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101	High resolution 195Pt and 119Sn NMR characterization of platinum(II)-tin(II) complexes Barkhuysen, Shani 12 1900 (has links) Thesis (MSc)--Stellenbosch University, 2011. / ENGLISH ABSTRACT: See full text for abstract / AFRIKAANSE OPSOMMING: Sien volteks vir opsomming Platinum compounds Nuclear magnetic resonance spectroscopy Dissertations -- Chemistry Theses -- Chemistry Chemistry and Polymer Science
102	Design and synthesis of luminescent metal polypyridyl complexes of platinum(II), ruthenium(II) and osmium(II) for chemosensing andbiological studies Tang, Wing-suen., 鄧詠璇. January 2006 (has links) published_or_final_version / abstract / Chemistry / Doctoral / Doctor of Philosophy Platinum compounds. Ruthenium compounds. Osmium compounds. Complex compounds - Synthesis. Chemical senses. Photochemistry.
103	Mechanisms of Accumulation and Biological Consequences of Polynuclear Platinum Compounds Kabolizadeh, Peyman 01 January 2007 (has links) The novel trinuclear complex, BBR3464 has undergone Phase II clinical trials and been shown to have greater cytotoxicity and cellular uptake than clinical anticancer platinum drugs such as cisplatin, oxaliplatin and carboplatin. The clinical efficacy of cisplatin, oxaliplatin and carboplatin is limited due to acquired resistance and dose limiting side effects. The three major pharmacological factors contributing to the intrinsic cytotoxicity of, and cellular resistance to, platinum drugs are (i) cellular uptake and efflux of platinum; (ii) the frequency and nature of Pt-DNA adducts; and (iii) deactivating metabolic reactions with sulfur-containing nucleophiles. Since decreased cellular uptake of platinum drugs is a common feature of resistant cells, investigating mechanisms of cellular uptake and efflux is of a great importance in the field of cancer biology. The mechanisms of uptake of Platinum drugs are diverse and complex. Similar to cisplatin, BBR3464 v as shown to use copper transporter hCTR1 and ATP7B for influx and efflux respectively. Organic cation transporters (OCT) did not play an important role in BBR3464 cellular uptake, however, desipramine, an OCT inhibitor had synergistic effects on platinun drugs-induced cytotoxicity. This effect is of high clinical relevance since desipramine, an antidepressant, is being used in prostate cancer patients for the treatment of neuropathic pain. The mechanism of this interaction was further addressed.Due to the high charge of BBR3464, studies have shown that its DNA binding has a non-covalent component. To examine the non covalent component, labile chloride leaving groups were replaced by non labile ammonia groups. Besides having higher cellular accumulation than BBR3464, the non covalent analogue, AH78, had a different mechanism of action in cells and showed promising results in vivo. These data confirm the validity of searching for new chemotypes outside the cisplatin structural class to aid in the treatment of recurrent, cisplatin-resistant cancers. Cancer Anticancer drugs Platinum compounds Accumulation Polynuclear Chemistry Physical Sciences and Mathematics
104	Synthesis and evaluation of nitrogen-and phosphorus-donor platinum and gold complexes as anti-cancer agents 16 March 2010 (has links) Ph.D. / Chapter 1 presents a brief overview on the development of platinum, ruthenium and gold anti-cancer complexes. The clinical success of cisplatin has been a tremendous impetus for the design of metal-based antitumor drugs. Its mechanism of action is therefore briefly discussed, as well as the toxic side effects of its clinical use and the cellular resistance to the drug. It is its side effects and drug resistance that have stimulated the development of cisplatin analogues and other metal based anti-cancer agents. Compounds showing most promise are ruthenium complexes which are structurally different but have the same stability and show similar modes of binding to DNA. The last part of the introduction deals with the development of gold(I) and gold(III) complexes, the main topics of the research described in this thesis. Chapter 2 reports on the attempted preparation of dppf and dippf gold(III) complexes. However, the reaction of these diphosphines with H[AuCl4] and Na[AuCl4] all led to isolation of gold(I) complexes (dppf)Au2X2 (X = Cl (1), Br (3)) and (dippf)Au2X2 (X = Cl (2), Br (4)). In an attempt to oxidize the gold(I) complexes, (dppf)Au2Br2 (3) and (dippf)Au2Br2 (4) were reacted with excess bromine yielding two new complexes (C5H4Br3)(PR2)AuBr (R = Ph, 5; R = i-Pr, 6). This bromination reaction could be extended to the ligands and bromination of the free diphosphinoferrocene ligands produced the expected brominated cyclopentenes (C5H4Br3)(PR2) (R = Ph, 7; R = i-Pr, 8) in good yields. However, these could not be complexed to gold due to reduced basicity of 7 and 8. When the bromination was performed under wet aerobic conditions the oxidized pseudo-centrosymmetric product, [doppf][FeBr4] (9) {doppf = 1,1’-bis(oxodiphenylphosphino)ferrocene, was obtained as the major product. Solid-state structures of 1, 2, 4, 6, and 9 were established by means of single-crystal X-ray crystallography. Chapter 3 reports on the use of chiral Josiphos and Walphos diphosphine ligands to form palladium, platinum and gold complexes. The platinum complexes were prepared by reacting the ligands with [PtCl2(cod)] while the palladium complexes were prepared from [PdCl2(NCMe)2]. The complexes obtained had the general formula [MCl2(P-P)], where M = Pd, Pt, and P-P = Josiphos or Walphos ligand, and were obtained in good yields. The X-ray structures of a palladium(II) and a platinum(II) complex of the same Josiphos ligand were determined. The Josiphos complexes 12 and 14 show good solubility in common solvents. Furthermore, the complexes remained soluble and stable in a 40:60 water:DMSO mixture. The Walphos complexes 13 and 15 rapidly precipitated under the same conditions. In line with this limited solubility 13 and 15 showed minimal cytotoxic effects when compared to their Josiphos counterparts 12 and 14 whose cytotoxic effects (in terms of IC50 values ) were six to seven times less than cisplatin. Reaction of the Walphos ligand and H[AuCl4] in a 1:1 ratio gave a dinuclear gold(I) complex 18 while the same reaction with Josiphos gave a mixture of intractable materials. However a 1:1 reaction of the Josiphos with AuCl(tht) gave a mononuclear three-coordinate gold(I) complex 16. A P^N chiral ligand comprising of a diphenylphosphine and a pyrazole moiety was also prepared and was complexed with AuCl(tht) to give a phosphine bound gold(I) complex 19. The structure of this complex was determined by X-ray studies. From the studies it became evident that apart from increasing the basicity of compound the pyrazolyl moiety remains dangling and the complex shows bond parameters similar to those observed with monophosphine ferrocenyl complexes. Chapter 4 reports on the bidentate and monodentate gold(III) complexes based on the (pyrazolylmethyl)pyridine ligands together with their platinum(II) complexes. The denticity of the complexes depended on the position of the pyrazolyl moiety relative to the pyridine nitrogen. When ortho-substituted ligands were reacted in a 1:1 ratio with H[AuCl4] in a mixture of water and ethanol at room temperature, bidentate cationic complexes of the general formula [AuCl2(PyCH2R2pz)][X], where R = Me (20), X = AuCl4-; R = Ph (21), X = Cl-; t-Bu (22), X= Cl- and p-tol (23), X = AuCl4-, were obtained. When para-substituted ligands were used under same reaction conditions, neutral monodentate complexes [AuCl3(PyCH2R2pz)], where R = Me (24) and R = Ph (25), were obtained. Platinum(II) complexes were obtained using K2[PtCl4] in a mixture of water and ethanol under reflux, and affords neutral complexes of the type [PtCl2(PyCH2R2pz)], where R = Me (27), Ph (28), t-Bu (29) and p-tol (30). When acetone was used instead of ethanol monoacetonylplatinum(II) complex (29a) was formed and on prolonged heating formation of the diacetonyl complex (28b) was observed. Both the platinum and the gold complexes were evaluated for their anti-cancer potency. The gold(III) complexes were devoid of any activity while the platinum complex 30 showed activity 8 times lower than cisplatin. The structures of 23, 25, 28, 29 and 29a were determined from single-crystal X-ray diffraction studies. In Chapter 5, tridentate complexes based on bis(pyrazolylethyl)amine are reported. These were prepared with the aim of improving water-solubility and cytotoxicity of the resulting complexes. New