The Synthesis, Characterization, and Biological Testing of Late Transition Metal Polypyridyl Complexes as Potential Chemoterapeutic Agents PDF Download
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Author: Noah Roscoe Angel
Publisher:
ISBN:
Category : Cancer
Languages : en
Pages : 74
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Book Description
Author: Noah Roscoe Angel
Publisher:
ISBN:
Category : Cancer
Languages : en
Pages : 74
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Book Description
Author: N. Farrell
Publisher: Springer Science & Business Media
ISBN: 9401175683
Category : Science
Languages : en
Pages : 304
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Book Description
When this book was first conceived as a project the expanding interest in the clinical use of platinum and gold complexes made a survey of the relevant biological properties of metal complexes timely and appropriate. This timeliness has not diminished during the gestation and final publica tion of the manuscript. The introduction contains an explanation of the layout and approach to the book, which I wrote as an overall survey of the wide variety of biological properties of metal complexes. Hopefully, the reader will see the parallels in mechanisms and behavior, even in different organisms. The writing was considerably helped by the enthusiasm and confidence (totally unearned on my part) in the project of Professor Brian James and lowe him my special thanks. I also owe a great debt of gratitude to my colleagues, and especially to Eucler Paniago, of the Universidade Federal de Minas Gerais, for their comprehension and for the initial leave of absence which allowed me to begin the project. To those who read some or all of the manuscript and made suggestions, Bernhard Lippert, Kirsten Skov, and Tom Tritton, as well as the editor's reviewer I am also grateful. As usual, the final responsibility for errors or otherwise rests with the author.
Author: Pooja Ahuja
Publisher:
ISBN:
Category : Cancer
Languages : en
Pages : 164
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Book Description
The ruthenium polypyridyl complexes [(phen)2Ru(tatpp)Ru(phen)2]4+ ([P]4+) and [(phen)2Ru(tatpp)]2+ ([MP]2+) are promising anti-tumor agents that arrest H358 NSCLC tumor growth in mouse tumor models and show cytotoxicity in the low micromolar range towards a number of platinum sensitive NSCLC lines (H358, H226, HOP62, H2087). Dose escalation toxicity studies in mice reveal that [MP]2+ and [P]4+ are tolerated without any short term side effects at levels up to 40 mg drug/kg mouse and >160 mg drug/kg mouse respectively with no obvious side effects, when administered as IP injection. Mechanistic studies reveal that much of the anti-tumor activity is primarily due to the presence of redox active ligand unit tatpp that binds to DNA via intercalation and is then reduced to a radical species that cleaves DNA via H-atom abstraction from the deoxyribose unit. In this work, we examine the hypothesis that the tatpp ligand is the key pharmacophore and that coordination to Ru(II) is needed primarily to enhance its solubility and modify its reduction potential, however other transition metals may also satisfy this requirement. In an effort to determine the generality of the tatpp pharmacophore, a number of Re(I) analogues were targeted and tested, where possible, for DNA cleavage activity, cytotoxicity, and animal toxicity. The Re(I)tatpp analogues possess lower overall charge and differing coordination environments around tatpp which could potentially alter the spectrum of cytotoxic activity against cancer cells and open new potential therapies. In this regards, we prepared a series of homometallic and heterobimetallic Re(I)tatpp analogues such as Re2(CO)6(tatpp)Cl2 [ReP], Re(CO)3(tatpp)Cl [MRe], [Re2(CO)6 (tatpp)(CH3CN)2](PF6)2 [RePCH3CN]2+,[Ru(phen)2(tatpp)Re(CO)3(CH3CN)](PF6)3 [RuReCH3CN]3+, [Ru(phen)2(tatpp)Re(CO)3(P(CH2OH)3](PF6)3 [RuRePR3]3+ and characterized them by 1H NMR, IR, HRMS, CHN. Unlike Ru(II) complexes [P]4+and [MP]2+, Re(I)tatpp complex [RePCH3CN]2+ was found to be air sensitive and oxidizes to form a quinone analogue [Re2(CO)6(tatpq)(CH3CN)2](PF6)2 [ReQ]2+ upon visible light irradiation in solution. The compound also can dimerize, whether in solution or solid state, to form a 'dimer of dimers' [Re4(CO)12(tatpp)2(CH3CN)4](PF6)4 [d-RePCH3CN]4+ via an unknown route. The heterobimetallic complex [RuReCH3CN]3+ was found to be less reactive than [RePCH3CN]2+ but will also undergo photooxidation to the quinone analogue [Ru(phen)2(tatpq)Re(CO)3(CH3CN)](PF6)3 [RuReQCH3CN]3+ after prolonged irradiation of over 72 h under identical conditions (relatively low yield - 33%). Because of solubility reasons, only [RuReCH3CN]3+ and [RuRePR3]3+ were screened for DNA cleavage activity which revealed that these complexes are effective DNA cleaving agents under the same conditions in which Ru(II) complexes [P]4+ and [MP]2+ are. Toxicity studies reveal that [RuRePR3]3+ exhibits different spectrum of cytotoxicity against four cancer cell lines and low animal toxicity (MTD > 160 mg/kg mouse). Biodistribution study reveal gradual body clearance while the mass spectrometry data to support renal clearance is awaited. Representative HPLC studies to show that [RuRePR3]3+ is not only pure but unexpectedly fluorescent are also presented. Confocal microscopy study in H358 cells to determine patterns of uptake and localization is also presented and discussed.
