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New DNA-Targeting Small Molecules as Potential Anticancer Agents and for in vivo Specificity toward Enhanced Silk ProductionAli, Asfa January 2014 (has links) (PDF)
The thesis entitled “New DNA-Targeting Small Molecules as Potential Anticancer Agents and for in vivo Specificity toward Enhanced Silk Production” encompasses design, computational calculations, and syntheses of diverse small molecular scaffolds to explicitly target duplex and higher order DNA morphologies (G-quadruplex DNA). Some of these molecules have a potential as anticancer agents. Besides, an attempt has been made elucidate the importance of novel oligopyrrole carboxamides in the enhancement of silk yield, hence proving to a boon in the field of sericulture. The work has been divided into six chapters.
Chapter 1. DNA Binding Small Molecules as Anticancer Agents
Figure 1. DNA targeting by small molecules.
Cancer has always been a dreadful disease and continues to attract extensive research investigations. Various targets have been identified to restrain cancer. Among these DNA happens to be the most explored one. A wide variety of small molecules, often referred to as “ligands”, has been synthesized to target numerous structural features of DNA (Figure 1). The sole purpose of such molecular design has been to interfere with the transcriptional machinery in order to drive the cancer cell toward apoptosis. The mode of action of the DNA targeting ligands focuses either on the sequence-specificity by groove binding and strand cleavage, or by identifying the morphologically distinct higher order structures like that of the G-quadruplex DNA.
Chapter 2. Ligand 5, 10, 15, 20-tetra(N-methyl-4-pyridyl)porphine (TMPyP4) Prefers the Parallel Propeller-type Human G-Quadruplex DNA over its other Polymorphs
The binding of ligand 5, 10, 15, 20-tetra(N-methyl-4-pyridyl)porphine (TMPyP4) with telomeric and genomic G-quadruplex DNA has been extensively studied. However, a comparative study of interactions of TMPyP4 with different conformations of human telomeric G-quadruplex DNA, namely parallel propeller-type (PP), antiparallel basket-type (AB), and mixed hybrid-type (MH) G-quadruplex DNA has not been done. We considered all the possible binding sites in each of the G-quadruplex DNA structures and docked TMPyP4 to each one of them. The resultant most potent sites for binding were analyzed from the mean binding free energy of the complexes. Molecular dynamics simulations were then carried out and analysis of the binding free energy of the TMPyP4-G-quadruplex complex showed that the binding of TMPyP4 with parallel propeller-type G-quadruplex DNA is preferred over the other two G-quadruplex DNA conformations. The results obtained from the change in solvent excluded surface area (SESA) and solvent accessible surface area (SASA) also support the more pronounced binding of the ligand with the parallel propeller-type G-quadruplex DNA (Figure 2).
Figure 2. Ligand TMPyP4 prefers parallel propeller-type G-quadruplex DNA morphology.
Chapter 3. A Theoretical Analysis on the Selective Stabilization of Intermolecular G-quadruplex RNA with a bis-Benzimidazole Ligand EtBzEt over TMPyP4 in K+ Environment
Ever since the discovery of G-quadruplex RNA, a constant urge exists to target these higher order RNA conformations. These structures play a significant role in the transcriptional and translational mechanism. Herein we have determined the mode and extent of association of certain G-quadruplex DNA binding bisbenzimidazole ligand (EtBzEt) in comparison to a known porphyrin ligand (TMPyP4). We have performed docking studies of the known G-quadruplex DNA binding ligands with the parallel propeller G-quadruplex RNA (PPR) to determine the most potent binding conformation which showed EtBzEt to be a better RNA binder than others. Furthermore, a molecular dynamics (MD) simulation (6 ns) was performed for the most stable docked complex in explicit solvent environment. The role of K+ ions, Hoogsteen hydrogen bond formation and backbone dihedral angle between the tetrads were carefully analyzed during the entire simulation run to determine the stability of each ligand associated PPR complex. All the analyses conclusively showed that while TMPyP4 merely stabilized the PPR, the ligand EtBzEt stabilized PPR very efficiently (Figure 3).
Figure 3. Stabilzation and destabilization by EtBzEt and TMPyP4, repectively. Red and green ovals represent EtBzEt and TMPyP4, repectively.