synthetic methods for preparation of the ligands NH(CH2CH2pz)2 (R = Me (L7), H (L8), t-Bu (L9)) under mild reaction conditions were developed albeit the yields obtained were generally low. The reaction of these ligands with H[AuCl4] gave corresponding tridentate dicationic gold(III) complexes [NH(CH2CH2pz)2][X]2 (R = Me (31), H (32), X = AuCl4 , and R = t-Bu (33), X = Cl-). Despite the ligands stabilizing the gold(III) ion, they showed no solubility in water. In an attempt to make the ligand system water soluble, a thiocarbamate analogue with pyrazolyl groups replaced by hydroxyl groups was prepared. However the resulting gold(III) complex [Au{CS2N(CH2CH2OH)2}2][AuCl2] (34) was found to be only soluble in DMSO. Gold compounds Platinum compounds Gold - Therapeutic use Platinum - Therapeutic use Complex compounds synthesis Cancer treatment
105	Synthesis, characterization and photophysical properties of platinum(II) metallopolyyne polymers for photovoltaic applications Li, Li 01 January 2011 (has links) No description available. Analysis Materials Photovoltaic cells Photovoltaic power generation Platinum compounds Polymers Solar cells
106	Évaluation de nouveaux complexes halogénés de Platine liés à des carbènes N-hétérocycliques pouvant combiner un effet chimiotoxique et radiotoxique pour le traitement du mélanome cutané métastatique / Evaluation of the potential of new platinum halogen complexes linked to N-heterocyclic carbenes that can combine a chemotoxic effect and internal radiotherapy for the treatment of metastatic cutaneous melanoma Charignon, Elsa 25 October 2018 (has links) Bien qu'il concerne que 10% des cancers de la peau, le mélanome cutané est à l'origine de 80% de la mortalité due à ce type de cancer. L'objectif de mon travail de thèse était de mesurer l'efficacité cytotoxique de nouveaux complexes de platine (les NHC-Pt) dans le mélanome cutané métastatique, mais également de décrire leurs mécanismes d'action. Ces complexes pouvant être radiomarqués, nous avons vérifié l'hypothèse selon laquelle les propriétés chimiotoxiques du platine peuvent être combinées aux propriétés radiotoxiques d'électrons de faible énergie émis par l'iode 123. Enfin, ce radiomarquage a permis une première approche de la biodistribution des composés NHC-Pt. J'ai montré que le composé NHC-Pt-I2, avait un effet cytotoxique important dans des lignées de mélanome métastatiques BRAF mutés et wild-type ainsi que dans des lignées de mélanome rendues résistantes au vemurafenib, un inhibiteur de BRAF. L'obtention de cet effet après une exposition très courte (1h) des cellules, témoigne de la rapidité de déclenchement des processus cytotoxiques cellulaires, contrairement à ce qui a été observé avec le cisplatine et la dacarbazine. Les études de pharmacocinétique ont permis de rapporter l'importance de l'effet cytotoxique obtenu avec un traitement d'1h sur les cellules à une accumulation cellulaire du composé NHC-Pt-I2 importante. Cette accumulation était supérieure (95 fois) à celle du cisplatine, et permettait une induction massive de dommages à l'ADN. Les études mécanistiques ont montré que les composés NHC-Pt induisaient l'apoptose des cellules d'une part via la voie Bcl-xL, et d'autre part via une autre voie dépendante des pan-caspases non identifiée à l'heure actuelle. Le radiomarquage par l'iode-123 du composé NHC-Pt-Br2 a permis d'étudier sa biodistribution in vivo chez la souris. Le composé NHC-Pt-Br-123I présente une distribution rapide et importante vers le compartiment sanguin, une accumulation très faible dans les principaux organes, et une légère accumulation tumorale. En revanche, l'étude de la synergie des effets cytotoxiques du Pt par l'effet des électrons de faible énergie émis par l'I123 a été limitée par le très faible rendement de marquage de composés radiomarqués obtenu. Les résultats obtenus durant ce projet de thèse ont permis de révéler le potentiel important des composés NHC-Pt comme outil thérapeutique du mélanome cutané métastatique / Although only 10% of skin cancers are due to cutaneous melanoma, but it’s still responsible for 80% of the mortality caused by this type of cancer. The aim of my thesis was evaluating the cytotoxicity of new platinum complexes (NHC-Pt) in metastatic cutaneous melanoma and investigating their mechanisms of action. These