Antibody conjugates : integrated approach towards selective, stable and controllable bioconjugation / Conjugués d'anticorps : approche intégrative pour une bioconjugaison plus sélective, stable et contrôlable

Dovgan, Igor

21 September 2017

Au cours de la dernière décennie, les anticorps conjugués à des médicaments cytotoxiques ou des oligonucléotides ont acquis une grande attention dans la communauté scientifique en raison des propriétés uniques des anticorps, tels que leur long temps de circulation dans le sérum et leur sélectivité élevée par rapport à leur cible. Par exemple, les conjugués d'anticorps (ACs) sont de plus en plus appliqués en thérapie ciblée contre le cancer ou en bioimagerie. Par conséquent, le développement de méthodologies fiables pour la préparation des AC est actuellement en pleine expansion. Cependant, la conjugaison et la préparation contrôlables des ACs avec une structure définie rencontrent encore de nombreux obstacles en raison de l'excès élevé et de la variété des groupes réactifs dans la structure des anticorps, qui sont accessibles pour la conjugaison. En outre, les technologies de liaison actuelles sont basées sur la réaction de maléimide-thiol, produisant des adduits, qui sont instables dans le sang. Ce travail se concentre sur les approches chimiques pour la fonctionnalisation fiable des anticorps, qui permettent la préparation d'ACs stables présentant un ratio anticorps/principe actif bien défini. La première partie est consacrée à la conception et au développement du réactif maléimide-dioxane, solution auto-hydrolysable et stable dans le sérum, comme alternative à la chimie classique du maléimide. La deuxième partie est consacrée à l'évaluation de la réactivité sélective des différents acides aminés portés par les anticorps par spectrométrie de masse native à haute résolution. Finalement, une nouvelle technologie permettant d’obtenir des ACs stables avec un ratio anticorps/principe actif contrôlé est présentée au lecteur dans une 3ème partie. / Within the last decade, antibodies conjugated to cytotoxic drugs or oligonucleotides have gained a great attention in scientific community owing to the unique properties of the antibodies, such as their long circulation time in serum and high selectivity against their target. For instance, antibody conjugates (ACs) are increasingly applied for targeted cancer therapy or bioimaging. Consequently, the development of reliable methodologies for ACs preparation is currently of high demand. However, the controllable conjugation and preparation of ACs with defined structure are still challenging due to high excess and variety of reactive groups in antibody structure, which are accessible for conjugation. Moreover, current linker technologies are based on the maleimide-thiol reaction, yielding adducts, which are unstable during circulation in blood.This work is focused on chemical approaches for the reliable antibody functionalisation, which enable the preparation of stable ACs with well-defined payload to antibody ratios. The first part is devoted to design and development of maleimide-dioxane reagents as self-hydrolysable and serum-stable alternative to classical maleimide chemistry. The second part is dedicated to a screening approach for evaluation of residue-selective functionalities in reactions with an antibody using high resolution native mass spectrometry. Finally, in the third part the reader is introduced with a novel technology, which enables efficient preparation of stable ACs with a defined degree of conjugation and particularly mono-functionalisation of antibodies.

Bioconjugation

Conjugués d'anticorps

Arginine

Lysine

Bioconjugation

Antibody-drug conjugates

Antibody-oligonucleotide conjugates

Mono-functionalisation of proteins

Arginine conjugation

Lysine conjugation

547.7

Design And Synthesis Of Bile Acid Derived Oligomers And Study Of Their Aggregation And Potential Applications