Chapter 4A. Design and Synthesis of New DNA Binding Fe(III) and Co(II) Salen Complexes with Pendant Oligopyrrole Carboxamides
Extensive research on these oligopyrrole carboxamides has shown their specificity toward AT-rich sequences with high binding affinity. Here we have designed and synthesized Fe (III)-and Co (II)-based salen complexes attached with minor groove targeting oligopyrrole carboxamide side-chains (Figure 4). While the ligands showed excellent activity toward DNA damage, they also exhibited high affinity toward the minor grooves of the ds-DNA. This was also reflected in the high efficiency of the ligands toward cancer cell cytotoxicity.
Further studies revealed that the ligands resulted in prominent nuclear condensation and fragmentation thereby driving the cells toward apoptosis. The presence of metal coordinated salen moiety conjugated with positively charged pendants ending with minor groove binding oligopyrrole carboxamides might have resulted in the increased activity of the ligands toward DNA targeting and cancer cell death.
Figure 4. Chemical structures of the ligands used in this study.
Chapter 4B. Design and synthesis of novel oligopyrrole based salen metal complexes and their efficiency toward stabilization of G-quadruplex DNA
DNA targeting has been the key strategy toward the restriction of cancer cell proliferation. In a similar effort, we have designed and synthesized novel salen based Ni(II) and Pd(II) metal complexes with positively charged flanking side-chains comprising attached N-methylpyrrole carboxamides of varying lengths (Figure 5). The ligands showed efficient stabilization of the G-quadruplex DNA morphologies, with specificity over the duplex DNA. Sufficient inhibition of the telomerase activity was observed by the TRAP-LIG assay which was ascertained by the prominent restriction of cancer cell proliferation in the long-term cell viability assay. The ligands exhibited condensation and fragmentation of the nucleus when observed under confocal microscopy which is indicative of the cells undergoing apoptosis. Further annexin V-FITC and PI dual staining showed apoptosis to be the mechanistic pathway underlying the cancer cell cytotoxicity by the ligands. Modeling studies clearly showed the stacking of the salen moiety over the G-tetrads with the association of the pendant oligopyrrole carboxamide units to the grooves.
Figure 5. Chemical structures of the ligands used in this study.
Chapter 5A. Role of Metal Ions in Novel Fluorescein based Salen and Salphen Complexes toward Efficient DNA Damage and their Effect on Cancer Cells
Metal ions play an important role toward DNA damage and numerous ligands have been synthesized for their use in anticancer therapy. Herein, we have designed and synthesized Fe(III) and Co(II) based salen/salphens by bridging two fluorescein moieties with varying spacers (Figure 6). Although the ligands exhibit dual binding mode, the more flexible salen ligands prefer to associate to the minor groove of the DNA while the relatively rigid salphen ligands show greater intercalation. The biophysical experiments reveal better binding affinity of the salphens toward duplex DNA as compared to the salen ligands. The metal coordination resulted in efficient DNA cleavage of plasmid at low ligand concentrations. The ligands also showed cancer cell cytotoxicity, cellular internalization with apoptosis as the proposed mechanism for cell death.
Figure 6. Chemical structures of the salen and salphen ligands used in this study.
Chapter 5B. Fluorescein based Salen and salphen Complexes as stabilizers of the Human G-quadruplex DNA and Promising Telomerase Inhibitors
Metal based salen complexes have been considered as an important scaffold toward targeting of DNA structures. In the present work we have designed and synthesized nickel(II)-and palladium(II)-salen and salphen ligands by using fluorescein as the backbone to provide an extended aromatic surface (Figure 7). The ligands exhibit sufficient affinity toward the human telomeric G-quadruplex (G4) DNA in preference to the duplex DNA and also exhibit promising inhibition of telomerase activity. This is ascertained by their potency in the long-term cell viability assay which shows significant cancer cell cytotoxicity in presence of the ligands. Confocal microscopy showed cellular internalization followed by nuclear localization. Considerable population at the sub-G1 phase of the cell cycle showed cell death via apoptotic pathway.
Figure 7. Chemical structures of the ligands used in this study.
Chapter 6. Knockdown of Broad-Complex Gene Expression of Bombyx mori by Oligopyrrole carboxamides Enhances Silk Production
Bombyx mori (B. mori) is important due to its major role in the silk production. Though DNA binding ligands often influence gene expression, no attempt has been made to exploit their use in sericulture. The telomeric heterochromatin of
B. mori is enriched with 5′-TTAGG-3′ sequences. These sequences were also found to be present in several genes in the euchromatic regions. We examined three synthetic oligopyrrole carboxamides that target 5′-TTAGG-3′ sequences in controlling the gene expression in B. mori (Figure 8). The ligands did not show any defect or feeding difference in the larval stage, crucial for silk production. The compounds caused silencing of various isoforms of the broad-complex transcription factor and cuticle proteins which resulted in late pupal developmental defects. This study shows for the first time use of oligopyrrole carboxamide drugs in controlling gene expression in B. mori and their long term use in enhancing silk production.
