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Studies on Near-IR Light Photocytotoxic Oxovanadium ComplexesPrasad, Puja January 2013 (has links) (PDF)
The present thesis deals with different aspects of the chemistry of oxovanadium(IV) complexes, their interaction with double stranded DNA, photo-induced DNA cleavage, photo-enhanced cytotoxicity in visible light and red light and localisation and cellular uptake to understand the mechanism of cell death.
Chapter I presents a general introduction on potential of transition metal complexes as photochemotherapeutic agents. A brief introduction about Photodynamic Therapy (PDT) as a new alternative to chemotherapy for treating cancer has been made. Various modes of interaction of small molecules with duplex DNA are described. Recent reports on metal-based photocytotoxicity, photo-induced DNA cleavage activity and cellular localization are presented in detail. Objective of the present investigation is also dealt in this Chapter.
Chapter II of the thesis deals with the synthesis, characterization, DNA binding and photo-induced DNA cleavage activity of ternary oxovanadium(IV) complexes of ONO-donor 2-(2-hydroxybenzylideneamino)phenol (salamp) and phenanthroline bases to explore the photo-induced DNA cleavage activity in UV-A light of 365 nm and photocytotoxicity in visible light.
Chapter III deals with the photo-induced DNA cleavage and photocytotoxicity of ternary oxovanadium(IV) complexes containing ONN-donor N-2-pyridylmethylidine-2-hydroxyphenylamine (Hpyamp) Schiff bases and phenanthroline bases. The objective of this work is to investigate the photo-induced DNA cleavage activity in near-IR light. Photocytotoxicity and cell cycle arrest have been studied in HeLa cancer cells.
Chapter IV deals serendipitous discovery of planar triazinuim cationic species by vanadyl-assisted novel ring cyclization reaction. The compounds are synthesised, characterized and their DNA binding and anaerobic photoinduced DNA cleavage activity are presented. The importance of the thiazole moiety in the triazinuim species
in cellular uptake has been investigated. Photocytotoxicity, localization and cell death mechanism have been studied in HeLa and MCF-7 cells.
Chapter V describes the synthesis, characterization, DNA binding, photo-induced DNA cleavage activity and photocytotoxicity of oxovanadium(IV) complexes containing 2-(1H-benzimidazol-2-yl)-N-(pyridin-2-ylmethylene)ethaneamine (Hpy-aebmz) and curcumin as photosensitizer. The effect of conjugating naphthalimide on Hpy-aebmz on photoinduced DNA cleavage and photocytotoxicity has been studied. Cellular uptake, localization and mechanism of cell death induced by complexes have been investigated.
Chapter VI presents ternary oxovanadium(IV) complexes having, 2-((1H-benzimidazol-2-yl)methylimino-methyl)phenol (Hsal-ambmz) and phenanthroline bases. The complexes were synthesized, characterized and their DNA binding property studied. Photo-induced DNA cleavage activity and photocytotoxicity in red light has been discussed. Anthracene has been conjugated to a tridentate ligand to investigate cellular uptake, localization and cell death mechanism. Mitochondria targeting property of the complexes having dipeptide has been studied and compared with clinically used drug Photofrin®.
The references have been compiled 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, characterized structurally by single crystal X-ray crystallography, are given 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 regretted.
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Oxovanadiumcalixaren-Komplexe als Molekülmodelle für katalytisch aktive Oberflächenspezies und als homogene OxidationskatalysatorenHoppe, Elke 20 August 2007 (has links)
Abstract Zur Modellierung einer Oxidoberfläche wurden p-tert-Butylcalix[4]aren (H4CA[4]), Dimethyl-p-tert-butylcalix[4]aren (H2Me2CA[4]), p-tert-Butylcalix[8]aren (H8CA[8]) und p-tert-Butylthiacalix[4]aren (H4TC) eingesetzt. Es gelang die Synthese von unterschiedlichen mono- und dinuklearen, geladenen und ungeladenen Oxovanadium(V)-verbindungen. Die Verbindungen [CA[4]V=O]- (4), [AcOCA[4]V=O] (5), [HCA[8](V=O)2]- (6), [Me2CA[4](µ-O)(V(O)OMe)2] (7), [CA[8](µ3-O)2V4O4] (8a/8c), [(H2TC)VOCl2]- (9) und [{(H2TC)V(O)(µ2-O)}2]2- (10) wurden als Katalysatoren für die Oxidation von Alkoholen in Gegenwart von Sauerstoff getestet. Die dinuklearen Komplexe 6 und 7 katalysieren die Oxidation von 1-Phenyl-1-propargylalkohol und Fluorenol effizient. Des Weiteren stellten die beiden Thiacalixarenkomplexe 9 und 10 in den meisten untersuchten Fällen bessere Katalysatoren dar als die Oxovanadiumkomplexe, die die „klassischen“ Calixarene als Liganden enthalten. Der dinukleare Komplex 10 zeigte eine höhere Aktivität als der mononukleare Thiacalixarenkomplex 9. Es konnte gezeigt werden, dass 9 als Präkatalysator wirkt und in die aktive Spezies [TCV=O]- (11) umgewandelt wird. Auf Basis der Isolierung von [(TC)2V]- (12) und kinetischen Untersuchungen konnte ein möglicher Reaktionsmechanismus formuliert werden. Um die Reaktionsmechanismen für ausgewählte Systeme aufzuklären, wurde die Isolierung von Reaktionsintermediaten angestrebt. Aus der Umsetzung von Fluorenol mit 10 in Abwesenheit von Sauerstoff konnte das Intermediat [{(H2TC)V(O)}2(µ2-OH)(µ2-OC13H9)]2- (13), isoliert und vollständig charakterisiert werden. Unter Einbeziehung der Ergebnisse von Untersuchungen zur Reaktivität von 13 konnte ein plausibler Mechanismus für einen Katalysezyklus vorgeschlagen werden, nach welchem der Oxidationsprozess an den verbrückenden Oxoliganden