Satyanarayana, T B N

10 1900

Chapter 1: Amphiphilic self-assembled systems as nanocarriers Nanocarriers are the nanometric size molecular assemblies that are used for the transport of small molecules into their non-solvating environments. These systems find major applications as drug delivery systems (DDS) in pharmacological research. These drug delivery systems improves solubility and stability of the drug molecules through encapsulation and also offer additional advantages like target specificity and stimuli responsive release of the drug molecules. Several types of DDS are reported in the literature, which can be prepared by a variety of processing techniques. Of these, molecular self- Chart 1: Developments in the design of amphiphilic nanocarriers assembly has attained considerable attention due to its greater tunability and control in the preparation of nanocarriers. In this chapter we discussed about the amphiphilic nanocarriers which are prepared through self-assembly of amphiphiles through hydrophobic interactions. Several developments in the area of amphiphilic nanocarriers such as di-block polymeric systems, dendritic systems and core-shell architectures are also mentioned. We also highlighted some recent developments in the design of amphiphilic nanocarriers through supramolecular interactions and advantages of such systems. Chapter 2: Bile acid derived dendrons and their application as nanocarriers Host-guest chemistry is well known for dendritic systems. To understand the influence of steric crowding, dendritic effect and importance of number of hydroxyl groups on the bile acid backbone in the host-guest chemistry of bile acid dendrons, we designed and synthesized a new series of C3 symmetric systems and studied the above-mentioned objectives through extraction of polar dyes into nonpolar media. Dye extraction experiments performed using trimeric molecules suggested that only the cholate derivatives (3 and 4) showed considerable extraction of the polar dyes into chloroform; deoxycholate derivatives did not show any extraction, thus emphasizing the importance of the number of hydroxyl groups for dye extraction in these molecular architectures. The effect of steric crowding at the core of these trimeric molecules was shown by efficient extraction of the dyes with the triethylbenzene core (4) compared to the benzene core (3). Greater influence of the aggregates in the case of triethylbenzene core on the extracted dye was also manifested in the Chart 2: Structures of the designed molecules 1-6 value of the induced circular dichroism signal. Surprisingly, a higher analogue in these molecular architectures showed lesser efficiency in dye extraction (on a per bile acid residue basis) compared to the trimers, suggesting a more compact structure for the higher analogue. This was supported by molecular modeling studies. Generality of these systems as nanocarriers for hydrophilic dyes was investigated by screening several other dyes and polar molecules, which are diverse in their structure and functionalities. All these experiments suggested a dependency of the extraction profile on the size of the dye molecule. This was also examined by dynamic light scattering studies, which showed larger size and wider distribution in the size of the aggregates in the case of larger dyes. We also demonstrated selective extraction of a single dye molecule from a blended food color (apple green) using one of the trimer (4) and demonstrated solvent dependent morphological changes in these compounds using electron microscopy. The self-assembly of these amphilic molecules at the air-water interface was studied through Langmuir monolayer studies. Chart 3: Structure of polar guest molecules (Cresol red (7). Erioglaucine (8), Eriochrome black T (9),) phenyl β-D-glucopyranoside (10) and Eosin B (11) Chapter 3: Design and synthesis of bile acid derived surfactants: Study of their aggregation and potential applications Bile acids are facially amphiphilic systems and their amphiphilicity can be improved by attaching polar groups on the bile acid back bone or by synthesizing oligomeric systems which show better self-assembly compared to their monomeric units. To study and improve the amphiphilicity of bile acids, we designed and synthesized a new tripodal surfactant system, with a phosphine oxide based central core to which the bile acids were attached through the C-3 position using click chemistry. Our molecular design also offers added advantage of studying the influence of the stereochemistry at the C-3 position on the aggregation of these molecular architectures. We synthesized trimeric systems with both cholic and deoxycholic acids attached to the central phosphine oxide core with α and β stereochemistry at the C-3 position. Aggregation of these molecules was studied by surface tension measurements, dye extraction studies and NMR. All these compounds showed aggregation at micromolar concentrations. NMR studies suggested changes in the structure of the aggregates at higher temperature and these changes were studied by DLS, which suggested thermodynamically stable monodispersed aggregates for cholic acid derivatives (13 and 15) at higher temperature. These aggregates are stable even after cooling to room temperature and with time. The aggregates of these derivatives were also characterized by atomic force microscopy. Gelation was observed in the case of α derivatives (12 and 13) in phosphate buffer (0.1 M) at pH 7.5 for both deoxy and cholic derivatives, which emphasized the influence of stereochemistry at C-3 position in these architectures. These gels were characterized by rheology experiments. Finally, the possible utility of these micellar systems as model systems to study photophysical processes was demonstrated through lanthanide sensitization experiments in these micellar solutions. Chart 4: Structure of the designed molecules Chapter 4: Synthesis of oligomeric bile acid-taurine conjugates: Study of their aggregation and efficiency in cholesterol solubilization Bile acids are bio-surfactants that are used for the emulsification of fats, vitamins etc. in our body. Bile salts also solubilize the excess cholesterol in our body through mixed micelle formation in the bile and when the bile gets saturated with cholesterol, it leads to cholesterol gallstone formation, which needs to be treated. Ursodeoxycholic acid (UDCA) is used as drug in some cases for the solubilization of (small) cholesterol gallstones, even though the efficiency to solubilize cholesterol is less for UDCA compared to the other bile acids (UDCA is less toxic than the others). So there is a need to develop new cholesterol solubilizing agents. Since oligomeric systems can aggregate better, we designed and synthesized two tetramer taurine conjugates, which differ in the spacer between the bile acid units. Since these conjugates are not soluble in water, their solubility and aggregation was studied in 10% MeOH/Water using pyrene fluorescence experiments. Aggregation studies suggested better aggregation for these molecules compared to their monomeric analogues. These aggregates were also characterized byDLS and electron microscopy. These systems were subsequently studied as nanocarriers for liphophilic dye molecules into aqueous media. Finally, the influence of oligomeric effect in cholesterol solubilization was investigated by cholesterol solubilization studied using these two tetramer taurine compounds and a control, sodium taurocholate. These studies suggested efficient solubilization of cholesterol by oligomers compared to monomeric analogues.(For structural formula pl see the abstract file)