Author: Bernhard Rieger
Publisher: John Wiley & Sons
ISBN: 3527605266
Category : Technology & Engineering
Languages : en
Pages : 345
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Book Description
At the start of the 1950s, Ziegler and Natta discovered that simple metallorganic catalysts are capable of transforming olefins into linear polymers with highly ordered structures. This pioneering discovery was recognized with a Nobel Prize in 1963. In the 80s and 90s, the development of molecular defined metallocenes led to a renaissance for non-polar polyolefin materials. Designer catalysts allowed a greater precision in defining properties of the material. The past 10 years have seen the discovery of new catalysts based on late transition metals, which allow the combination of polar monomers with non-polar olefins and thus lead to innovative materials. Here, the world's leading authors from industry and academia describe the latest developments in this fascinating field for the first time in such comprehensive detail. In so doing, they introduce readers systematically to the basic principles and show how these new catalysts can effectively be used for polymerization reactions. This makes the book an ideal and indispensable reference for specialists, advanced students, and scientists of various disciplines dealing with research into catalysts and materials science.
Author: Frankie P. Anderson
Publisher:
ISBN:
Category :
Languages : en
Pages : 249
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Book Description
Author: Rayees Sheikh
Publisher: LAP Lambert Academic Publishing
ISBN: 9783659146572
Category :
Languages : en
Pages : 156
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Book Description
This book presents the important facts about the synthesis and biological studies of macrocyclic transition metal complexes. A detailed synthetic discussion of the reaction steps in each mechanism and their relationship with transition metal complexes has been considered. Macrocyclic ligands and their transition metal complexes depends upon the nature of reactants and the corresponding metal ion. The macrocyclic ligand are a growing class of compounds with varying chemistry a wide range of different molecular topologies and set of donor atoms. Aza type ligands appear as very promising to be used as antifertile, antibacterial, antifungal and other biological properties. Macrocyclic metal complexes play a central role in the construction of molecular materials, which display magnetic properties and find applications in material and supramolecular chemistry and biochemistry. It is believed that the present book will provide a succinct and clear introduction to synthesis, characterization and biological studies macrocyclic ligands with transition metal complexes that meets the needs of researchers at a variety of levels in several disciplines.
Author: Kylin Alice Emhoff
Publisher:
ISBN:
Category :
Languages : en
Pages : 160
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Book Description
Transition metal complexes have immense importance in the pharmaceutical industry. These types of complexes can be useful catalysts in the synthesis of medicinal compounds and can act as anticancer drugs. In these pharmaceutical applications, 1st-row transition metal-containing complexes offer certain advantages compared to their 2nd and 3rd-row transition metal counterparts. Our motivation was to investigate pharmaceutical applications of transition metal complexes containing both a 1st-row transition metal and unusual ligands to expand the knowledge of a class of complexes that could potentially be beneficial in the pharmaceutical industry. A class of rare ligands that piqued our interest was that of the diaryl azodioxides, cis-Ar(O)NN(O)Ar, which belong to the wider class of organic derivatives of nitric oxide (NO). Our synthesis and pharmaceutical applications of the azodioxide complex salt [Co(bpy){Ph(O)NN(O)Ph}2](PF6)2 have been able to significantly expand the knowledge of azodioxide complexes by displaying an unusual trigonal prismatic coordination geometry for cobalt(II) with only bidentate ligands, showing evidence of ligand-based redox activity, acting as an active catalyst in allylic amination/C0́2C double-bond transposition reactions, and selectively inducing apoptosis in SK-HEP-1 human liver adenocarcinoma cells. Importantly, catalytic and biological studies of [Co(bpy){Ph(O)NN(O)Ph}2](PF6)2 are ongoing, and focused on its potential for use in the pharmaceutical industry as a drug or catalyst for drug synthesis. Future work will involve comparing the catalytic and biological activities of [Co(bpy){Ph(O)NN(O)Ph}2](PF6)2 with other azodioxide complexes prepared by our group to identify structure-activity relationships and inform the design of more efficient catalysts and anti-cancer, pro-apoptotic agents.
Author: Mamta Dudeja
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Jon Lidster
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Xiao Liu
Publisher:
ISBN:
Category :
Languages : de
Pages : 0
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Book Description
In recent decades, Pt(II)-based chemotherapy drugs, such as cisplatin, oxaliplatin, and carboplatin, have been among the most effective drugs for cancer treatment. They have been widely used in various malignant solid tumors, including lung cancer, colorectal cancer, testicular cancer, ovarian cancer, bladder cancer, and head and neck cancer. Despite the well-documented success, there are still challenges to be addressed, such as intrinsic and acquired resistance, as well as side effects including nephrotoxicity, neurotoxicity, and cardiotoxicity. To maximize their effectiveness and broaden their therapeutic potential, researchers have devoted a lot of effort to exploring new derivatives and combination therapies. Among these efforts, Pt(IV) complexes, acting as prodrugs that can be activated to release active Pt(II) species, have exhibited great promise. Tremendous efforts have been devoted to exploring new synthesis approaches, elucidating structure-activity relationships, and designing novel Pt(IV) complexes that incorporate biologically active or therapeutically effective ligands. The aim is to enhance drug efficiency through increasing cytotoxicity, achieving more targeted delivery, enabling oral availability, and circumventing drug resistance, among other goals.The specific areas of focus include i) Analysis of the reduction capacity, including the determination of reduction potential (Ep) and the assessment of reduction in the presence of small reducing agents like ascorbic acid; ii) lipophilicity versus cellular accumulation; iii) stability study; iv) binding with 9-methylguanine (a simple DNA model); v) biological activities including cytotoxicity, ROS generation, cellular accumulation, COX inhibition, apoptosis induction, and more.