Figure 8. Chemical structures of the ligands used in this study (top) and increased cocoon size on ligand treatment.
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Atividade anticâncer in vitro e in vivo de Psidium guajava L. (nome popular: goiabeira) / Psidium guajava L. (popular name guava) in vitro and in vivo anticancer activityRizzo, Larissa Yokota 18 August 2018 (has links)
Orientadores: João Ernesto de Carvalho, Mary Ann Foglio / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-18T11:34:15Z (GMT). No. of bitstreams: 1
Rizzo_LarissaYokota_M.pdf: 2545881 bytes, checksum: 63ab51d7b009706ec8505aa2b3ded262 (MD5)
Previous issue date: 2011 / Resumo: A pesquisa de drogas anticâncer através da triagem de extratos e princípios ativos obtidos de fontes naturais possibilitou a descoberta e o desenvolvimento de diversos quimioterápicos hoje utilizados no tratamento do câncer. Este projeto teve como objetivo avaliar a atividade anticâncer de Psidium guajava L. (nome popular: goiabeira), espécie eleita através de levantamento etnofarmacológico para atividade antiparasitária. Após a colheita, o material vegetal foi submetido a um processo de extração a quente por Soxhlet, com diclorometano e etanol 95%, originando o extrato bruto diclorometânico (EBD) e etanólico (EBE), respectivamente. O extrato bruto ativo, EBD, foi submetido a diversos fractionamentos biomonitorados, até a obtenção de uma fração enriquecida nos meroterpenos guajadial, psidial A e seus isômeros, princípios ativos da espécie vegetal. Todas as amostras (extratos brutos e frações enriquecidas) tiveram sua potencial atividade anticâncer avaliadas in vitro frente a um painel de dez linhagens tumorais humanas, cedidas pelo National Cancer Institute (NCI, Estados Unidos), a saber: K562 (leucemia), MCF-7 (mama), NCI/ADR-RES (ovário resistente a múltiplas drogas), NCI-H460 (pulmão), UACC62 (melanoma), PC-3 (próstata), HT-29 (cólon), OVCAR-03 (ovário), U251 (glioma) and 786-0 (rim). A fração ativa enriquecida nos meroterpenos foi avaliada in vivo no tumor sólido de Ehrlich, em camundongos Balb/C, reduzindo significativamente o crescimento tumoral. Além da atividade antitumoral observada in vivo, a análise macroscópica do útero indicou aumento em tamanho e peso em relação aos grupos controle negativo (salina) e positivo (doxorrubicina). As moléculas de guajadial e psidial A apresentam propriedades físico-químicas semelhantes ao estradiol e ao tamoxifeno e estudos de docking molecular sugerem que ambos os compostos se liguem no sítio de ligação no receptor de estrógeno (ER), analogamente ao tamoxifeno. A capacidade de reduzir o crescimento tumoral e, ao mesmo tempo, estimular o útero indicam que guajadial e psidial A possivelmente agem como fitoestrógenos, possuindo um mecanismo de ação semelhante ao tamoxifeno, atuando como SERMs (Selective Estrogen Receptor Modulators) e agindo como agonistas e antagonistas de forma tecido específica / Abstract: Anticancer drug research based on screening of natural sources enabled the discovery of several drugs that are used in cancer treatment. This project aimed to evaluate the in vitro and in vivo anticancer activity of Psidium guajava L. (popular name: guava), elected for its ethnopharmacological use for antiparasitic activity. After harvesting, the vegetal material was extracted in Soxhlet with dicloromethane and then ethanol 95%, leading to the dicloromethane crude extract (DCE) and the ethanolic crude extract (ECE), respectively.The active extract, DCE, was submitted to several biomonitored fractionating processes and an active mixture of meroterpenes identified guajadial, psidial A and its isomers as active principles. All samples (crude extract and enriched fractions) were evaluated in vitro for cytotoxic activity against ten human cancer lines (donated by National Cancer Institute, USA): K562 (leukemia), MCF-7 (breast), NCI/ADR-RES (resistant ovarian cancer), NCI-H460 (lung), UACC62 (melanoma), PC-3 (prostate), HT-29 (colon), OVCAR-03 (ovary), U251 (glioma) and 786-0 (kidney). Meroterpenes enriched fraction was evaluated in vivo in the Solid Ehrlich Tumor, in Balb/C mice, and significantly reduced tumor growth. Besides antitumoral activity, macroscopic analysis of uterus showed increased size and weight in comparison to both negative (vehicle) and positive (doxorubicin) control groups. The molecules of guajadial and psidial A display similar physicochemical properties to estradiol and tamoxifen and in silico molecular docking studies suggest that both molecules bind to the estrogen-binding site of ERs analogously to tamoxifen. The ability to reduce breast cancer tumor growth and stimulate the uterus suggests that guajadial and psidial A may act as phytoestrogens, giving insights for a mechanism of action similar to tamoxifen, acting as SERMs (Selective Estrogen Receptor Modulators), having both agonist and antagonist tissue-specific activities / Mestrado / Histologia / Mestre em Biologia Celular e Estrutural