Bile Acids

Oligomers

Drug Delivery System

Amphiphilic Nanocarriers

Bile Acid Dendrons

Oligomeric Bile Acid-taurine Conjugates

Bile Acid Oligomers - Synthesis

Perylene-bile Acid Conjugates

Dendrimers

Dendrons

Organic Chemistry

Theoretical Models for Drug Delivery to Solid Tumors

Burton III, Jackson Kemper, Burton III, Jackson Kemper

January 2016

A cancer drug's effectiveness is contingent upon on its ability to reach all parts of the tumor. The distribution of drug in the tumor depends on several transport processes and depends on the physicochemical properties of the drug. These factors can lead to highly heterogeneous distributions of drug in the tumor interstitial space, leaving parts of the tumor unreached, and make it difficult to predict cellular exposure and understand its dependence on key system parameters. Theoretical models are powerful tools that can provide insight by simulating conditions that cannot be achieved or observed experimentally. Here, a Green's function method is utilized to simulate three-dimensional time-dependent diffusion and uptake of drugs in solid tumors with realistic vascular geometry. Regimes dependent on the time scales for transport are used to determine whether spatial and temporal effects must be resolved to predict cellular exposure. Simulations are performed to show the relationship between the plasma pharmacokinetics and cellular exposure for these regimes. Steep gradients in concentration arise when time scales for diffusion and uptake are comparable, implying that models based on well mixed compartments are inaccurate. Effects of linear and nonlinear kinetics of drug uptake on cellular exposure are demonstrated. The drug doxorubicin is commonly used against solid tumors. Cellular exposure to doxorubicin is complicated in vivo by its transport and physicochemical properties. The Green's function method is used to describe the in vivo transport and kinetics of doxorubicin, using parameters derived from in vitro results. Simulations show agreement with observed in vivo distributions of doxorubicin in tumor tissue as well as in vitro kinetics, and provide a link between the two types of experimental observations. The method is applied to the class of cancer drugs called antibody-drug conjugates (ADCs) which consist of a humanized antibody conjugated to extremely toxic small molecular weight drugs. ADCs exhibit complex in vivo kinetics dependent on many design parameters. A phenomenon exhibited by ADCs is the bystander effect, i.e. non-targeted cell killing, which is difficult to analyze based on in vivo observations. Simulations results agree with the observed in vivo distribution of ADCs in tumor tissue and with experimentally observed bystander effects. In summary, the the models presented here provide a novel approach for simulating the complex transport and cellular uptake kinetics exhibited by several cancer drugs. The models give a mechanistic basis for predicting cellular exposure to drugs which can aid, explain, and direct experimental approaches for improving cancer treatment.

