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331	Síntese de novos compostos acridínicos e mostardas com potencial atividade antitumoral / Synthesis of new acridines and mustards compounds with potential antitumoral activity Melo, Andréa Lopes 04 December 2015 (has links) Cancer is a disease that kills the world and it is estimated that in 2030 the incidence of this disease in the world reach 21.4 million new cases with 13.2 million deaths. Due to the resistance, non-selectivity and high cytotoxicity, many of the current drugs produce side effects such as bone marrow depression, sterility, risk of non-lymphocytic leukemia, among others. Thus it is necessary to the development of new anticancer drugs that have less harmful effects. Thus, six new compounds were synthesized, four acridínicos derivative, a derivative of bis (cloroetila) and palladium (II) complex acridínico, whose acronyms, respectively (Acri)2N, AcriPro, ACDMA, ACBr2MAN, (Most)2N and ACDMAPd. All these compounds derived from Schiff base had satisfactory yields and characterized by NMR techniques (1H, 13C, COSY, J solved) spectroscopy in the infrared, mass spectrometry and elemental analysis. The strains used human tumor cells were HT-29 (human colon cancer), MCF-7 (human breast cancer), Hep-2 (human larynx carcinoma), NCI-H292 (carcinoma human pulmonary mucoepidermoid) and HL -60 (acute promyelocytic leukemia) and derivatives AcriPro, ACDMA, (Most)2N and ACDMAPd showed the best results of IC50 for the HL-60 cells. / Conselho Nacional de Desenvolvimento Científico e Tecnológico / O câncer é uma das doenças que mais mata no mundo e estima-se que em 2030 a incidência no mundo desta doença alcance 21,4 milhões de novos casos com 13,2 milhões de mortes. Devido à resistência, a não seletividade e a alta citotoxicidade, grande parte dos fármacos atuais produzem efeitos indesejáveis tais como: depressão na medula óssea, esterilidade, risco de leucemia não linfocítica, entre outros. Desta forma faz-se necessário o desenvolvimento de novos fármacos antitumorais que possuam menos efeitos agressivos. Assim, foram sintetizados seis novos compostos, sendo quatro derivados acridínicos, um derivado bis(cloroetila) e um complexo de paládio(II) acridínico, que tem como acrônimos, respectivamente, (Acri)2N, AcriPro, ACDMA, ACBr2MAN, (Most)2N e ACDMAPd. Todos esses compostos derivados de base de Schiff tiveram rendimentos satisfatórios e foram caracterizados pelas técnicas de RMN (1H, 13C, COSY, J resolvido), espectroscopia na região do infravermelho, espectrometria de massas e Análise Elementar. As linhagens de células tumorais humanas utilizadas foram HT-29 (câncer de cólon humano), MCF-7 (câncer de mama humano), HEp-2 (carcinoma de laringe humana), NCI-H292 (carcinoma mucoepidermoide de pulmão humano) e HL-60 (leucemia promielocitica aguda) e os derivados AcriPro, ACDMA, ACDMAPd e (Most)2N apresentaram os melhores resultados de CI50 para a células HL-60. Química Medicinal Metalofármacos Complexos de paládio Acridinas Mostardas nitrogenadas Atividade anticâncer Bases de Schiff Medicinal Chemistry Metalodrug Palladium complexes Acridines. Nitrogen mustards Anticancer activity Schiff bases
332	Modification de la biodisponibilité orale des médicaments : interactions « Herb-Drugs » « Drugs- Drugs». / Modification of oral Bioavailability of drugs : interactions " herb drugs and drugs-drugs ". Dossou-Yovo, Flore 31 January 2014 (has links) L’administration par voie orale des médicaments reste encore de nos jours la voie royale de la prise des médicaments car moins onéreuse et plus adaptée au confort du patient. Mais cette voie reste toujours inaccessible pour certains médicaments comme les médicaments biologiques et les bio similaires voir certains anticancéreux et antirétroviraux.Le but de ce travail est d’améliorer la biodisponibilité par voie orale des médicaments à faible biodisponibilité par la mise au point d’un promoteur d’absorption. Pour y arriver nous avons adopté comme stratégie de développer un promoteur qui agit à la fois sur le passage passif et sur le passage actif des médicaments. Les études in vitro ont été réalisées en chambre de perméation d’Ussing adaptées par la société Biomécatronics SAS (BéthuneFrance). Dans la première partie de ce travail (Brevet), nous avons montré que l’utilisation d’une composition pharmaceutique et/ou diététique comprenant un extrait de plante(Hibiscus sabdariffa) pouvait augmenter la biodisponibilité in vitro des médicaments et des xénobiotiques qui passent par la voie paracellulaire comme le cisplatine (21 fois),l’oxaliplatine (11fois), la fluorescéine isothiocyanate-Dextran 4000 (3 fois), mais également les médicaments connus pour leur transport actif par la voie transcellulaire comme l’Efavirenz (7 fois) et l’Atazanavir (4 fois). Dans la seconde partie de ce travail, nous avons cherché à vérifier si notre promoteur d’absorption des médicaments a un effet sur la couche de mucus intestinale.Cette couche peut être un facteur limitant de passage des médicaments au travers de la barrière intestinale.Dans un premier temps (article 1), nous avons induit l’augmentation de la couche mucus au niveau du colon de rat après un prétraitement pendant une semaine avec le métronidazole. Puis nous avions confirmé (article 2) que l’administration par voie orale de deux antibiotiques le Cotrimoxazole (CTX) et le métronidazole (MTZ) pendant une semaine augmente la couche de mucus au niveau du côlon ; aussi nous avons montré qu’il existe une relation entre l’augmentation de la couche de mucus et la diminution de la conductance qui est l’index de transport passif des ions, des électrolytes et de certaines molécules à faibles poids moléculaires.De plus l’augmentation de la couche de mucus au niveau de l’intestin est responsable de la diminution du passage transépithélial des deux antirétroviraux dont l’utilisation est recommandée en première ligne par l’OMS (le.Ritonavir et l’Atazanavir) surles sujets porteurs du VIH (virus de l’immunodéficience humain). Après les traitements auMTZ et au CTX la sécrétion de l’Atazanavir augmente respectivement dans le côlon proximal de 2 et 4 fois et dans le côlon distal de 3 et 5 fois. On obtient également une sécrétion du Ritonavir de 5 et 10 fois dans le proximal et de 2 et 5 fois plus dans le distal.Le travail se poursuit par l’étude de l’effet de notre promoteur d’absorption des médicaments sur la couche de mucus intestinal.En conclusion, ce travail montre que l’on peut augmenter la biodisponibilité in vitroen utilisant les promoteurs de l’absorption des xénobiotiques qui agissent à la fois au niveau du transport passif et actif. / Oral dosing is still seen as the silver bullet of drug administration, as it is cheaper andbetter adapted to patient comfort. However, oral route is still inaccessible to many drugssuch as biologics and biosimilars respectively certain anticancer drugs and antiretrovirals(ARV).The aim of this present study was to find new drugs enhancers that improve the oralbioavailability of drugs and xenobiotics. All the studies were realized in vitro using Ussingchambers technic. To achieve the set objective we used the strategy to develop drugenhancer which can modulate at the same time transcellular and paracellular pathways.In the first part of this study (patent) we have shown that the use of a pharmaceutical and /or a dietetic formulation containing a plant extract (Hibiscus sabdariffa) could increase thebioavailability in vitro in rats not only of cisplatin (21 fold), oxaliplatin (11 fold) andFluorescein Isothiocyanate-Dextran 4000 (FD4, 3 fold). All that drugs were transportedthrough intestinal barrier using paracellular pathway. In addition the study showed thatthis formulated enhancer can increased the bioavailability of Efavirenz (7 