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Determination of the molecular mechanism(s) involved in the pro-apoptotic activity of momordica balsamina acetone extract in lung A549 cancer cellsMudalahothe, Maedza January 2019 (has links)
Thesis (M. Sc. (Biochemistry)) -- University of Limpopo, 2021 / Plant-derived products have been used for years in the treatment of various ailments
with low or no side effects. Thus, screening of medicinal plants for potential
anticancer activity, in vitro, could help identify plant extracts or compounds that can
be developed for use as anticancer agents with less or no side effects. The aim of
this study was to investigate the probable anticancer effects and induced mechanism
of action of Momordica balsamina crude leaf acetone extract in lung A549 cancer
cells. The effect of the extract on cell viability, proliferation and cell division cycle
were determined using Muse count & viability, Ki67 proliferation and cell cycle assay
kits, respectively. The presence of biochemical and morphological features
associated with apoptosis were analysed by Muse annexin-V & dead cell assay kit
and Acridine orange/Ethidium bromide dual staining. The effect of the extract on the
mRNA expression levels of cell cycle regulatory genes was determined using RT PCR. Proteome profiler antibody array was used to determine the effect of the
extract on the protein expression levels of apoptosis regulatory genes. The findings
revealed that the crude leaf acetone extract of M. balsamina decreased the
percentage viability of lung A549 cells with less effect on the percentage viability of
normal cells (KMST-6). Furthermore, a significant anti-proliferative effect in extract treated A549 cells was observed. Characteristic nuclear and morphological features
of apoptosis such as chromatin and nuclear condensation, externalisation of
phosphatidylserine and loss of cell membrane function were observed in A549 cells
treated with the extract. Although there was no relative upregulation of Bax and Bad
protein expression, a downregulation of the Bcl-xl and Bcl-2 protein expression was
observed in extract-treated cells. This led to the release of Cytochrome c and
HTRA2/Omi leading to pro-caspase-3 cleavage. Furthermore, presence of
HTRA2/Omi in the cytosol inhibited the functions of IAPs such as XIAP and cIAP1/2.
Phosphorylation of p53 at different serine residues led to upregulated protein
expression levels of p27/Kip1 protein which resulted in the cell division cycle arrest
at G0/G1-phase. Reverse transcriptase polymerase chain reaction results showed
that the extract modulated mRNA expression levels of p53, p21, cyclin B and cdc2
genes. In summary, M. balsamina extract induced cell division cycle arrest and
apoptosis in A549 cells through intrinsic apoptosis pathway via p53-mediated
mechanism. / South African Medical Research Council (SAMRC)
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Development of Non-Traditional Platinum Anticancer Agents: trans-Platinum Planar Amine Compounds and Polynuclear Platinum CompoundsLee, Daniel E 01 January 2015 (has links)
Development of Non-Traditional Platinum Anticancer Agents: trans-Platinum Planar Amine Compounds and Polynuclear Platinum Compounds
By Daniel E. Lee, Ph.D.
A dissertation submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy at Virginia Commonwealth University.
Virginia Commonwealth University, 2015
Major Director: Nicholas P Farrell, Ph.D., Professor, Department of Chemistry
Platinum anticancer compounds with cis geometry, similar to cisplatin, have been explored to circumvent the cisplatin resistance; however, they were not considered broadly active in cisplatin cells due to exhibiting similar or same cell death mechanism as cisplatin. Platinum compounds with trans geometry were less studied due to transplatin being clinically inactive; but with few structural modifications, they resulted in unaffected cytotoxic activities in cisplatin resistant cells with structural modification by exhibiting different modes of DNA binding. This research focused on further exploring and establishing structure-activity relationship of two promising non-classical series of platinum compounds with trans-geometry: trans-platinum planar amine (TPA) compounds and noncovalently binding polynuclear platinum compounds (PPC-NC).