Diffusion

Doxorubicin

Drug Transport

Mathematical Models

Pharmacokinetics

Applied Mathematics

Antibody-Drug Conjugates

Vectorisation d'oligonucleotides par la vitamine B2 / Vitamin B2 as a carrier for oligonucleotides delivery

Marlin, Fanny

07 November 2011

Les oligonucléotides antisens et leurs analogues, tels que les Peptide Nucleic Acids (PNA), ont la capacité d'inhiber ou de moduler l'expression d'un gène cible, de manière spécifique de séquence. Leur utilisation pour des applications thérapeutiques est cependant limitée par leur faible internalisation cellulaire ou leur mauvaise localisation intracellulaire, etnécessite le développement de stratégies efficaces de vectorisation. La Riboflavine, ou vitamine B2, est une vitamine essentielle qui a les caractéristiques requises pour être potentiellement utilisée en tant qu'agent ciblant de vectorisation. Le travail accompli au cours de ce projet de thèse a permis de démontrer la capacité de deux dérivés de la Riboflavine, la Flavine et le Lumichrome, à induire une internalisation par endocytose de PNA conjugués, dans plusieurs lignées cellulaires. En outre, un phénomène d'internalisation photochimique induit par la Rhodamine a été mis en évidence avec des double-conjugués Flavine ou Lumichrome - PNA - Rhodamine et conduit à une sortie efficace des endosomes de ces conjugués. Ce travail de thèse a donc permis de caractériser un conjugué trifonctionnel pour l'internalisation et lalibération cytoplasmique de molécules bioactives. / Antisense oligonucleotides and analogs, such as Peptide Nucleic Acids (PNA), are valuable tools to inhibit or modulate gene expression in a sequence-specific manner. Their successful application for therapeutic purposes is however hampered by poor cellular uptake or incorrect intracellular localization, and requires the development of efficient delivery strategies.Riboflavin, or vitamin B2, is an essential vitamin that could potentially be used as a targeting delivery ligand. We demonstrate in this PhD work the ability of two Riboflavin derivatives, Flavin and Lumichrome, to promote endocytosis-mediated internalization of PNA conjugates in several cell lines. Furthermore, a phenomenon of Photochemical Internalization produced by Rhodamine has been characterized using Flavin or Lumichrome - PNA - Rhodamine conjugatesand is responsible for an efficient release of these conjugates from endosomes. This PhD work has thus led to the characterization of a trifunctional conjugate for the internalization and cytoplasmic delivery of bioactive molecules.

Oligonucléotides

Peptide Nucleic Acids

Conjugués

Vectorisation

Vitamine B2

Oligonucleotides

Peptide Nucleic Acids

Conjugates

Delivery

Vitamin B2

Methoden zur Synthese von definierten bioorganisch-synthetischen Blockcopolymeren / Pathways to defined bioorganic-synthetic conjugates