fold) andAtazanavir (4 fold) which are active transported.In order to assess the effect of new drugs enhancer on mucus thickness that limits thetransport of xenobiotic through intestinal barrier, we decide to evaluate his effect on passiveand active transport of drugs.In the second part of this study we have shown that after a week of pre-treatment of ratswith Metronidazole (MTZ, publication 1) and Cotrimoxazole (CTX, publication 2), the twomost commonly used antibiotics in the prophylaxis against opportunistic infections in HIV /AIDS, both increase colonic mucus thickness that affect directly passive intestinalpermeability by reducing conductance an index of passive transport through intestinalepithelium. In addition those antibiotics also entail a change in the transepithelialconductance and ARV fluxes. After MTZ and CTX treatment the secretion of Atazanavir(ATZ) increases respectively in the proximal colon by 2 to 4 fold and in the distal colon by 3to 5 fold respectively. Ritonavir (RTV) is poorly absorbed in control, after a week of pretreatmentwith MTZ and CTX one rather notices a secretion of RTV 5 to 10 fold higher in theproximal and 2 to 5 fold higher in the distal colon. The next study will be conducted toevaluate the effect of new drugs enhancer on mucus thickness layer.In conclusion, oral bioavailability of drugs and xenobiotics can be enhanced bypharmaceutical composition that contains herbal extract which increase passive and activetransport of drugs through intestinal barrier. Biodisponibilité Épithélium intestinal Perméabilité intestinale Transport de médicaments Promoteur d’absorption Antibiotiques Anticancéreux Antirétroviraux Rat Côlon Mucus Chambre d’Ussing Intestinal bioavailability Intestinal epithelium Intestinal permeability Drugs transport Drugs enhancers Antibiotic Anticancer drugs Antiretroviral Rat Colon Mucus Ussing chamber 570
333	The Role of Liposomal Hybrids and Gold Nanoparticles in the Efficacious Transport of Nucleic Acids and Small Molecular Drugs for Cancer Nanomedicine Kumar, Krishan January 2015 (has links) (PDF) The thesis entitled “The Role of Liposomal Hybrids and Gold Nanoparticles in the Efficacious Transport of Nucleic Acids and Small Molecular Drugs for Cancer Nanomedicine” elucidates the preparation of various liposomal formulations of cationic monomeric and gemini lipids where hydrophobic domains were consisted of tocopherol, cholesterol and pseudoglyceryl backbone for the cellular transport of nucleic acids. The thesis continues while elucidating the role of various pH sensitive molecules and gold nanoparticles in liposomes to improve the delivery efficacy levels. This thesis also elucidates the role of gold nanoparticles stabilized with natural pH sensitive molecules for efficacious drug delivery applications. Additionally, the role of such pH sensitive gold nanoparticles in association with liposomes for the co-delivery of drug and gene has been discussed. The work has been divided into six chapters. Chapter 1A: Dimeric Lipids Derived from α-Tocopherol as Efficient Gene Transfection Agents. Mechanistic Insights into Lipoplex Internalization and Therapeutic Induction of Apoptotic Activity In this chapter, we present cationic dimeric (gemini) lipids for significant plasmid DNA (pDNA) delivery to different cell lines without any marked toxicity in the presence of serum. The six gemini lipids possess α-tocopherol as their hydrophobic backbone and differ from each other in terms of their spacer chain lengths. Each of these gemini lipids mixed with a helper lipid 1, 2-dioleoyl phosphatidyl ethanolamine (DOPE), was capable of forming stable aqueous suspensions. These co-liposomal systems were examined for their potential to transfect pEGFP-C3 plasmid DNA in to nine cell lines of different origins. The transfection efficacies noticed in terms of EGFP expression levels using flow cytometry were well corroborated using independent fluorescence microscopy studies. Significant EGFP expression levels were reported using the gemini co-liposomes which counted significantly better than one well known commercial formulation lipofectamine 2000 (L2K). Transfection efficacies were also analyzed in terms of the degree of intracellular delivery of labeled plasmid DNA (pDNA) using confocal microscopy which revealed an efficient internalization in the presence of serum. The cell viability assays performed using optimized formulations demonstrated no significant toxicity towards any of the cell lines used in the study. We also had a look at the lipoplex internalization pathway to profile the uptake characteristics. A caveolae/lipid raft route was attributed to their excellent gene transfection capabilities. The study was further advanced by using a therapeutic p53-EGFP-C3 plasmid and the apoptotic activity was observed using FACS and growth inhibition assay. Figure 1. The co-liposomes of tocopheryl gemini lipids and DOPE for efficient delivery of p53-EGFP-C3 plasmid DNA that induces significant apoptotic response. Chapter 1B: Efficacious Gene Silencing in Serum and Significant Apoptotic Activity Induction by Survivin Downregulation Mediated by Cationic Gemini Tocopheryl Lipids Non-viral gene delivery offers cationic liposomes as promising instruments for the delivery of double-stranded RNA (ds RNA) molecules for successful sequence-specific gene silencing (RNA interference). The efficient delivery of siRNA (small interfering RNA) to cells while avoiding the unexpected side effects is an important prerequisite for the exploitation of the power of this excellent tool. We discuss in this chapter about six tocopherol based cationic gemini lipids, which induce substantial gene knockdown without any obvious cytotoxicity. All the efficient co-liposomal formulations derived from each of these geminis and a helper lipid, dioleoyl phosphatidyl ethanolamine (DOPE) were well characterized using physical methods such as atomic force microscopy (AFM) and dynamic light scattering (DLS). Zeta potential measurements were conducted to estimate the surface charge of these formulations. Flow cytometric analysis showed that the optimized co-liposomal formulations could transfect anti-GFP siRNA efficiently in three different GFP expressing cell lines, viz. HEK 293T, HeLa and Caco-2 significantly better than a potent commercial standard Lipofectamine 2000 (L2K) both in the absence and presence of serum (FBS). Notably, the knockdown activity of co-liposomes of gemini lipids was not affected even in the presence of serum (10% and 50% FBS) while it dropped down for L2K significantly. Observations under a fluorescence microscope, RT-PCR and western blot analysis substantiated the flow cytometry results. The efficient cellular entry of labeled siRNA in GFP expressing cells as evidenced from confocal microscopy put forward these gemini lipids among the potent lipidic carriers for siRNA. The efficient transfection capabilities were also profiled in a more relevant fashion while performing siRNA transfections against survivin (an anti-apoptotic protein) which induced substantial apoptosis. Furthermore, the survivin downregulation improved the therapeutic efficacy levels of an anticancer drug, doxorubicin significantly. In short, the new tocopherol based gemini lipids appear to be highly promising for achieving siRNA mediated gene knockdown in various cell lines. Figure 2. The co-liposomes of tocopheryl gemini lipids and DOPE for efficient delivery of siRNA against survivin that induces significant apoptotic response. Chapter 2: Efficacious in Vitro EGFP Expression and Silencing in Serum by Cationic Pseudoglyceryl Gemini Lipids To elicit the desirable efficacy levels in cationic liposome mediated nucleic acid therapeutics has been part of extensive scientific efforts. This