During this research, further optimizations of the reactivity of TPA compounds were accomplished by modifying the leaving carboxylate groups. The effects of modified reactivity were probed by a systematic combination of chemical and biophysical assays, followed by evaluating their biological effects in cells. To establish the structural-activity relationship of PPC-NCs, Mono-, Di-, Tri-, and Tetraplatin NC with charge of 4+, 6+, 8+, and 10+ were synthesized and evaluated by utilizing biophysical and biological assays. Lastly, a new class of polynuclear platinum compounds, Hybrid-PPCs, were synthesized and evaluated to overcome the pharmacokinetic problems of BBR3464, phase II clinical trial anticancer drug developed previously in our laboratory.
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Rôle de la protéine Damaged DNA Binding 2 dans la réponse des cellules tumorales mammaires aux agents thérapeutiques / Role of the Damaged DNA Binding 2 protein in the response of breast tumor cells to therapeutic agentsKlotz, Rémi 30 October 2014 (has links)
Le laboratoire a récemment identifié la protéine Damaged-DNA-Binding 2 (DDB2), connue à l’origine pour son rôle dans la réparation de l’ADN comme une protéine impliquée dans la tumorigenèse mammaire. En effet, nous avons montré son rôle dans la croissance et la progression des tumeurs mammaires via la régulation transcriptionnelle de gènes cibles. Dans ce travail, nous avons montré que la surexpression de DDB2 augmente la sensibilité des cellules tumorales MDA-MB231 et SKBr3 traitées à la doxorubicine et au 5-fluorouracile (5-FU). Inversement, l’inhibition de l’expression de DDB2 dans les cellules T47D qui l’expriment naturellement s’accompagne d’une baisse de la sensibilité à ces agents anticancéreux. Nos résultats montrent que la sensibilité des cellules au 5-FU mais pas à la doxorubicine, lorsque DDB2 est surexprimée, dépend en partie du contrôle négatif qu’exerce cette dernière sur l’activité de NF-κB, en régulant positivement l’expression d’IκBα. Enfin, la recherche d’autres gènes cibles de DDB2, impliqués dans l’apoptose, nous a conduits à celui codant le facteur anti-apoptotique Bcl-2. DDB2 agit négativement sur l’expression de Bcl-2 en interagissant avec une région de l’ADN localisée dans le promoteur P2 du gène correspondant. De part, son rôle anti-apoptotique, la régulation de son expression pourrait bien être à l’origine de la sensibilité aux agents anticancéreux induite par DDB2. L’ensemble de ces résultats met donc en évidence l’intérêt clinique de DDB2 comme marqueur prédictif de la réponse aux agents anticancéreux, et devrait contribuer à une meilleure compréhension des mécanismes impliqués dans l’échappement des cellules tumorales aux thérapies / The laboratory has recently identified the Damaged-DNA Binding 2 protein (DDB2), a protein involved in DNA repair, as an important actor in breast tumorigenesis. Our laboratory has shown that DDB2 is involved in breast tumor growth and progression through the transcriptional regulation of target genes. Thus, the first aim of this work was to study the role of DDB2 and its target genes in the response of breast cancer cells to anticancer drugs. We showed that DDB2 overexpressed in breast cancer cell lines, such as MDA-MB231 and SKBr3, increased the cells sensitivity to apoptosis induced by doxorubicin and 5-Fluorouracil (5-FU). Conversely, the inhibition of DDB2 expression in T47D cells, which express endogenously this protein, decreased cell sensitivity to anticancer agents. Our results showed that cell sensitivity induced by DDB2 expression to 5-FU but not doxorubicin depended on its ability to repress NF-κB activity via the regulation of IκBα expression. At last, the search of potential DDB2 target genes implicated in apoptosis has led us to identify the anti-apoptotic factor Bcl-2. We showed the ability of DDB2 to downregulate Bcl-2 expression via its interaction with DNA region located in P2 promoter of the corresponding gene. Results suggest that Bcl-2 dowregulation by DDB2 could be a major event that explains the enhanced sensitivity of cancer cells to therapeutic agents. Altogether, these data highlight the clinical interest of DDB2, as a predictive marker of the response to anticancer agents. A better understanding of its mode of action will contribute to improve therapeutic treatments and avoid their failure in resistant patients