stattfindet und die beiden Vanadiumzentren der Verbindung während der Reaktion kooperieren. Oxovanadium Komplexe, Calix aren Komplexe, Oxidationskatalysator, Alkoholoxidation, Reaktionsmechanismen / Abstract For Modelling an oxosurface p-tert-butylcalix[4]arene (H4CA[4]), dimethyl p-tert-butylcalix[4]arene (H2Me2CA[4]), p-tert-butylcalix[8]arene (H8CA[8]) and p-tert-butylthiacalix[4]arene (H4TC) have been used. Different mono- and dinuclear, charged and uncharged oxovanadium(V) compounds have been synthesized. The compounds [CA[4]V=O]- (4), [AcOCA[4]V=O] (5), [HCA[8](V=O)2]- (6), [Me2CA[4](µ-O)(V(O)OMe)2] (7), [CA[8](µ3-O)2V4O4] (8a/8c), [(H2TC)VOCl2]- (9) and [{(H2TC)V(O)(µ2-O)}2]2- (10) were tested as catalysts for the oxidation of alcohols in the presence of dioxygene. The dinuclear complexes 6 and 7 efficiently catalyse the oxidation of 1-Phenyl-1-propargylic alcohol and fluorenol. Furthermore, the two thiacalixarene complexes in most cases demonstrated to be better catalysts than the oxovanadium(V) complexes with classic calixarenes as ligands. With regard to the thiacalixarene complexes 9 and 10, the dinuclear complex 10 showed a higher activity compared to the mononuclear complex 9. Further investigations showed, that 9 is a precatalyst for the active species [TCV=O]- (11). On the basis of the isolation of [(TC)2V]- (12) and kinetic investigations a possible reaction mechanism for the oxidation of alcohols could be suggested. In order to clarify the reaction mechanisms for selected systems the isolation of reaction intermediates was pursued. The reaction of fluorenol and 10 in the absence of O2 led to the isolation of the reaction intermediate [{(H2TC)V(O)}2(µ2-OH)(µ2-OC13H9)]2- (13), which was completely characterised. Including the results of investigations concerning the reactivity of 13 a mechanism for a plausible catalysis cycle was proposed. Accordingly the oxidation reaction is centered at the bridging oxoligands, while the two vanadium atoms cooperate during the reaction.
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Aspects Of The Chemistry Of Oxovanadiulm(IV) Complexes Showing Photo-Induced Cytotoxicity And DNA Cleavage ActivitySasmal, Pijus Kumar 04 1900 (has links) (PDF)
The present thesis deals with different aspects of the chemistry of oxovanadium(IV) complexes, their interaction with DNA and protein and photo-induced DNA and protein cleavage activity and photocytotoxicity.
Chapter I presents a general introduction on various modes of interactions of organic compounds and transition metal complexes capable of targeting DNA leading to DNA strand scission, emphasizing particularly the photo-induced DNA cleavage activities for their potential application in PDT. The mechanistic pathways associated with the DNA cleavage are discussed. A comparison has been made on the advantages of photoactive metal complexes over organic conjugates. Objective of the present investigation is also dealt in this Chapter.
Chapter II of the thesis deals with the synthesis, characterization, DNA binding and photo-induced DNA cleavage activity of ternary oxovanadium(IV) complexes of N-salicylidene-S-methyldithiocarbazate (salmdtc) and phenanthroline bases to explore the photo-induced DNA cleavage activity in UV-A light of 365 nm.
Chapter III presents the synthesis, characterization, DNA binding and photo-induced DNA cleavage activity of ternary oxovanadium(IV) complexes containing N-salicylidene-L-methionate (salmet) and N-salicylidene-L-tryptophanate (saltrp) Schiff bases and phenanthroline bases. The objective of this work is to investigate the photo-induced DNA cleavage activity in near-IR light and to see the effect of pendant thiomethyl and indole moieties in the DNA cleavage reactions.
Chapter IV deals with the synthesis, characterization, DNA binding, red-light induced DNA cleavage activity and photocytotoxicity of ternary oxovanadium(IV) complexes having N-salicylidene-L-arginine (sal-argH) and N-salicylidene-L-lysine (sal-lysH) Schiff bases and phenanthroline bases. The important results include the visible light-induced DNA cleavage activity and photocytotoxicity of the complexes in human cervical HeLa cancer cells.
Chapter V describes the synthesis, characterization, DNA binding and photo-induced DNA and protein cleavage activity and photocytotoxicity of oxovanadium(IV) complexes containing bis(2-benzimidazolylmethyl)amine and phenanthroline bases. The significant results include DNA cleavage activity in near-IR light and photocytotoxicity of the dppz complex in non-small cell lung carcinoma/human lung adenocarcinoma A549 cells in visible light. Further, we have studied the protein cleavage activity of the complexes in UV-A light of 365 nm by using bovine serum albumin (BSA) and lysozyme.
Finally, Chapter VI presents the binary oxovanadium(IV) complexes of phenanthroline bases. We have studied their synthesis, characterization, DNA binding and photo-induced DNA and protein cleavage activity and photocytotoxicity. Photocytotoxicity of dppz complex has been studied in human cervical HeLa cancer cells in visible light. Photo-induced protein cleavage activity of the complexes has been studied in UV-A light of 365 nm by using BSA and lysozyme.
The references have been compiled 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, characterized structurally by single crystal X-ray crystallography, are given 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 omission that might have happened due to oversight or mistake is regretted.
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