chapter describes three cationic gemini lipids and application of their co-liposomes with DOPE as potent pDNA (plasmid DNA) and siRNA (small interfering RNA) cytofectins for remarkably advanced efficacy levels in numerous cell lines in the presence of serum. The hydrophobic structural lineament of cationic gemini lipids is made up of pseudoglyceryl backbone linked to the hydrocarbon chains via oligo-oxyethylene units. The stable aqueous co-liposomal suspensions of gemini lipids showed an efficient binding to pDNA or siRNA and their significant intracellular delivery in various cell lines. The transfection capabilities of different co-liposomal formulations were profiled based on EGFP expression (pEGFP-C3 pDNA transfection) and EGFP knockdown (anti-GFP siRNA transfections) in EGFP expressing cell lines. The cellular EGFP expression levels and intracellular delivery of labeled nucleic acids were thoroughly studied using flow cytometry (FACS), fluorescence and confocal microscopy. The MTT based cell viability assay revealed no loss in cell viabilities for all of the transfection optimized lipoplexes of siRNA or pDNA. The transfection profile of gemini co-liposomes was noted to be significantly much better than a commercial lipofection reagent, Lipofectamine 2000 used for pDNA and siRNA applications in each of the cell lines studied. The co-liposomes and their transfection optimized lipoplexes were physiochemically characterized extensively by means of zeta potential, dynamic light scattering (DLS) and atomic force microscopy (AFM). In brief, these new gemini co-liposomal formulations seem to offer a great opportunity for successful nucleic acid (DNA and siRNA) delivery in a practical scenario. Figure 3. Efficacious EGFP expression (pDNA transfection) and EGFP silencing (anti GFP siRNA transfection) mediated by co-liposomes of pseudoglyceryl gemini lipids and DOPE. Chapter 3: Efficient Elicitation of Liposomal Nucleic acid delivery through the Eminence of Gold Nanoparticles Stabilized with pH Responsive Short Tripeptide Derived from Tyrosine Kinase NGF Receptors The prerequisite in the area of gene therapy today is to serve transfection efficient formulations nullifying the enduring key issues. To this end, we discuss in this chapter, the role of hybrid liposomal formulations derived from structurally distinct cationic lipids, a neutral lipid (DOPE) and pH responsive short tripeptide (KFG, Lys-Phe-Gly) capped gold nanoparticles (PAuNPs). The hybrid liposomes are presented to be efficient enough to transfect pDNA leading to remarkably high gene expression levels in various cell lines of different origins in the presence of serum (FBS). Hybrid liposomes could deliver pDNA more effectively than the native liposomes and commercial standard lipofectamine 2000 (L2K) across the entire range of N/P ratios studied under the influence of intracellular pH response and gold nanoparticles prominence. The gene transfection capabilities are profiled based on transfections performed using two different plasmids (pGL3, luciferase activity and p-EGFP-C3, green fluorescent protein expression). pDNA cellular internalization and subsequent gene expression levels are studied using flow cytometry, fluorescence microscopy and confocal microscopic studies. The extensive physiochemical characterization of hybrid liposomal formulation and their complexes with pDNA in comparison with respective native liposomes was performed using AFM, TEM, Zeta, DLS, gel retardation assay, U.V. and fluorescence emission measurements. The hybrid liposomes are shown to possess significantly higher fusion activity at lowered pH of intracellular compartments. These hybrid liposomes are fairly biocompatible across the concentration range used in transfection experiments. Precisely, introduction of these pH responsive tripeptide capped gold nanoparticles in to liposomal formulations straightforwardly must be more advantageous for a practical application in biomedical scenario to achieve therapeutic levels. Figure 4. The hybrid of liposomes and tri-peptide capped gold nanoparticles for significantly improved gene expression levels. Chapter 4: RNA Aptamer Decorated pH Sensitive Liposomes for Active Transport of Nucleic Acids in Specific Cancer Cells This chapter describes the target specific transport of pH sensitive liposomes loaded with a RNA aptamer for promising nucleic acid therapeutics. The pH sensitive liposomes are constructed from a cationic cholesteryl gemini lipid (CGL), neutral helper lipid (DOPE) and gemini analog of a pH sensitive lipid, palmitoyl homocysteine (GPHC). The liposomes are shown to be significantly fusogenic that deliver the cargoes upon lowerin the pH (6.0). The fusogenic behaviour of the liposomes was thoroughly studied by means of dynamic light scattering (DLS), zeta potential, lipid mixing, calcein dequenching and atomic force microscopy (AFM). The facile integration of cholesterol conjugated RNA aptamer in liposomes derived from cholesteryl gemini lipids was exploited for their delivery to specific cancer cells. The RNA aptamer specifically binds to epithelial cell adhesion molecule (EpCAM) with high affinity which is a cell surface marker in various solid cancers such as colorectal and breast carcinoma. These aptamer decorated pH sensitive liposomes could efficiently enter the EpCAM expressing COLO-205, Caco-2, MCF-7 and MDA-MB-231 cell lines while no such noticeable liposome transport was observed in EpCAM negative HEK 293T cells as evidenced by flow cytometry and confocal microscopy. Additionally, the liposomes are shown to be actively transported inside the cells, i.e., receptor mediated endocytosis. These liposomes could complex the nucleic acids (pDNA) in an efficient manner. The MTT based cell viability assay accounted no noticeable loss in cell viabilities for liposome treatments. Concisely, we have formulated RNA aptamer loaded pH sensitive liposomes that would certainly be promising tool in target based cancer nanomedicine. Figure 5. (A) Cellular internalization of DY-647 labeled aptamer loaded pH sensitive liposomes. (B) The liposomes were actively internalized through receptor mediated endocytosis. Each panel (A and B) represents (from left to right) bright field image, aptamer fluorescence, DAPI stained nuclei and merge of previous three impressions. Chapter 5: Natural Tri-peptide Capped Gold Nanoparticles for Efficacious Doxorubicin Delivery in Vitro and in Vivo Nanotechnology has gained ever increasing interest for the successful implementation of chemotherapy based treatment of cancer. This chapter describes the role of gold nanoparticles (AuNPs) capped with a natural pH responsive short tri-peptide (Lys-Phe–Gly or KFG) for significant intracellular delivery of an anti-cancer drug, doxorubicin (DOX). A significantly increased apoptotic response was noted for DOX treatments mediated by KFG-AuNPs in comparison with drug alone treatments in various cell lines (BT-474, HeLa, HEK 293T and U251) in vitro. Furthermore, KFG-AuNPs mediated DOX treatment significantly decreased cell proliferation and tumor growth in BT-474 cell xenograft model in nude mice. In addition, KFG-AuNPs showed efficacious drug delivery in DOX-resistant HeLa cells (HeLa-DOXR) in comparison with drug alone treatments. Figure 6. Representative images of excised tumors after doxorubicin treatment mediated by pH responsive tri-peptide capped gold nanoparticles (DOX-KFG-AuNPs) (C) in comparison with doxorubicin alone treatments (B) and untreated tumors (A). Extensive cell death as observed under Hematoxylin/eosin (H&E) (D) and TUNEL (E) staining of DOX-KFG-AuNPs treated tumor sections. Chapter 6: Significant Apoptotic Activity Induction by Efficacious Co-delivery of p53 Gene and Doxorubicin Mediated by the Combination