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Avaliação dos efeitos antineoplásicos do Amblyomin-X em carcinoma de células renais. / Evaluation of Amblyomin-X antineoplasic effects on renal cell carcinoma.Zampolli, Hamilton de Campos 16 September 2011 (has links)
Introdução: O carcinoma de células renais metastático (CCRm) é um tumor altamente agressivo e resistente. Seu tratamento é baseado em terapia alvo molecular e citocinas. Avaliamos os efeitos antineoplásicos do Amblyomin-X, sobre CCR. Métodos: Avaliadas culturas de CCR RENCA e fibroblastos normais NIH/3T3 tratadas ou não com Amblyomin-X. Realizados ensaios de viabilidade celular por MTT e determinação, por citometria de fluxo, da proporção de células em apoptose/necrose; expressão da P-gp; Bad; Bax; Bcl-2; ciclina D1; caspase 3; Ki-67; p53; VEGFR1; citocromo c; análise das fase do ciclo celular; e atividade do proteassoma. Analisamos as populações celulares por microscopia eletrônica de varredura. Empregados testes T e One-way ANOVA para análise estatística. Resultados: O Amblyomin-X demonstrou citotoxicidade em células RENCA por indução de apoptose, diminuição de proliferação celular, inibição do proteassoma e modulação do ciclo celular em G0/G1. Em fibroblastos normais não houve citotoxicidade Conclusão: O Amblyomin-X apresentou efeito antineoplásico em CCR e não exerceu efeito citotóxico em células normais, demonstrando um possível potencial terapêutico no tratamento do CCRm. Estudos futuros deverão confirmar estes resultados. / Introduction: Metastatic renal cell carcinoma (mRCC) is a highly agressive and resistant tumour. Its treatment is based on targeted therapies and cytokines. We have evaluated the antineoplasic effects of Amblyomin-X on RCC. Methods: RCC (RENCA) and fibroblasts (NIH/3T3) cell cultures treated or not with Amblyomin-X were evaluated. MTT assay was performed to determine cell viability. Apoptosis/necrosis ratio; expression of P-gp; Bad; Bax; Bcl-2; cyclin D1; caspase-3; Ki-67; p53; VEGFR1; cytochrome c; cell cycle analysis and proteasome activity were obtained by flow cytometry. Cellular populations were analised by Scanning Electron Microscopy. Statistical analyses was performed using T-Tests and One-way ANOVA. Results: Amblyomin-X showed cytotoxic activity on RENCA tumor cells. It has induced apoptosis, decreased tumor cell proliferation, targeted the ubiquitinproteasome system and modulated genes related to cell cycle in G0/G1. There was no toxicity on fibroblasts. Conclusion: Amblyomin-X showed antineoplasic effects on RCC cells preserved normal fibroblast cells. There is a potential role of its therapeutic use in mRCC treatment. Future studies should confirm our initial results.
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Synthetic approaches towards gold (I) and silver (I) complexes of functionalised N-heterocyclic carbene ligandsHickey, James Laurence January 2009 (has links)
This work focuses on the design and synthesis of Au(I) and Ag(I) complexes from ligand systems that aim to combine both N-heterocyclic carbene (NHC) and phosphine ligand types. A number of synthetic approaches towards both the ligands and the prepared metal complexes have been developed, with a concerted effort on achieving the desired Au(I) or Ag(I) complexes with minimal reaction steps and synthetic style. The thesis body is divided into two main sections. The first section addresses the preparation of suitable ligand precursors of potential Au(I) and Ag(I) complexes in the form of halo- and phosphino-functionalised imidazolium salts. Several series of haloalkylimidazolium salts were prepared that encompass a range of halogens (Cl, Br, I), alkyl substituents (Me, i-Pr, t-Bu, n-Bu), differing alkyl linker length (n = 0-3), and a variety of organic spacers employed to bridge multi-imidazolium moieties. Novel bidentate and multidentate phosphinoalkylimidazolium salts were synthesised from the various haloalkylimidazolium salts, via the substitution of a halide with nucleophilic diphenylphosphide. A new approach towards rare methylene bridged phosphinomethylimidazolium salts was achieved from the reactions of halomethylimidazolium salts with diphenylphosphine. The second section investigates the preparation of Au(I) and Ag(I) complexes from the halo- and phosphino-functionalised imidazolium salts. A series of dicationic 10, 12, and 14-membered metallacyclic Ag(I) complexes were prepared from the bidentate phosphinoalkylimidazolium salts. The dinuclear Ag(I) metallacycles combine two phosphino-functionalised NHC ligands that are bridged by two coordinated Ag(I) ions in an exclusively head-to-head arrangement. A