Rettig, Hartmut Arnim

January 2006

Bioorganisch-synthetische Blockcopolymere sind sowohl für die Materialwissenschaft als auch für die Medizin hochinteressant. Diese Arbeit beschäftigte sich mit neuen Synthesewegen für die Herstellung dieser Blockcopolymere. Zunächst wurde der klassische Ansatz zur Herstellung eines Blockcopolymers über die Kupplung der beiden Segmente aufgegriffen. Hierzu wurde eine Methode zur Synthese von selektiv säureendfunktionalisierten Polyacrylaten mittels einer terminalen Benzylesterschutzgruppe vorgestellt. Für die Herstellung von bioorganisch-synthetischen Blockcopolymeren mit einem größeren Polymersegment wurde daher ein anderer Syntheseansatz entwickelt. Dieser geht von einem funktionalisierten Oligopeptid aus, an dem durch Polymerisation das synthetische Segment aufgebaut wird. Der Aufbau erfolgte durch kontrolliert radikalische Polymerisation, um ein möglichst definiertes Segment zu erhalten. Zunächst wurde eine Synthese von Oligopeptid-Makroinitiatoren für die ATRP-Polymerisation durchgeführt. Es konnte gezeigt werden, dass in geeigneten polaren Lösungsmitteln (DMSO, DMF) eine Polymerisation mit dem ATRP-Oligopeptid-Makroinitiator erfolgreich ist. Allerdings treten während der Polymerisation Wechselwirkungen zwischen dem Katalysator und dem Oligopeptid auf. Eine Alternative bietet die RAFT-Polymerisation, da sie ohne einen Katalysator durchgeführt wird. Es gelang ausgehend von dem Oligopeptid-ATRP-Makroinitiator den Überträger herzustellen. Die RAFT-Polymerisation mit einem Oligopeptidüberträger stellt eine wichtige Methode für die Herstellung von bioorganisch-synthetischen Blockcopolymeren dar. Sie besitzt eine hohe Toleranz gegenüber funktionellen Gruppen. Die so hergestellten Blockcopolymere sind frei von Verunreinigungen, wie z.B. Übergangsmetallen. Dabei läßt sich das Molekulargewicht des synthetischen Blocks bei einer Polydispersität um 1,2 gut kontrollieren. / Bioorganic – synthetic conjugates have received a lot of attention concerning their potentials in the fields of material science, pharmaceutics and medicine. This work presents new synthetic routes to these conjugates. For conjugates consisting of small blocks an approach via coupling is possible. For larger blocks it was necessary to develop a different approach via controlled radical polymerisation methods. To begin with oligopeptide macroinitiators for Atom Transfer Radical Polymerisation were synthesized and successful applied in polymerization. The reaction conditions were optimized by studying the polymerisation kinetics. Although the polymerization results in well-defined products, interactions between the copper catalyst and the peptide are evident and cannot be suppressed. To overcome this problem the polymerization method had to be changed. Therefore oligopeptide-based reversible addition fragmentation transfer (RAFT) agents were developed. Well-defined conjugates comprising sequenz-defined peptides and synthetic polymers could be accessed by applying RAFT polymerization techniques in combination with the peptide macrotransfer agents. Polymerization reactions of n-butyl acrylate were performed in solution, yielding peptide-polymer conjugates with controllable molecular weight and low polydispersities.

ATRP

ATRP

RAFT

Blockcopolymer

Peptid

Makroinitiator

ATRP

RAFT

conjugates

peptide

Chemistry and allied sciences

Induktion und Kontrolle hierarchischer Ordnung durch selbstorganisierte, funktionale Polymer-Peptid-Nanostrukturen / Induction and control of hierarchical organization with self-assembled, functional polymer peptide nanostructures