of Co-liposomes of Cationic Gemini lipid and pH Responsive Tri-peptide Combining chemotherapy with gene therapy has appeared as an efficient tool to treat complex biological disorder like cancer. Herein, we show efficient co-delivery of DNA and an anti-cancer drug, doxorubicin (DOX) by means of gemini cationic liposome (GCL) based lipoplex nanoaggregates that are coated with DOX encapsulated pH responsive tripeptide nanovesicles. The lipoplex, tripeptide vesicles and their association was thoroughly studied using dynamic light scattering (DLS), zeta potential, atomic force microscopy (AFM). Flow cytometry, fluorescence and confocal microscopic analysis revealed that the GCL-tripeptide association could significantly co-deliver the p53 expression plasmid (p53-EGFP-C3) and DOX in HeLa and HEK 293T cells in the presence of serum. A synergistic increase in gene expression level and DOX internalization was observed in co-delivery which was even substantially higher than individual lipoplex transfection and DOX treatment. The apoptosis induced due to p53 expression and DOX was profiled with the help of annexin-V positivity analysis under flow cytometry and nuclear damage analysis by DAPI nuclei counterstaining under confocal microscopy which noted to be significantly higher in cells during co-delivery. The MTT based cell viability assay revealed a significantly increased loss in cell viability counts for co-delivery treatments. Such a system delivering synergistically increased significant efficacy levels in combinatorial drug and nucleic acid therapeutics would be certainly advantageous for practical biomedical applications. Figure 7. The co-delivery of pDNA and drug (doxorubicin) mediated by GCL-tripeptide association as observed under (A) confocal microscopy (pDNA; green and doxorubicin; red) and (B) flow cytometry. Cancer Nanomedicine Molecular Drugs Lipoplex Internalization α-Tocopherol Apoptotic Activity Gemini Tocopheryl Lipids Pseudoglyceryl Gemini Lipids Gold Nanoparticles Gemini Cationic Lipids Anticancer Drug Delivery Cationic Gemini Lipid RNA Aptamer Doxorubicn Cationic Pseudoglyceryl Gemini Lipids Organic Chemistry
334	Electrochemical approach and development of an eletrochemical biosensor based on hairpin-DNA modified gold electrode for detection of DNA damage for a new acridine-thiophene cancer drug / Abordagem eletroquímica e desenvolvimento de um biossensor eletroquímico baseado no Hairpin-DNA modificado no eletrodo de ouro para detecção de danos do DNA para uma nova droga [anticancer a base de Acridina-Tiofeno] Untiveros, Katherine Lozano 31 March 2017 (has links) The interaction of drugs with DNA is a significant feature in pharmacology and plays a vital role in the designing of more efficient and specifically targeted drugs.The concept of hybridization of two bioactive molecules often leads to increased activity due to synergistic effects of anticancer drugs have been studied.Two important pharmacophores: Acridine and thiophene were widely studied as antitumor, antiparasitic and antibacterial agents. We hypothesize that a conjugate comprised two pharmacophores with different mechanisms of antiproliferative action can result in enhanced DNA damage. Electrochemical Studies in aprotic and protic media, electrochemical DNA biosensor at Glassy carbon electrode, electrochemical New Hairpin DNA biosensor at the Gold electrode (SL-DNA/GE), Molecular Modeling and Spectroscopic UV-Vis, were used to determine the damage caused to DNA by six Acridine-thiophene conjugates. In this work, we report the synthesis of six synthetic DNA intercalators based on the acridine linked with thiophene conjugates (7CNAC01, 6CNAC01, 7ESTAC01, 6ESTAC01, ACS6CN, and ASC5CN). We identified the electrochemical behavior of these active redox drugs is strongly influenced by the nature of solvent (DMF and pH=7.2 phosphate buffer media).We recorded redox properties of 7CNAC01, 6CNAC01, 7ESTAC01, and 6ESTAC01 involve adsorption controlled quasi- reversible process and were investigated using differential pulse voltammetry (DPV) at a glassy carbon and Gold electrode. An effective and new electrochemical biosensor based on hairpin DNA (SL-DNA/GE) immobilized and functionalized on the surface of the gold electrode (GE) to detect oxidative Guanine damage was developed. As a result, two kinds of biosensor were tested with reduced acridinethiophene conjugates showing better sensitivity the SL-DNA/GE sensor for the detection of DNA damage using the electrochemical signal of Oxidation of Guanine bases. Also, Molecular docking results showed predominantly hydrophobic interaction, and either high binding constant was recorded for Molecular docking and UV-Vis absorption spectroscopy showing an isosbestic point presence with dsDNA, for 7ESTAC01, 6ESTAC01, ACS6CN, ACS5CN. Our findings indicate that three reduced acridine-thiophene compounds (7CNAC01, 6CNAC01, and ACS5CN) cause direct dsDNA damage and all our six reduced hybrid compounds are causing damage to singled stranded ssDNA. Finally, we proposed for the first time a direct correlation between binding constant (Kb) and half-wave potential (E1/2) for four acridine-thiophene derivates (7ESTAC01, 6ESTAC01, ACS6CN, and ASC5CN). Our results showed a promise sensitive electrochemical SL-DNA/GE sensor for the detection of DNA damage using the electrochemical signal of Oxidation of Guanine bases, to detect DNA-cancer drug interaction. / A interação de drogas com DNA é uma característica significativa na farmacologia e desempenha um papel vital na concepção de drogas mais eficientes e especificamente direcionadas. O conceito de hibridização de duas moléculas bioativas leva ao aumento da atividade devido aos efeitos sinérgicos de drogas híbridas anticâncer com o uso dos farmacóforos importantes: Acridina e Tiofeno. Estes dois sítios ativos foram amplamente estudados como agentes antitumorais, antiparasitários e antibacterianos. Suspeitamos que um conjugado, composto por dois farmacóforos com diferentes mecanismos de ação antiproliferativa, pode resultar em danos ao DNA. Estudos eletroquímicos em meios prótico e aprótico, biossensor de DNA eletroquímico em eletrodo de carbono vítreo, Hairpin DNA em eletrodo de ouro (SL-DNA/GE), modelagem molecular e Espectroscopia UV-Vis foram usados para determinar os danos causados ao DNA por seis conjugados de Acridina-Tiofeno. Neste trabalho, relatamos o estudo de seis intercaladores de DNA com base na acridina ligada a conjugados de tiofeno (7CNAC01, 6CNAC01, 7ESTAC01, 6ESTAC01, ACS6CN e ASC5CN). As propriedades redox da 7CNAC01, 6CNAC01, 7ESTAC01 e 6ESTAC01 envolvem processo quase-reversível com corrente controlada por difusão. As propriedades redox desses compostos foram investigadas usando voltametrias cíclica e de pulso diferencial (VPD) em eletrodo de carbono vítreo e eletrodo de ouro. Foi desenvolvido um novo e eficiente biossensor eletroquímico baseado no Hairpin DNA (SL-DNA/GE) imobilizado e funcionalizado na superfície do eletrodo de ouro para detectar danos oxidativos da guanina através da interação com 7ESTAC01. Os biosensores SL-DNA e dsDNA foram testados com conjugados de acridina-tiofeno reduzidos, apresentando melhor sensibilidade o sensor SLDNA na detecção de danos ao DNA. Além disso, os resultados de modelagem molecular mostraram predominantemente interação hidrofóbica e uma alta constante de ligação. Já os resultados de espectroscopia de absorção no UV-Vis mostraram a presença de ponto isosbéstico com dsDNA, para os conjugados 7ESTAC01, 6ESTAC01, ACS6CN, ACS5CN. Nossos resultados indicaram que três compostos de acridina-tiofeno reduzidos (7CNAC01, 6CNAC01 e ACS5CN) causaram danos direto ao dsDNA, e os seis compostos híbridos reduzidos, causaram danos ao DNA de cadeia simples. Finalmente, propusemos pela primeira vez uma correlação direta entre constante de ligação (Kb) e potencial de meia onda (E1 / 2) para quatro derivados de acridina-tiofeno (7ESTAC01, 6ESTAC01, ACS6CN e ASC5CN). Além disso, o biosensor eletroquímico de SL-DNA/GE mostrou-se bastante sensível para a detecção dos danos causados ao DNA, através da interação entre o DNA e os compostos estudados. Biosensor Acridine-Thiophene Cancer drug Hairain-DNA DNA damage Gold electrose Biossensor Acridina-Tiofeno Droga anticancerígena Danos ao DNA Interação de drogas anticancer-DNA Biossensor eletroquímico