dinuclear Ag(I) metallacycle was investigated for transmetallation potential to a Au(I) complex and found to selectively transmetallate at the Ag(I) coordinated to the NHC ligands to form a bimetallic metallacycle. Unexpected phosphine oxidation of a 10-membered dinuclear Ag(I) metallacycle resulted in complex disproportionation to an isolable and rare silver(I) trimer. Metal-NHC complexes from haloalkylimidazolium salts have not been reported previously, a novel approach to the synthesis of a series of Au(I) complexes from haloalkylimidazolium salts and a respective gold source was developed and is reported herein. Different synthetic approaches towards Au(I) complexes with the phosphinoalkylimidazolium salts explored a variety of ways to generate the NHC from an imidazolium in the presence of the phosphine. A one-pot, high yielding synthesis of a dinuclear Au(I) complex from PPh3 was also devised, with controlled assembly of the complex resulting in a similar head-to-head ligand arrangement to the dinuclear Ag(I) metallacycles. As an aside, a family of mononuclear [Au(R2NHC)2]+ complexes (R = Me, i-Pr, t- Bu, n-Bu, Cy) prepared previously in our research group, was expanded because of the promising antimitochondrial activity shown by [Au(i-Pr2NHC)2]+. Two new [Au(R2NHC)2]+ complexes with simple alkyl chain functionality were prepared with fine-tuned lipophilicity in close proximity to that of [Au(i-Pr2NHC)2]+.
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Complexes click de platine et cuivre-NHC : applications en biologie / Platinum and copper-NHC click complexes : applications in biologyChevry, Aurélien 11 January 2011 (has links)
La cycloaddition 1,3-dipolaire catalysée par le cuivre(I) entre un azoture et un alcyne (CuAAC), réaction de « chimie click » par excellence, suscite un grand intérêt en raison de son efficacité et de sa versatilité. L'objectif premier de cette thèse est d'appliquer cette réaction pour l'élaboration de structures 1,2,3-triazoles fonctionnalisées, en vue d'obtenir des ligands jouant le rôle de « pince à platine ». Les complexes de platine biologiquement actifs rapportés sont de type mono- ou bi-nucléaire et comportent un ou deux cycles triazole. Les complexes obtenus ont fait l'objet d'une étude in vitro d'interaction avec des nucléosides et de l'ADN soit sous forme d'hairpin (épingle à cheveux) soit sous forme plasmidique. Nos complexes ont montrés une réactivité similaire à celle du cisplatine, qui est la métallodrogue de référence. En parallèle, nous présentons les propriétés catalytiques et biologiques de complexes cuivre(I)-NHC (Carbène N-Hétérocyclique), dérivés du [CuCl(SIMes)], mis au point par Nolan et al. Dans un premier temps, un criblage d'activités catalytiques a été réalisé avec divers additifs aromatiques azotés afin d'améliorer l'efficacité de la CuAAC. Dans un deuxième temps, la cytotoxicité et l'activité antitumorale du complexe [CuCl(SIMes)] ont été considérées sur plusieurs lignées cellulaires. Nous rapportons ici, le premier exemple de cuivre(I)-NHC biologiquement actif, présentant une activité largement supérieure à celle du cisplatine. Enfin, la réactivité de ce complexe avec de l‟ADN plasmidique a été évaluée in vitro et nous rapportons sa capacité à couper l‟ADN. / The copper(I)-catalyzed alkyne-azide cycloaddition (CuAAC), a “click chemistry” reaction, is of a great interest thanks to its efficiency and versatility. The present work aims to use this reaction for the elaboration of new functionalised 1,2,3-triazole, as “pincer ligand” to platinum. We have synthesized mono- or binuclear platinum anticancer complexes that contain one or two triazole cycles. These complexes were subject to in vitro tests, in order to investigate the interactions they can establish with both nucleosides and DNA. The results reveal a reactivity similar to cisplatin, the reference metallodrug. In parallel, we present the catalytic and biological properties of copper(I)-NHC complexes, like [CuCl(SIMes)] developed by Nolan et al. At first, a screening of the catalytic activity was realized with diverse nitrogen aromatics additives in order to improve the CuAAC efficiency. Secondly, the cytotoxicity and antitumoral activity of [CuCl(SIMes)] were considered on various cancer cell lines. We report here, the first example of a biologically active copper(I)-NHC, this complexe exhibiting a superior activity than cisplatin. Finally, the reactivity of this copper(I)-NHC with DNA was evaluated in vitro and highlights its capacity to cleave DNA.
