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Studies On The Photo-induced DNA Cleavage Activity Of α-Amino Acid Copper Complexes Having Phenanthroline BasesPatra, Ashis Kumar 12 1900 (has links)
Photo sensitizers showing visible light induced DNA cleavage activity are of current importance for medicinal applications related to photodynamic therapy (PTD) considering greater skin penetration of light near 700 nm. While organic molecules and complexes of 4d-5d metal ions are extensively studied for their DNA photo-damage properties in UV and visible light, the chemistry of 3D metal complexes showing visible light-induced DNA cleavage activity is relatively unexplored efforts have been made in this thesis work to design new ternary copper (II) complexes having a-amino acids Such copper (II) complexes with tunable coordination geometry could find potential applications in PDT.
Ternary Copper (II) complexes containing L-methionine, S-methy1-L-cysteine and phenanthroline bases are prepared and characterized. They display DNA binding and visible light induced DNA cleavage activity. An enhancement of the DNA cleavage activity is observed for analogous ternary copper (II) complexes contained L-lysine with a pendant cationic amine moiety as a photo-induced DNA Cleavage activity using binary and ternary copper (II) complexes of L-arginine and phenanthroline bases. We have observed AT selective DNA binding and visible light –induced DNA cleavage activity. The crescent-shaped bis-arginine Copper (II) complex mimics the natural antiviral antibiotic netropsin. T o investigate the role of the pendant groups of the amino acids, we have explored the DNA binding and DNA cleavage activity of analogues L-glutamine and L-asparagine complexes. We have prepared ternary copper (II) complexes containing two photosensitizers, viz., L-tryptophan (L-trp) and dipyridoquininoxaline/dipyridophenazine to achieve double strand breaks forming linear DNA. Complex [Cu(L-trp)(dppz)(H2O)+ shows a stacking arrangement of the indole and dppz rings giving a separation that fits with the base pair separation of ds-DNA. Photosensitizes in these complexes approach two different complementary stands of the ds-DNA, leading to double strand breaks and formation of linear DNA.
Mechanistic studies on the DNA photocleavage reactions reveal the formation of singlet oxygen(1O2)species by a type-II pathway in preference to the hydroxyl radical generation. A process leading to an efficient DNA cleavage activity on visible light irradiation. The observation of sequence selectivity and double strand DNA cleavage on red light exposure by national design of the complexes is significant considering importance of the results in the chemistry of photodynamic therapy of cancer. The results of this dissertation open up new avenues for designing and developing 3d metal-based photosensitizers with potential utility in nulcleic acid chemistry.
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Studies On The Photocytotoxic Effect Of Ferrocene-Conjugated Copper(II) ComplexesGoswami, Tridib Kumar 12 1900 (has links) (PDF)
The present thesis deals with different aspects of the chemistry and photo-biology of various ferrocene-conjugated metal complexes, their interaction with double helical DNA, DNA photocleavage and photo-enhanced cytotoxicity in visible light. Phenyl analogues of the active complexes have been synthesized and used for comparison in biological assays.
Chapter I provides an introduction to the potential of metal complexes as photochemotherapeutic agents with special reference to organometallic compounds. A brief overview of Photodynamic Therapy (PDT) as a new modality of cancer treatment has been given. Various modes of non-covalent interactions of small molecules with duplex DNA are mentioned. Recent reports on the metal-based photocytotoxic and DNA cleaving agents including photoactivatable organometallic compounds are discussed. The objective of the present investigation is also presented in this chapter.
Chapter II presents the synthesis, characterization, structure, DNA binding, DNA photocleavage, photocytotoxicity, mechanism of cell death and cellular localization of ferrocene-conjugated L-methionine reduced Schiff base Cu(II) complexes of phenanthroline bases. To explore the role of the ferrocenyl moiety the phenyl analogues of the ferrocenyl complexes are synthesized and used as controls for comparison purpose.
Chapter III deals with the photo-induced DNA cleavage and photo-enhanced cytotoxicity of ferrocene-appended L-tryptophan Cu(II) complexes of heterocyclic bases. The synthesis, characterization, structural comparisons, DNA binding, DNA photocleavage, photocytotoxic activity and cell death mechanism in visible light are discussed in detail.
Chapter IV describes the synthesis, characterization and structure of ferrocenylmethyl-L-tyrosine Cu(II) complexes of phenanthroline bases. The complexes are evaluated for DNA binding, DNA photocleavage and photocytotoxic activity in visible light. The cellular localization of the complexes and the mechanism of cell death induced by the complexes are also discussed.
Chapter V presents the photocytotoxic effect of ferrocene-conjugated L-amino acid reduced Schiff base Cu(II) complexes of anthracenyl/pyrenyl imidazophenanthroline. The ability of the complexes to bind to double helical DNA and cleave it under photo-illumination conditions is described. Evaluation of the complexes as photochemotherapeutic agents and comparison with currently clinically available drug Photofrin are presented. The mechanism of cancer cell death and cellular localization of the complexes are studied by fluorescence microscopy.
Chapter VI describes the synthesis, characterization and photochemotherapeutic efficacy of Cu(II) complexes having ferrocene-appended L-amino acid reduced Schiff base ligands and the naturally occurring polyphenol curcumin. Stabilization of curcumin by complexation to metal for improved photodynamic effect in cancer cells is described with comparison to the parent dye and clinically used drug Photofrin. The mechanism of cell death induced by the copper complexes and their localization in cancer cells are also presented.
Finally, the summary of the dissertation and conclusions drawn from the present investigations are presented.
The references in the text have been indicated as superscript numbers and compiled at the end of each chapter. The complexes presented in this thesis are represented by bold-faced numbers. Crystallographic data of the structurally characterized complexes 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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