335	Síntese de derivados do ácido quínico, genisteína e cluvenona, potenciais agentes antimicrobianos, antitumorais e contra a esclerose múltipla Rezende Júnior, Celso de Oliveira 18 July 2014 (has links) Submitted by Renata Lopes (renatasil82@gmail.com) on 2016-02-25T13:51:08Z No. of bitstreams: 1 celsodeoliveirarezendejunior.pdf: 4187877 bytes, checksum: e397d45f85368ea5d9904f085b86462e (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2016-03-03T13:29:51Z (GMT) No. of bitstreams: 1 celsodeoliveirarezendejunior.pdf: 4187877 bytes, checksum: e397d45f85368ea5d9904f085b86462e (MD5) / Made available in DSpace on 2016-03-03T13:29:51Z (GMT). No. of bitstreams: 1 celsodeoliveirarezendejunior.pdf: 4187877 bytes, checksum: e397d45f85368ea5d9904f085b86462e (MD5) Previous issue date: 2014-07-18 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Neste trabalho são descritas as sínteses e avaliações biológicas de diferentes classes de compostos orgânicos e está dividido em três capítulos. O primeiro deles descreve a síntese de derivados da genisteína com distintas propriedades físico-químicas, a fim de avaliar a influência dessas propriedades na atividade biológica contra a esclerose múltipla. Foram sintetizados compostos condensados a carboidratos derivados da D-glicose e D-galactose e derivados lipofílicos com cadeias alquila ou acila lineares de doze ou quatorze carbonos. Esses compostos foram submetidos a ensaios de citotoxicidade e anti-inflamatórios in vitro e os compostos mais ativos foram avaliados quanto a sua atividade na modulação da resposta imune in vivo no modelo de encefalomielite auto-imune experimental (EAE). Na síntese dos drivados éteres verificaram-se diferentes reatividades: os compostos com cadeias alquila lineares foram obtidos em rendimentos melhores, seguido dos derivados da D-glicose e D-galactose, respectivamente. A regiosseletividade obtida na síntese dos derivados éteres foi sugerida por nOe, enquanto que nos derivados ésteres foi sugerida por RMN de 1H. Os ensaios biológicos revelaram que todos os compostos apresentaram atividade in vitro e os derivados de carboidrato foram mais citotoxicicos que os derivados com cadeias lipofílicas lineares. Após os ensaios in vivo, o composto 13 foi considerado um protótipo para o tratamento da esclerose múltipla. O segundo capítulo descreve a síntese e avaliação das propriedades antimicrobianas de surfactantes derivados do ácido quínico condensados a diaminas N-alquiladas, variando-se o tamanho da cadeia alquila (parte apolar) e a estrutura do ácido quínico (parte polar), estabelecendo-se uma relação estrutura e atividade. Foram sintetizados 32 compostos através de reações de amidação entre uma lactona derivada do ácido quínico com diaminas Nalquiladas em rendimentos satisfatórios. 17 compostos apresentaram atividades semelhantes ou melhores do que a droga de referência. Também estão sendo realizados alguns ensaios antiparasitários e anti-inflamatórios com esses compostos. O terceiro capítulo descreve a síntese e avaliação das propriedades antitumorais de derivados de xantonas Garcinia, especificamente de cluvenona. Foram sintetizados diversos compostos com grupos retiradores e doadores de eletróns, hidrofílicos e contendo a unidade sal de trifenilfosfônio no anel A de hidroxicluvenonas, que auxiliarão no entendimento da relação estrutura e atividade para essa classe de compostos. Sintetizou-se também um composto derivado da 6- hidroxicluvenona condensada com o BODIPY com potencial atividade antitumoral e propriedades fluorescentes com o objetivo de realizar estudos de localização celular e mecanismo de ação. A etapa chave para a síntese desses compostos foi uma reação em cascata de Claisen/Diels-Alder. / In this work the synthesis and biological evaluation of different classes of organic compounds are described and it is divided into three chapters. The first chapter describes the synthesis of genistein derivatives with different physicochemical properties in order to assess the influence of these properties in biological activity against multiple sclerosis. Carbohydrate derivatives from D-glucose and D-galactose and compounds condensed with lipophilic alkyl or acyl linear chains of twelve or fourteen carbons were synthesized. Cytotoxicity and anti-inflammatory activities in vitro were performed and the most active compounds were evaluated in modulating the immune response in vivo model of experimental autoimmune encephalomyelitis. Reactivity of ethers derivatives was different: compounds with linear alkyl chains were obtained in higher yields, followed by the derivatives of D-glucose and D-galactose, respectively. The regioselectivity obtained in the synthesis of ether derivatives were suggested by nOe, while the ester derivatives were suggested by 1H NMR. All compounds showed in vitro activity and carbohydrate derivatives were more cytotoxic than lipophilic derivatives. After in vivo tests, compound 13 was considered a prototype for the treatment of multiple sclerosis. The second chapter describes the synthesis and evaluation of the antimicrobial properties of surfactants derived from quinic acid (popar part) condensates with N-alkylated diamines (nonpolar part). The size of the alkyl chain and the structure of quinic acid were altered, settling a relationship structure and activity. 32 compounds were synthesized by amidation reactions between a lactone derivative of quinic acid with N-alkylated diamines in satisfactory yields. 17 of these compounds showed equal or better equal activities than the drug reference. Some antiparasitic and anti-inflammatory tests are also being conducted for these compounds. The third chapter describes the synthesis and evaluation of antitumoral properties of derivatives of Garcinia xanthones, specifically cluvenone. Several compounds were synthesized with electron withdrawing and donors groups, containing hydrophilic and the triphenylphosphonium salt unit in the A ring of hidroxicluvenonas. These compounds will help in understanding the structure and activity relationship for this class of compounds. A BODIPY Hydroxicluvenone conjugate compound with potential antitumor activity and fluorescent properties was synthesized with the aim of studying the cellular location and mechanism of action. The key step for the synthesis of these compounds was a reaction cascade Claisen / Diels-Alder reaction. Genisteína Esclerose múltipla Carboidrato Lipofilicidade Ácido quínico Diaminas Antimicrobianos Garcinia Cluvenona Anticancerígenos Reação de Claisen/Diels-Alder Multiple sclerosis Carbohydrate Lipophilicity Quinic acid Diamines Antimicrobial Garcinia Cluvenone Anticancer Claisen/Diels-Alder reaction