Kessel, Stefanie

January 2008

Im Rahmen der Arbeit werden hierarchisch strukturierte Silikakompositfasern präsentiert, deren Bildung ähnlich zu natürlichen Silifizierungsreaktionen verläuft. Als Analoga zu Proteinfilamenten in Silika Morphogeneseorganismen werden selbstorganisierte, funktionale Polyethylenoxid-Peptid-Nanobänder eingesetzt. Mit der Isolierung einheitlicher Nanokompositfasern wird gezeigt, dass die PEO-Peptid-Nanobänder eine starke Bindungsaffinität gegenüber Kieselsäure besitzen, diese aus sehr stark verdünnten Lösungen anreichern und deren Kondensation zu Silikanetzwerken kontrollieren können. In höheren Konzentrationen entstehen durch die peptidgeleitete Silifizierung der PEO-Peptid-Nanobänder spontan makroskopische Kompositfasern mit sechs Hierarchieebenen. Diese verbinden Längen von bis zu 3 cm und Durchmesser von 1-2 mm mit einer definierten Feinstruktur im Submikrometerbereich. Als Resultat der komplexen inneren Struktur und der Kontrolle der Grenzflächen zwischen Nanobändern und Silika wird eine Nanohärte erreicht, die schon ~1/3 der Härte von Bioglasfasern darstellt. Für die Elastizität (reduziertes Eindrückmodul) dagegen konnte durch den relativ hohen Anteil (~40%) an verformbaren, organischen Komponenten ein ~4-mal größer Wert im Vergleich mit Bioglasfasern bestimmt werden. Des Weiteren wird die Prozessierung der makroskopischen Kompositfasern in einem 2D-Plotprozess vorgestellt. Mit Verwendung der PEO-Peptid-Nanobänder als „Tinte“ können Kompositobjekte in beliebigen Formen geplottet werden, deren Linienbreite sowie anisotrope Ausrichtung der Nano- und Submikrometerstrukturelemente direkt mit der Plotgeschwindigkeit korrelieren. Außerdem können die Kompositobjekte als Vorstufen für orientierte, mesoporöse Silikaobjekte verwendet werden. Nachdem Calcinieren werden Silikastrukturen mit einer hohen spezifischen Oberfläche und in Plotrichtung ausgerichteten zylindrischen Poren erhalten. Im Kontrast zu den anorganisch-bioorganischen Kompositfasern sollten unter Ausnutzung ionischer Wechselwirkungen oder Metallkoordination Kompositmaterialien mit anderen mechanischen Eigenschaften dargestellt werden. Es wird gezeigt, dass durch Variationen in der Aminosäuresequenz des Peptidkerns, die Oberflächen der PEO-Peptid-Nanobänder gezielt mit funktionellen Gruppen versehen werden können. Eine gerichtete Vernetzung dieser modifizierten Nanobänder wurde nicht erreicht, dafür könnten die imidazolfunktionalisierten Nanobänder als eindimensionale Protonenleiter, die mit photochromen Gruppen (Spiropyran) funktionalisierten Nanobänder für die Modifizierung von Oberflächenpolaritäten oder für gerichtete Kristallisationsprozesse eingesetzt werden. / In this work hierarchical structured silica-composite fibers are presented, whose formation is similar to natural silicification processes. Self-assembled, functional poly(ethylene oxide) (PEO) peptide nanotapes were utilized as analogue to protein filaments in silicamorphogenese organism. Isolation of homogenous nano composite fibers demonstrates that the PEO peptide nanotapes have a high affinity to bind silicic acid. They are able to enrich silicic acid from very dilute solution and can control the silica condensation process. Macroscopic composite fibers spontaneously arise if the PEO peptide nanotapes in a higher concentration were mixed with the silica precursor. These exhibit six distinguishable levels of hierarchical order, spanning length scales from the nanometer up to millimeters in lateral and even centimeters in longitudinal dimensions. As a result of the inner structure, reinforced composite fibers were obtained, exhibiting 1/3 of the mechanical hardness of natural glass sponge spicules. The elasticity, which is considered as one limiting factor in optical glass fibers, could be enhanced 4-times due to the incorporation of an increased amount of polymer peptide nanotapes (~40%). In addition a 2D-plot process is introduced, in which the polymer peptide nanotapes acts as an ink. By injecting a solution of the nanotapes into a diluted silicic acid solution composite objects can be plotted in any desired way. The width of the plotted lines as well as the anisotropic orientation of the nano- and sub micrometer structure elements correlates directly to the plotting speed. Besides the composite objects can be utilized as precursors for oriented, mesoporous silica objects. After a calcination procedure silica structures with cylindrical pores, aligned in plot direction, and a high specific surface area were received. In contrast to the inorganic-organic composite fibers other composite materials with different mechanical properties should be created exploiting ionic interactions or metal coordination. A variation in the amino acid sequence of the peptide core leads to an aimed functionalisation of the nanotape surfaces. A directed networking of such nanotapes was not observed, but imidazole functionalised nanotapes could maybe be used as one dimensional proton conductors. The nanotapes, which were tagged with photo chromic spiropyran units, have the ability to be used for controlled crystallization processes or the modification of surface polarities.

