeit untersucht genetische Varianten in Zellkulturmodellen des metastatischen und kastrationsresistenten Prostatakarzinoms. Außerdem werden Mechanismen der Chemoresistenz, insbesondere der Resistenz gegen Cisplatin und Docetaxel in diesen Zelllinien untersucht. / This Dissertation evaluates genetic variants found in cell culture models of metastatic castration resistant prostate cancer. Furthermore, mechanisms of resistance against the chemotherapeutic drugs cisplatin and docetaxel are investigated in these cell lines. info:eu-repo/classification/ddc/570 ddc:570
356	Action of CDK Inhibitor PHA-848125 in ER-negative Breast Cancer with MicroRNA-221/222 Overexpression Cheung, Douglas Guy January 2017 (has links) No description available. Biology Molecular Biology Genetics Biomedical Research CDK inhibitor PHA-848125 milciclib cisplatin microRNA miR-221 miR-222 breast cancer TNBC triple-negative breast cancer
357	TGFΒ/SMAD4 Signaling and Altered Epigenetics Contribute to Increased Ovarian Cancer Severity Deatherage, Daniel E. 27 July 2011 (has links) No description available. Bioinformatics Biology Biomedical Research Cellular Biology Molecular Biology Ovarian Cancer Epigenetics DNA hypermethylation hsa-mir-9-3 Cisplatin resistance CLDN11 TGF&914 SMAD4 ChIP-sequencing Survival data
358	Tea phenols in bulk and nanoparticle form modify DNA damage in human lymphocytes from colon cancer patients and healthy individuals treated in vitro with platinum-based chemotherapeutic drugs Alotaibi, Amal, Bhatnagar, P., Najafzadeh, Mojgan, Gupta, K.C., Anderson, Diana 03 September 2012 (has links) No / Tea catechin epigallocatechin-3-gallate (EGCG) and other polyphenols, such as theaflavins (TFs), are increasingly proving useful as chemopreventives in a number of human cancers. They can also affect normal cells. The polyphenols in tea are known to have antioxidant properties that can quench free radical species, and pro-oxidant activities that appear to be responsible for the induction of apoptosis in tumor cells. The bioavailability of these natural compounds is an important factor that determines their efficacy. Nanoparticle (NP)-mediated delivery techniques of EGCG and TFs have been found to improve their bioavailability to a level that could benefit their effectiveness as chemopreventives. AIM: The present study was conducted to compare the effects of TFs and EGCG, when used in the bulk form and in the polymer (poly[lactic-co-glycolic acid])-based NP form, in oxaliplatin- and satraplatin-treated lymphocytes as surrogate cells from colorectal cancer patients and healthy volunteers. NPs were examined for their size distribution, surface morphology, entrapment efficiency and release profile. Lymphocytes were treated in the Comet assay with oxaliplatin and satraplatin, washed and treated with bulk or NP forms of tea phenols, washed and then treated with hydrogen peroxide to determine single-strand breaks after crosslinking. The results of DNA damage measurements by the Comet assay revealed opposite trends in bulk and NP forms of TFs, as well as EGCG. Both the compounds in the bulk form produced statistically significant concentration-dependent reductions in DNA damage in oxaliplatin- or satraplatin-treated lymphocytes. In contrast, when used in the NP form both TFs and EGCG, although initially causing a reduction, produced a concentration-dependent statistically significant increase in DNA damage in the lymphocytes. These observations support the notion that TFs and EGCG act as both antioxidants and pro-oxidants, depending on the form in which they are administered under the conditions of investigation. Antineoplastic agents Antioxidants Catechin Cell survival Chemoprevention Cisplatin Colonic neoplasms DNA damage Flavonoids Humans Lymphocytes Nanoparticles Particle size Polymers Reactive oxygen species Tea
359	Analyse der Expression von Chemokinen und Chemokinrezeptoren in HNO-Tumorzellen unter Radiochemotherapie / Analysis of chemokine and chemokine receptor expression in squamous cell carcinoma of the head and neck cell lines Holzer, Claudia Anna 13 March 2017 (has links) No description available. 610 Chemokine Chemokinrezeptoren Radiochemotherapie Cisplatin CXCL12 CXCL1 CXCL3 CCL20 CXCR4 CXCR1 CCR6 CCR7 Koloniebildungsversuch Real-time PCR SCCHN Radiochemotherapy chemokines chemokine receptors CXCL12 CXCL1 CXCL3 CCL20 CXCR4 CXCR1 CCR6 CCR7 Cisplatin real-time PCR colony forming assays Oto-Rhino-Laryngologie (PPN619876220)
360	In vitro Studies of Improvement in Treatment Efficiency of Photodynamic Therapy of Cancers through Near-Infrared/Bioluminescent Activation Luo, Ting 22 May 2015 (has links) Cancer is a leading cause of death that affects millions of people across the globe each year. Photodynamic therapy (PDT) is a relatively new treatment approach for cancer in which anticancer drugs are activated by light at an appropriate wavelength to generate highly cytotoxic reactive oxygen species (ROS) and achieve tumor destruction. Compared with conventional chemo- and radiotherapy, PDT can be performed with minimal invasiveness, local targeting and reduced side effects. However, most of the currently available PDT drugs mainly absorb in the visible part of the spectrum, where light penetration depth into human tissues is very limited. Therefore, increasing the treatment depth of PDT has been considered to be an important approach to improve the