336	Metallocarbenes for therapeutic applications / Métallocarbènes pour des applications thérapeutiques Dahm, Georges 09 December 2014 (has links) Les complexes métalliques des carbènes N-hétérocycliques (NHC) présentent un grand potentiel comme anticancéreux. En particulier, des études in vitro ont confirmés une cytotoxicité supérieure au cisplatine. Dans ce travail, nous avons introduit de la diversité moléculaire à de nouveaux complexes NHC-Pt par coordination de différents ligands NHC. Une deuxième stratégie, la post-fonctionnalisation de complexes de Pt a été étudié par : a) formation d’oxime, notamment avec une urée ciblant le PSMA, b) échange de ligand avec des polyamines hydrosolubles (PEI) ou des pnictogènes (phosphines, arsines, stibines), c) échange d’halogène avec des isotopes de l’iode. Les propriétés cytotoxiques de ces composés ont été évaluées in vitro. In vivo (souris), un complexe PEI-Pt montre une inhibition tumorale similaire à l’oxaliplatine. Néanmoins, aucun effet secondaire n’a été détecté contrairement à l’oxaliplatine (hématomes). Ces résultats ouvrent de nouvelles perspectives dans le domaine des anticancéreux sur la base de platine. / Metal N-Heterocyclic Carbene (NHC) complexes are of great potential for cancer therapy. In particular, in vitro studies confirmed their significantly higher cytotoxicity than cisplatin. In this work, we introduced molecular diversity on new NHC-Pt complexes by coordination of various NHC precursors to platinum. As a second strategy, post-synthetic functionalization of Pt complexes has been fully investigated by: a) oxime formation, e.g. with a PSMA targeting urea derivative, b) ligand exchange reaction with hydrosoluble polyamines (PEI) and pnictogen-based ligands (phosphines, arsines, stibines), c) halogen exchange with iodide isotopesCytotoxic properties of these new compounds were evaluated in vitro. Best candidate was selected for in vivo evaluation on mice model showing for PEI-Pt similar tumour inhibition as oxaliplatin. Besides, no “visual” side effects were detected in contrast to oxaliplatin (hematomas). These outstanding results opened up new perspectives in the field of platinum-based drugs. Complexes de platine Médicaments anticancéreux Post-fonctionnalisation Polyethylenimine Cytotoxicité Tests in vivo Chimie organométallique N-Heterocyclic carbene (NHC) complexes Platinum complexes Anticancer drugs Post-synthetic functionalization Polyethylenimine Cytotoxicity In vivo tests Organometallic chemistry 547.2
337	Substances polymériques extracellulaires dans les procédés de traitement des eaux usées / Extracellular polymeric substances in the wastewater treatment process Avella Vasquez, Ana Catalina 25 June 2010 (has links) L’objectif de ce travail est d’une part (i) étudier le comportement de la biomasse notamment la production d’EPS en présence des composés pharmaceutiques (un agent anticancéreux et cinq antibiotiques); et d’autre part, (ii) étudier les EPS dans le contexte de décantation des boues en présence d’agents fongiques et en situations réelles dans des stations d’épuration. L’étude en présence de l’agent anticancéreux a été réalisée dans des bioréacteurs à membranes. La présence de l’agent anticancéreux a induit l’augmentation de la production d’EPS agissant comme un mécanisme de protection microbienne qui était à l’origine du colmatage des membranes. L’effet de cinq antibiotiques a été évalué en réacteur batch. La famille des macrolides a montré un effet plus important sur l’activité microbienne avec une augmentation significative de la production d’EPS associée à un mécanisme de protection. La décantation des boues en présence des cultures fongiques a été conduite en réacteur pilote. Une amélioration spectaculaire de la décantation a été liée à une meilleure cohésion au sein des flocs imputable en grand partie à l’augmentation de la production d’EPS. Enfin, le diagnostic du procédé de traitement des eaux a été établi sur trois stations d’épuration des papeteries grâce à une double approche d’une part l’analyse physico-chimique des boues et d’autre part, l’exploitation statistique d’analyse en composantes principales (ACP) des paramètres technologiques enregistrées dans chaque station. Nous avons tenté d’exprimer sous forme de régressions linéaires ou polynomiales de deuxième degré, la décantation en fonction d’une quantité réduite des paramètres mesurés / The objective of this work is firstly, i) to study the microbial behaviour of the biomass especially the production of the EPS in the presence of pharmaceutical compounds (an anticancer product and five antibiotics); and secondly, ii) to study EPS in the context of the sludge settling in wastewater treatment plants. The study in the presence of the anticancer product was done in membrane bioreactors. The presence of the anticancer product provoked the production of the EPS as the protection mechanism which is at the origin of the membrane fouling.The effect of five antibiotics was evaluated in batch reactors. The family of macrolides showed the most important effect on the microbial activity with a significant increase of the EPS production which was associated with a protection mechanism.Sludge settling in the presence of fungi was carried out in a pilot reactor. The spectacularly improvement of the sludge settleability was related with a better cohesion inside of the flocs attributed to an increase of the EPS production.Finally, the diagnosis of different wastewater treatment processes was established in three paper mill wastewater treatment plants thanks to the double approach used here, the physico-chemical analysis of the sludge and the statistical analysis by principal components analysis of the different parameters recorded in each plant. We tried to describe the parameter related to the settling behaviour by linear or polynomial regressions of second degree in function of a reduced number of the measured parameters Antibiotiques Agent anticancéreux Cultures fongiques Décantation des boues Extracellular polymeric substances (EPS) Antibiotics Anticancer product Fungi Sludge settling Wastewater treatment process diagnosis
338	Studies On Lanthanide Complexes Showing Photo-activated DNA Cleavage And Anticancer Activity Hussain, Akhtar 12 1900 (has links) (PDF) This thesis work deals with different aspects of the chemistry of La(III) and Gd(III) complexes, their interaction with DNA and proteins, photo-induced cleavage of double-stranded DNA, photocytotoxic effect on cancer cells, cell death mechanism and cellular localization behaviour. Chapter I gives an introduction to the metal-based anticancer agents with special emphasis on clinically used drugs and the growing field of lanthanide therapeutics. An overview of the current strategies of cancer treatment, especially photodynamic therapy (PDT), is presented. Mode of small molecule-DNA interactions and the mechanistic aspects associated with DNA photodamage reactions and PDT effect are discussed with selected examples of compounds that are known to photocleave DNA on exposure to light of different wavelengths. A brief discussion on the various therapeutic applications of the lanthanide compounds is also made. Chapter II presents the synthesis, characterization, DNA binding, BSA binding, photo-induced DNA cleavage activity and photocytotoxicity of La(III) and Gd(III) complexes of phenanthroline bases to explore the UV-A light-induced DNA cleavage activity and photocytotoxicity of the complexes. Chapter III describes the synthesis, characterization, DNA binding, photo-induced DNA cleavage activity and photocytotoxicity of La(III) and Gd(III) complexes of phenanthroline bases with an aim to improve the design of the complexes to achieve better solution stability and DNA binding of the complexes. Chapter IV presents the synthesis, characterization, DNA binding, and UV-A light-induced DNA photocleavage activity and photocytotoxicity of La(III) and Gd(III) complexes of pyridyl phenanthroline bases with an objective to improve the photoactivity of the complexes by introducing an additional pyridyl group. Cell death mechanism and confocal microscopic studies are also carried out to gain more insight into the PDT effect caused by light in the presence of the complex. Chapter V describes the synthesis and characterization of