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Avaliação dos efeitos antineoplásicos do Amblyomin-X em carcinoma de células renais. / Evaluation of Amblyomin-X antineoplasic effects on renal cell carcinoma.Hamilton de Campos Zampolli 16 September 2011 (has links)
Introdução: O carcinoma de células renais metastático (CCRm) é um tumor altamente agressivo e resistente. Seu tratamento é baseado em terapia alvo molecular e citocinas. Avaliamos os efeitos antineoplásicos do Amblyomin-X, sobre CCR. Métodos: Avaliadas culturas de CCR RENCA e fibroblastos normais NIH/3T3 tratadas ou não com Amblyomin-X. Realizados ensaios de viabilidade celular por MTT e determinação, por citometria de fluxo, da proporção de células em apoptose/necrose; expressão da P-gp; Bad; Bax; Bcl-2; ciclina D1; caspase 3; Ki-67; p53; VEGFR1; citocromo c; análise das fase do ciclo celular; e atividade do proteassoma. Analisamos as populações celulares por microscopia eletrônica de varredura. Empregados testes T e One-way ANOVA para análise estatística. Resultados: O Amblyomin-X demonstrou citotoxicidade em células RENCA por indução de apoptose, diminuição de proliferação celular, inibição do proteassoma e modulação do ciclo celular em G0/G1. Em fibroblastos normais não houve citotoxicidade Conclusão: O Amblyomin-X apresentou efeito antineoplásico em CCR e não exerceu efeito citotóxico em células normais, demonstrando um possível potencial terapêutico no tratamento do CCRm. Estudos futuros deverão confirmar estes resultados. / Introduction: Metastatic renal cell carcinoma (mRCC) is a highly agressive and resistant tumour. Its treatment is based on targeted therapies and cytokines. We have evaluated the antineoplasic effects of Amblyomin-X on RCC. Methods: RCC (RENCA) and fibroblasts (NIH/3T3) cell cultures treated or not with Amblyomin-X were evaluated. MTT assay was performed to determine cell viability. Apoptosis/necrosis ratio; expression of P-gp; Bad; Bax; Bcl-2; cyclin D1; caspase-3; Ki-67; p53; VEGFR1; cytochrome c; cell cycle analysis and proteasome activity were obtained by flow cytometry. Cellular populations were analised by Scanning Electron Microscopy. Statistical analyses was performed using T-Tests and One-way ANOVA. Results: Amblyomin-X showed cytotoxic activity on RENCA tumor cells. It has induced apoptosis, decreased tumor cell proliferation, targeted the ubiquitinproteasome system and modulated genes related to cell cycle in G0/G1. There was no toxicity on fibroblasts. Conclusion: Amblyomin-X showed antineoplasic effects on RCC cells preserved normal fibroblast cells. There is a potential role of its therapeutic use in mRCC treatment. Future studies should confirm our initial results.
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I. Isolation and Characterization of Bioactive Compounds From Suriname and Madagascar flora. II. A Synthetic Approach to LucilactaeneAdou, Eba 30 January 2006 (has links)
As part of an International Cooperative Biodiversity Group (ICBG), extracts of plants from Suriname and Madagascar were bioassayed for cytotoxicity and antimalarial activity. Six cytotoxic extracts and one potential antimalarial were selected for fractionation, and yielded a number of bioactive compounds which were characterized by spectroscopy methods. Craspidospermum verticillatum (Apocynaceae) yielded four known indole alkoids. Casimirella sp (Icacinaceae) gave three new and five known diterpenoids. Pentopetia androsaemifolia (Apocynaceae) afforded one new and three known cardenolide glycosides. Physalis angulata (Solanaceae) yielded seven known physalins. Roupellina boivinnii (Apocynaceae) yielded four known and three new cardenolide glycosides, and three known cucurbitacins were isolated from Octolepis aff. dioica (Thymelaeaceae).
In addition to these structural studies, a synthetic approach to lucilactaene, a cell cycle inhibitor was developed. / Ph. D.
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