effectiveness of PDT for treating larger and thicker tumor masses. In this thesis, we present our investigation into the potential of two-photon activated PDT (2-γ PDT), combination therapy of PDT and chemotherapy, and bioluminescence-activated PDT as a means to increase the treatment depth of this modality. In 2-γ PDT, the photosensitizing agents are activated through simultaneous absorption of two photons. This approach allows the use of near-infrared (NIR) light that can penetrate deeper into tissues and thus, has the potential of treating deep-seated tumors and reducing side effects, while the non-linear nature of two-photon excitation (TPE) may improve tumor targeting. We have evaluated the PDT efficacy of a second-generation photosensitizer derived from chlorophyll a, pyropheophorbide a methyl ester (MPPa), through both one- and two-photon activation. We observed that MPPa had high one-photon (1-γ PDT efficacy against both cisplatin-sensitive human cervical (HeLa) and cisplatin-resistant human lung (A549) and ovarian (NIH:OVCAR-3) cancer cells when activated by femtosecond (fs) laser pulses at 674 nm. At a low light dose of 0.06 J cm-2, the MPPa concentration required to produce a 50% cell killing effect (IC50) was determined to be 5.3 ± 0.3, 3.4 ± 0.3 and 3.6 ± 0.4 μM in HeLa, A549 and NIH:OVCAR-3 cells, respectively. More significantly, we also found that MPPa could be effectively activated at the optimal tissue-penetrating wavelength of 800 nm through TPE. At a light dose of 886 J cm-2, where no measurable photodamage was observed in the absence of MPPa, the IC50 values were measured to be 4.1 ± 0.3, 9.6 ± 1.0 and 1.6 ± 0.3 μM in HeLa, A549 and NIH:OVCAR-3 cells, respectively. We obtained corresponding LD50 (the light dose required to produce a 50% killing effect) values of 576 ± 13, 478 ± 18 and 360 ± 16 J cm-2 for 10 μM MPPa, which were approximately 3-5 times lower than the published 2-γ LD50 of Visudyne® and 20-30 times lower than that of Photofrin®. These results indicate that MPPa may serve as a photosensitizer for both 1- and 2-γ activated PDT treatment of difficult-to-treat tumors by conventional therapies. Indocyanine green (ICG), a dye having an absorption maximum near 800 nm, has been considered to be a potential NIR PDT agent. However, the PDT efficacy of ICG has been found to be very limited probably due to the low yield of cytotoxic ROS. In the present work, we have evaluated the combination effects of ICG-mediated PDT with conventional chemotherapy mediated by two types of chemotherapeutic drugs, namely the type II topoisomerase (TOPII) poisons etoposide (VP-16)/teniposide (VM-26) and the platinum-based drugs cisplatin (CDDP)/oxaliplatin (OXP). Synergistic enhancement of cytotoxicity and increased yields of DNA double strand breaks (DSBs) were observed in HeLa, A549 and NIH:OVCAR-3 cancer cells treated with the combination of ICG-PDT and VP-16. The presence of VP-16 during the laser irradiation process was found to be critical for producing a synergistic effect. An electron-transfer-based mechanism, in which ICG could increase the yield of highly cytotoxic VP-16 metabolites, was proposed for the observed synergistic effects, although direct spectroscopic detection of the reaction products was found to be very challenging. Moreover, we observed a much lower degree of synergy in the human normal fibroblast GM05757 cells than that in the three cancer cell lines investigated. Synergistic effects were also observed in A549 cells treated with the combination of ICG-PDT and VM-26 (i.e. an analog of VP-16). Furthermore, the combination of low-dose CDDP/OXP and ICG-PDT was demonstrated to produce an additive or synergistic effect in selected cancer cell lines. These preliminary results suggest that the combination of ICG-PDT with VP-16/VM-26 or CDDP/OXP chemotherapy may offer the advantages of enhancing the therapeutic effectiveness of ICG-PDT and lowering the side effects associated with the chemotherapeutic drugs. Bioluminescence, the generation of light in living organisms through chemical reactions, has been explored as an internal light source for PDT in recent years. This approach, in principle, does not suffer from the limited tissue penetration depth of light. In the present project, we have evaluated the effectiveness of luminol bioluminescence in activating the porphyrin photosensitizers meso-tetra(4-sulfonatophenyl)porphine dihydrochloride (TPPS4) and Fe(III) meso-tetra(4-sulfonatophenyl)porphine chloride (FeTPPS). The combination treatment induced significant killing of HeLa cells, while additive effects were observed in two normal human fibroblast cell lines (GM05757 and MRC-5). Our observations indicate that bioluminescence of luminol may generate sufficient light for intracellular activation of PDT sensitizers. Furthermore, the combination treatment may have intrinsic selectivity towards cancerous tissues. In summary, we have demonstrated effective killing of cancer cells by MPPa-mediated 1- and 2-γ PDT, combination of ICG-PDT and VP-16/VM-26 or CDDP/OXP chemotherapy, and bioluminescence of luminol activated PDT mediated by TPPS4/FeTPPS. These positive preliminary results indicate that all these three approaches have the potential of increasing the treatment depth of PDT and facilitating the development of more effective PDT treatment strategies.

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