complexes can be radiolabeled. We studied if chemotoxicity of platinum combined by radiotoxicity of low energy electrons emitted by 123 Iodine (123I) can lead to a higher cytotoxicity. This radiolabelling also permitted us to study the biodistribution of the NHC-Pt compounds. We have shown that the compound NHC-Pt-I2, not only had a significant cytotoxic effect on mutated and wild-type BRAF metastatic melanoma cell lines but also on melanoma cell lines resistant to vemurafenib which is a BRAF inhibitor. Getting results in a very short cell exposure time (1h), showed a rapid onset of cellular cytotoxicity, and it’s contrary to what was observed in cisplatin and dacarbazine. We also showed that cytotoxic effect obtained by 1h treatment of cells was due to higher cellular accumulation of the NHC-Pt-I2. This higher accumulation was about 95 times more than that of cisplatin and allowed much more DNA damage induction. Our Mechanistic studies showed that NHC-Pt compounds induce cell apoptosis via the Bcl-xL pathway and also there is another pathway dependent on pancaspases which is still unidentified. The radiolabelling with 123I of the NHC-Pt-Br2 enabled the in vivo study of its biodistribution in mice. The NHC-Pt-Br-123I compound had a fast and important distribution to the blood compartment, and a very slight accumulation in the main organs, and also in tumors. On the other hand, the study of amplification of Pt cytotoxicity by the effect of 123I was limited by very low labelling efficiency of radiolabelled compounds. The reason of this low efficacy may be the special commercial saline solutions of 123I that we used. The results achieved during this thesis project revealed the important potential of NHC-Pt compounds as a therapeutic tool for metastatic cutaneous melanoma Mélanome Métastases Complexes de platine Développement de drogues Melanoma Metastasis Platinum compounds Drug development 570
107	Platinum(II) complexes containing 1,2- and 1,7-carborane ligands for boron neutron capture therapy Todd, Jean Ann. January 2001 (has links) (PDF) Bibliography: leaves 178-195. Boron-neutron capture therapy Carboranes Therapeutic use Platinum compounds Therapeutic use DNA-ligand interactions
108	Platinum(II) complexes containing 1,2- and 1,7-carborane ligands for boron neutron capture therapy / by Jean Ann Todd. Todd, Jean Ann January 2001 (has links) Bibliography: leaves 178-195. / xiv, 195 leaves : ill. ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Chemistry, 2001 Boron-neutron capture therapy. Carboranes Therapeutic use. Platinum compounds Therapeutic use. DNA-ligand interactions.
109	Multinuclear platinum (II) complexes containing carboranes for potential use in boron neutron capture therapy / by Susan Louise Woodhouse. Woodhouse, Susan Louise January 2004 (has links) "January 2004" / Bibliography: leaves 163-184. / v, 184 leaves : ill. (some col.), photos ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, School of Chemistry and Physics, Discipline of Chemistry, 2004 Boron-neutron capture therapy Platinum compounds Therapeutic use. Carboranes Therapeutic use. DNA-ligand interactions.
110	Activity of Analogs of Anticancer Drugs on the Serine Protease Enzymes Subtilisin and Chymotrypsin Ravipati, Dhatri 01 December 2011 (has links) The anticancer activity of several platinum compounds is due to the formation of complexes with DNA. We hypothesize that the size and shape of the platinum compounds would impact interaction with proteins, and these interactions may be partly responsible for the anticancer activity. Chymotrypsin and subtilisin are serine proteases that have a histidine residue in the active site. We are investigating the inhibition of the digestive enzymes chymotrypsin and subtilisin by analogs of the anticancer drug cisplatin and trying to discern trends in the inhibition as the active site residues vary. In our research, we found that the enzyme subtilisin did not show any significant inhibition with different platinum compounds we used, while chymotrypsin showed inhibition only with the potassium tetrachloroplatinate and this inhibition is concentration dependent platinum compounds serine proteases digestive enzymes Genetic Processes Medicinal-Pharmaceutical Chemistry

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