La(III) and Gd(III) complexes of terpyridine bases and acetylacetonate to study the complexes as a new class of photosensitizers to explore their DNA photocleavage activity and photocytotoxicity in HeLa cells. Effect of attaching a glucose moiety to the acetyl acetone (Hacac) ligand has been studied. The cellular uptake behaviour of the La(III) pyrenyl-terpyridine complexes has also been investigated. Finally, Chapter VI presents the synthesis and characterization of curcumin and glycosylated curcumin La(III) and Gd(III) complexes having terpyridine base with an objective to study the photoactivated anticancer activity of the complexes in visible light. This chapter describes the visible light-induced DNA cleavage activity and photocytotoxicity of the complexes by exploiting curcumin and glycosylated curcumin as the photosensitizer ligands. Study on the cellular uptake behavior of curcumin La(III) complexes having pyrenyl terpyridine ligand is also presented. The references have been assembled at the end of each chapter and indicated as superscript numbers in the text. The complexes presented in this thesis are represented by bold-faced numbers. Crystallographic data of the complexes which are characterized structurally by single crystal X-ray crystallography are provided in CIF format in the enclosed CD (Appendix-I). Due acknowledgements have been made wherever the work described is based on the findings of other investigators. Any unintentional omission that might have happened due to oversight or mistake is sincerely regretted. DNA - Optical Properties Cancer and Anticancer Lanthanide(III) Complexes Photodynamic Therapy (PDT) DNA Photocleavage Photocytotoxicity DNA Binding Cellular Imaging La(III) Complexes Gd(III) Complexes Gadolinium(III) Complexes DNA Cleavage Biochemical Genetics
339	Platinum(II) Complexes as Dual Action DNA Crosslinking & Photochemotherapeutic Agents Mitra, Koushambi January 2016 (has links) (PDF) The thesis work delineates the rational design and successful syntheses of platinum (II) complexes for achieving light promoted dual action anticancer properties. The research work focuses on the syntheses, elaborate characterization including crystallization and mechanistic aspects of photodegradation processes. Theoretical studies were done to elucidate the properties of the excited states. The interaction of active Pt (II) species with DNA is also explored. The cellular studies include evaluation of the photo-induced cytotoxicities, mode of cell death, nature of reactive oxygen species (ROS), quantification of cellular Pt content and cellular and sub-cellular localization of the complexes. Chapter I provides an overview of the hallmarks of cancer and the current anticancer treatment modalities. It outlines the evolution of platinum based chemotherapeutic drugs, their mechanism of action and associated disadvantages. It also depicts the resurgence of metal complexes as photosensitizers for photoactivated chemotherapy, a selective tripartite strategy which permits light induced tumor destruction. Detailed literature reports of potential transition metal complexes showing light induced generation of ROS and controlled delivery of multiple drugs in tumor microenvironment are presented. The key challenges are the delivery and controlled activation of the clinically approved platinum (II) drugs. These prime objectives of the present investigation are depicted as a concluding segment of this introductory chapter. Chapter II includes the syntheses, characterization, evaluation of visible light induced cytotoxicity and interaction with DNA of novel ferrocenyl terpyridine appended platinum (II) complexes. Detailed mechanistic investigations revealed the important role of ferrocene in light triggered generation of reactive oxygen species. The effect of extensive conjugation on the photophysical properties of the complexes were also rationalized from theoretical calculations. The alteration in DNA binding affinities of the complexes on incorporation of a ferrocene unit in the platinum (II)terpyridines is also reflected. The work is the first report of the remarkable photocytotoxicity of platinum(II) complexes in visible light with nominal dark toxicity. Chapter III deals with novel ferrocenyl terpyridyl platinum(II) complexes having tumor targeting biotinylated acetylides which were synthesized for achieving selective photocytotoxicity only in cancer cells. An interesting observation was the red light promoted release of biotinylated acetylide ligands from platinum centre thereby generating mono-functional Pt(II) species. The possible covalent interactions of these platinum(II) species with DNA were also explored. These biotin complexes exhibit preferential cellular uptake in BT474 breast cancer cells over HBL-100 breast normal cells resulting in targeted photocytotoxicity in visible light. Chapter IV rationalizes design, syntheses and extensive characterization of 2-(phenylazo)pyridine based platinum(II) catecholates containing photosensitizers. The O^O donor ligand was chosen to release the more cytotoxic bi-functional platinum(II) species based on the prior knowledge of the labile Pt-O bonds. Interestingly, we observed glutathione triggered release of the catecholates imparting dual action anticancer properties to the molecules. Detailed mechanistic aspects indicated a possible reduction of the metal coordinated azo bond by cellular glutathione. The excellent photocytotoxicity in HaCaT and MCF-7 cells, cellular ROS generation and apoptosis, cellular Pt content and localization of these complexes are discussed. Chapter V addresses the advantages of navigating the platinum(II) complexes to mitochondrial DNA instead of genomic DNA. BODIPY appended platinum(II) catecholates were synthesized and the BODIPY core was modified to fine-tune the photophysical properties. The visible light induced growth inhibitory effects of the complexes and the mechanism of cell death in light exposed cells are explored. The novelty of this work is the mitochondria targeted remarkable photocytotoxicity as well as cellular imaging properties of the complexes making them ideal candidates for developing platinum based theranostic agents. Chapter VI presents the syntheses, characterization of unprecedented platinum(II) complexes of curcumin for dual action DNA crosslinking and photochemotherapeutic activities. The important feature of these Pt(II) prodrugs is the photorelease of curcumin from Pt(II) centre which results in controlled delivery of two potential anticancer agents. The visible light induced cytotoxicities of the complexes in HaCaT, BT474, T47D, Hep3B and HPL1D cells, their effect on the various cellular events, the interaction of the complexes with DNA and their cellular distribution in light and dark are explored. The appropriate references are provided at the end of each chapter and allocated as superscripts in the main text. The synthesized complexes are denoted by bold-faced numbers. Crystallography data of the complexes that are structurally characterized by single crystal X-ray crystallography are given in CIF format in the enclosed CD (Appendix-I). Due acknowledgements are provided for mentioned literature reports. Any omission is purely unintentional and is deeply regretted. INDEX WORDS: Platinum(II) complexes • Crystal structure • Visible light induced cytotoxicity • Cellular imaging • Photochemotherapeutic agents • DNA crosslink. Photochemotherapeutic Agents DNA Crosslinking Platinum(II) Complexes Anticancer Properties Photocytotoxicity Curcumin cis‐Diammineplatinum(II) Complex Inorganic and Physical Chemistry