Biosilifizierung

Peptid-Polymer-Konjugate

gerichtete Struckturbildung

biosilicification

polymer-peptide-conjugates

directed organization

Chemistry and allied sciences

The Discovery and Characterization of NAD-Linked RNA

Chen, Ye Grace

21 June 2014

Over the past few decades, RNA has emerged as much more than just an intermediary in biology’s central dogma. RNA is now known to play a variety of catalytic, regulatory and defensive roles in living systems as demonstrated through the discoveries of ribozymes, riboswitches, microRNAs, small interfering RNAs, Piwi-interacting RNAs, small nuclear RNAs, clusters of regularly interspaced short palindromic repeat RNAs and long non-coding RNAs. In contrast to the functional diversity of RNA, the chemical diversity has remained primarily limited to canonical polyribonucleotides, the 5’ cap on mRNAs in eukaryotes, modified nucleotides and 3’-aminoacylated tRNAs. This disparity coupled with the powerful functional properties of small molecule-nucleic acid conjugates led us to speculate that novel small molecule-RNA conjugates existed in modern cells, either as evolutionary fossils or as RNAs whose functions are enabled by the small molecule moieties. We developed and applied a nuclease-based screen coupled with high-resolution liquid chromatography/mass spectrometry analysis to detect novel small molecule-RNA conjugates, broadly and sensitively. We discovered NAD-linked RNA in two types of bacteria and further characterized the small molecule and RNA in Escherichia coli. The NAD modification is found on the 5’ end of RNAs between 30 and 120 nucleotides long, and is surprisingly abundant at around 3,000 copies per cell. Subsequent experiments to characterize further NAD-linked RNA have been undertaken, including sequencing the RNAs to which NAD is attached and elucidating the biological functions of the small molecule-RNA conjugate. The development and application of a screen to detect novel nucleotide modifications that is independent of structure or biological context has the potential to increase our understanding of the functional and chemical diversity of RNA. The discovery and biological characterization of NAD-linked RNA can provide new examples of RNA biology and offer insight into the RNA world.

bacteria

NAD

RNA modifications

small molecule-RNA conjugates

molecular biology

chemistry

An integrated system for tumor detection and target drug therapy of colorectal cancers with a humanized tumor targeting antibody, HuCC49[delta]CH2

Fang, Lanyan,

January 2007

Thesis (Ph. D.)--Ohio State University, 2007.

Χημική τροποποίηση του μορίου της αρτεμισινίνης και σύνθεση διμερών συζευγμάτων της με άλλα βιοδραστικά μόρια / Chemical modification of artemisinin and synthesis of artemisinin dimer conjugates with other bioactive molecules

Τσουκαλά, Παναγιώτα

11 July 2013

Το φυσικό προϊόν αρτεμισινίνη και τα παράγωγά της αποτελούν σήμερα φάρμακα επιλογής για την αντιμετώπιση της ελονοσίας ενώ πολλά απ’αυτά παρουσιάζουν και ιδιαίτερα σημαντική αντικαρκινική δράση. Στο πλαίσιο της παρούσας διπλωματικής εργασίας έγινε χημική τροποίηση του μορίου της αρτεμισίνης, προκειμένου να συντεθούν διμερή συζεύγματά της με πολυαμίνες (πουτρεσκίνη, σπερμιδίνη, σπερμίνη). Αρχικά, η αρτεμισινίνη τροποποιήθηκε κατάλληλα έτσι ώστε να φέρει συνδέτη με δεσμό C-O (10-oξo) ή C-C (10-καρβο) στη θέση-10 και N-C με αλλαγή του ετεροατόμου στην θέση-11, προκειμένου στη συνέχεια να προσδεθεί στις πολυαμίνες μέσω δεσμού ουρεθάνης. Για το λόγο αυτό, συντέθηκαν ενεργοποιημένα ανάλογα της αρτεμισινίνης, τα οποία μετά από αντίδραση με κατάλληλα προστατευμένες πολυαμίνες, οδηγούν στο σχηματισμό διμερών πολυαμινικών συζευγμάτων της αρτεμισινίνης. Επιπλέον, για προκαταρκτικές βιολογικές μελέτες, συντέθηκε ένα ασύμμετρο πολυαμινικό σύζευγμα της αρτεμισινίνης με το αντικαρκινικό φάρμακο χλωραμβουκίλη, χρησιμοποιώντας το 10-oξo ενεργοποιημένο ανάλογο και την πουτρεσκίνη. / The natural product Artemisinin and its derivatives are currently the drugs of choice for the treatment of malaria, which some of them showing important anticancer activity. In the context of the present dissertation, three chemical modifications of the molecule of artemisinin were accomplished towards the synthesis of several Artemisinin dimer conjugates with polyamines (putrescine, spermidine, spermine). Initially, artemisinin was modified at position 10 and 11, in order to synthesize analogues bearing suitable linkers, through C-O (10-oxo), C-C (10-carbo) and C-N (11-aza, by replacement of O with N in the ring A of Artemisinin) bonds, able to form carbamate bonds with amino groups of polyamines. For this purpose, the corresponding activated intermediates were synthesized, which upon reaction with suitably protected polyamines afforded the Artemisinin symmetric conjugates. In addition, for the sake of preliminary biological evaluation a new asymmetric conjugate consisted of an 10-oxo Artemisinin and a chlorambucil moiety, using putrescine as a polyamine-type linker, was synthesized.