340	Phytochemical analysis and biological activities of crude extracts from selected Tulbaghia species Takaidza, Samkeliso 12 1900 (has links) PhD (Department of Biotechnology, Faculty of Applied and Computer Sciences), Vaal Universtiy of Technology / The genus Tulbaghia has been used in traditional medicine to treat various ailments such as fever, earache, tuberculosis and esophageal cancer. However, there is limited scientific evidence to support its use. Therefore the objectives of this study were to perform phytochemical analysis, investigate the antioxidant, antimicrobial, anticancer, immunomodulatory activities and toxicity of crude acetone and water extracts from selected Tulbaghia species. Standard methods were used for preliminary phytochemical analysis. The total phenolic content of the plant extracts was determined using the folin ciocalteu method whereas the total flavonoids were determined by using the aluminium chloride colorimetric method. DPPH and ABTS assays were used to evaluate the antioxidant activity. The antimicrobial activity was assessed by agar well diffusion, microtiter dilution and time kill assays. For anticancer studies, the antiproliferative activity of the extracts was evaluated using the MTT assay on Hkesc-1 and KB cells. Morphological changes of the cancer cells treated with extracts were examined using light microscopy. Induction of apoptosis was assessed using fluorescence microscopy and acridine orange/ethidium bromide staining. Flow cytometry analysis was conducted to examine the multicaspase activity and cell cycle arrest. For immunomodulatory activity, the Greiss reagent and Luminex cytokine assays were used to determine the effect of the extracts on NO production and the concentration of the cytokines in the treated cells, respectively. Toxicity of selected Tulbaghia species was examined by investigating the effect of the extracts on the metabolic activity and cell membrane integrity on the treated RAW264.7 cells using the MTT and LDH assays, respectively. The zebrafish assay was used to evaluate the embryotoxicity and teratogenic effects of crude acetone and water extracts of T. violacea at 24 h intervals for 96 h post fertilisation (hpf). The percentage mortality, hatchability and heart rate were examined. Phytochemical screening of eight Tulbaghia species demonstrated the presence of flavonoids, glycosides, tannins, terpenoids, saponins and steroids. The amount of total phenol and flavonoid content varied in different plant extracts ranging from 4.50 to 11.10 milligrams gallic acid equivalent per gram (mg GAE/g) of fresh material and 3.04 to 9.65 milligrams quercetin equivalent per gram (mg QE/g) of fresh material respectively. The IC50 values based on DPPH and ABTS for T. alliacea (0.06 and 0.06 mg/mL) and T. violacea (0.08 and 0.03 mg/mL) were generally lower showing potential antioxidant activities. For antimicrobial activity, the acetone extracts of T. acutiloba, T. alliacea, T. leucantha, T. ludwigiana, T. natalensis and T. simmleri showed moderate antimicrobial activity against all test organisms while the water extracts showed moderate to no activity. One species, T. cernua, showed poor activity against all the tested microbes. The acetone and water extracts of T. violacea showed the greatest antibacterial and antifungal activity against all the tested microorganisms with minimum inhibitory concentration ranging from 0.1 mg/mL to 3.13 mg/mL. The acetone extracts of T. violacea also exhibited both bacteriostatic/fungistatic and bactericidal/fungicidal activity depending on the incubation time and concentration of the extract. The bactericidal/fungicidal activity was observed at x2 MIC. The results for anticancer activity showed that treatment of Hkesc-1 cells with acetone and water crude extracts had anti-proliferative activity with IC50 values of 0.4 mg/mL and 1.625 mg/mL, respectively while KB had 0.2 mg/mL and 1 mg/mL, respectively. Morphological changes such as blebbing, cell shrinkage and rounding were observed in the treated cells suggesting that apoptosis was taking place. AOEB staining showed that the level of apoptosis was dependent on the concentration of the extracts. The activation of multicaspase activity in both Hkesc-1 and KB treated cells was also concentration dependent leading to cell death by apoptosis and the induction of cell cycle arrest at the G2/M phase. Immunomodulatory activity results indicated that cell viability was above 80% when concentrations of 50 µg/mL or less of both acetone and water crude was used. Treatment with the acetone extract had no significant effect (p>0.05) on the LPS induced NO production in RAW264.7 cells except at 50 µg/mL where significant inhibition was observed. The water extract had no significant effect (p>0.05) on NO production at all the concentrations. Treatment of LPS–induced RAW264.7 cells with acetone extract stimulated the production of IL-1α, IL-6 and TNF-α, but had no significant effect (p > 0.05) on IL-1β. On the other hand, treatment with the water extracts stimulated the production of IL-1α, IL-6 but had no significant effect (p>0.05) on TNF-α and IL-1β. Treatment of LPS-induced RAW264.7 cells with the acetone extract had very little stimulatory effect on IL-4, IL-5 and IL-13 and no significant effect on IL-10 whereas for the water extract a significant stimulatory effect was only observed for IL-4 after 48 h of treatment. High concentrations (>10000 pg/mL) of MCP-1, MIP1-α, MIP1-β, MIP-2, GCSF, GM-CSF, RANTES and IP-10 were also observed in acetone and water extract treated RAW264.7 cells. For toxicity studies, acetone and aqueous crude leaf extracts from T. alliacea, T. simmleri, and T. violacea had a significant inhibitory (p<0.05) effect on the RAW264.7 cells after 48h treatment. Acetone extracts from T. alliacea, T. simmleri and T. violacea resulted in IC50 values of 0.48 mg/mL, 0.72 mg/mL and 0.1 mg/mL, respectively. Treatment with water extracts showed minimal toxic effect indicated by higher IC50 values of 0.95 mg/mL, 2.49 mg/mL and 0.3 mg/mL for T. alliacea, T. simmleri and T. violacea, respectively. The LDH release by macrophages after 24 h treatment with acetone extracts was observed to be concentration dependent while treatment with water extracts did not induce LDH release. The zebra fish assay showed a lethal dose (LD50) for the T. violacea acetone crude extract of 20 μg/mL whereas that for water extract was 85 μg/mL. The observed teratogenic effects included scoliosis, edema of the pericardial cavity, retarded yolk resorption, hook-like/bent tail and shorter body length. In conclusion, the results from this study indicate that the extracts from the eight Tulbaghia species examined contain phytochemicals that may have the antioxidant, antimicrobial, anticancer and immunomodulatory properties. Extracts from T. violacea were observed to be the most potent. This study thus supports the use of T. violacea in treating bacterial and fungal infections in traditional medicine. The results of this study also confirm the anticancer potential of T. violacea. The immunomodulatory activity of the acetone and water extracts from T. violacea indicated a dominantly pro-inflammatory activity. Traditional medicine prepared form T. violacea may be of benefit to individuals with weak immune systems. The toxicity of selected Tulbaghia species was observed to be concentration, extract and time dependent. Therefore, traditional medicine prepared from Tulbaghia extracts should be taken with caution preferably in small doses over a short period of time. Future studies will focus on the identification of the bioactive compound(s) responsible for the antimicrobial, anticancer and immunomodulatory activities. Dissertations, Academic -- South Africa Apoptosis Antibacterial agents Cytokines Lactate dehydrogenase Macrophages Immune response -- Regulation Phenols Logperch

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