Αρτεμισινίνη

Ανθελονοσιακά

Συζεύγματα

Πολυαμίνες

Διμερή

Χλωραμβουκίλη

615.19

Artemisinin

Antimalarial

Conjugates

Polyamines

Dimers

Chlorambucil

Χημική τροποποίηση της αρτεμισινίνης και σύνθεση συζευγμάτων της με πολυαμίνες / Chemical modification of artemisinin and synthesis of conjugates with polyamines

Μπάκαβος, Χρήστος

06 December 2013

Το φυσικό προϊόν αρτεμισινίνη και τα παράγωγά της αποτελούν σήμερα φάρμακα επιλογής για την αντιμετώπιση της ελονοσίας ενώ πολλά απ’αυτά παρουσιάζουν και ιδιαίτερα σημαντική αντικαρκινική δράση. Στο πλαίσιο της παρούσας διπλωματικής εργασίας έγινε χημική τροποποίηση του μορίου της αρτεμισινίνης, προκειμένου να συντεθούν διμερή συζεύγματά της με πολυαμίνες (πουτρεσκίνη, σπερμιδίνη, σπερμίνη). Αρχικά, η αρτεμισινίνη τροποποιήθηκε κατάλληλα έτσι ώστε, να φέρει συνδέτη με δεσμό C-O (10-oxo) στη θέση-10, προκειμένου στη συνέχεια να προσδεθεί στις πολυαμίνες μέσω δεσμού ουρεθάνης. Για το λόγο αυτό, συντέθηκε το ενεργοποιημένο ανάλογο(10-oxo , το οποίο μετά από αντίδραση με τις κατάλληλα προστατευμένες πολυαμίνες, έδωσαν τα διμερή συζεύγματα της αρτεμισινίνης 66-68. Επιπλέον, για προκαταρκτικές μελέτες βιολογικής δράσης, συντέθηκε ένα ασύμμετρο σύζευγμα της αρτεμισινίνης με το αντικαρκινικό χλωραμβουκίλη (69), χρησιμοποιώντας το 10-oxo ενεργοποιημένο ανάλογο και την πουτρεσκίνη ως πολυαμίνη. Όλα τα παραπάνω συζεύγματα, βρίσκονται στο στάδιο της αποτίμησης της βιολογικής τους δράσης, από συνεργαζόμενο εργαστήριο έναντι καρκινικών σειρών HL60. / The natural product Artemisinin and its derivatives are currently the drugs of choice for the treatment of malaria, with a large number of them showing important anticancer activity as well. In the context of the present dissertation, one chemical modification of artemisinin was accomplished towards the synthesis of several Artemisinin dimer conjugates with polyamines (putrescine, spermidine, spermine). Initially, artemisinin was modified at the 10- position, in order to synthesize analogue bearing suitable linkers, through C-O (10-oxo) bond, able to form urethane bonds with amino groups of polyamines. For this purpose, the activated intermediate(10-oxo) was synthesized, which upon reaction with suitably protected polyamines afforded the Artemisinin symmetric conjugates 66-68. In addition, for the sake of preliminary biological evaluation a new asymmetric conjugate (69) consisted of an 10-oxo Artemisinin and a chlorambucil moiety, using putrescine as a polyamine-type linker, was synthesized. All above conjugates are now under biological evaluation as anticancer agents, against HL60 cancer cells, by a collaborating research group. Further studies are underway, in order to evaluate the biological activity of the aforementioned analogues as antimalarials.

Αρτεμισινίνη

Ανθελονοσιακά

Διμερή συζεύγματα

Πολυαμίνες

Χλωραμβουκίλη

615.19

Artemisinin

Antimalarials

Dimer conjugates

Polyamines

Chlorambucil