Studies on Chiral Bronsted Acid-Catalyzed Activation of Imino Functionalities / キラルブレンステッド酸触媒によるイミノ官能基の活性化に関する研究

Nakatsu, Hiroki

24 March 2014

京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第18094号 / 理博第3972号 / 新制||理||1573(附属図書館) / 30952 / 京都大学大学院理学研究科化学専攻 / (主査)教授 丸岡 啓二, 教授 時任 宣博, 教授 大須賀 篤弘 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM

quinone imine ketal

organocatalyst

Brønsted acid

asymmetric reaction

dicarboxylic acid

diazocarbonyl compound

400

INJECTABLE DELIVERY SYSTEM BASED ON 5-ETHYLENE KETAL-ε -CAPROLACTONE FOR THE DELIVERY OF VEGF AND HGF FOR TREATING CRITICAL LIMB ISCHEMIA

Babasola, IYABO

23 May 2012

The aim of this thesis is to determine the feasibility of an injectable delivery system based on 5-ethylene ketal ε-caprolactone for localized delivery of vascular endothelial growth factor (VEGF) and hepatocyte growth factor (HGF) for treating critical limb ischemia. HGF and VEGF were chosen because of their ability to simultaneously stimulate the proliferation and migration of endothelial cells, to initiate the formation of blood vessels and the recruitment of pericytes to stabilize the blood vessels. Homopolymer of 5-ethylene ketal ε-caprolactone and its copolymer with D,L-Lactide were synthesized by ring opening polymerization using hydrophobic initiator (octan-1-ol) or an hydrophilic initiator (MPEG), and stannous octanoate as a co-initiator/catalyst. The resulting polymers were amorphous and viscous liquids at room temperature. The viscosity, biodegradation rate, and release rate were varied by copolymerizing with D,L-lactide and/or initiating with MPEG or octan-1-ol. In vitro, the polymers degraded with surface erosion characterized by a nearly linear mass loss with time with no significant change in number average molecular weight and glass transition temperature. The ratio of EKC to DLLA in the copolymer remained the same throughout the degradation studies. A similar degradation mechanism was observed in vivo when the copolymer initiated with octan-1-ol was implanted subcutaneously in rats. In vivo, the polymer exhibited a moderate chronic inflammatory response, characterized by the presence of neutrophils, macrophages, fibroblasts and fibrous capsule formation. The inflammatory response decreased with time but was still on going after 18 weeks of subcutaneous implantation. Protein release from the polymer was transported by convection through the hydrated polymer region, at a rate determined by the osmotic pressure generated and the hydraulic conductivity of the polymer. Highly bioactive VEGF and HGF were released in a sustained manner, without burst effect for over 41 days when delivered simultaneously, using the osmotic release mechanism. VEGF was released at the rate of 36 ± 7 ng/day for 41 days, while HGF was released at the rate of 16 ± 2 ng/day for 70 days. Factors that influenced release of proteins were their solubility in the concentrated trehalose solution and hydraulic permeability of the polymer. This delivery system can serve as a potential vehicle for controlled release of VEGF and HGF for treating critical limb ischemia or the controlled release of other proteins for other clinical applications. / Thesis (Ph.D, Chemical Engineering) -- Queen's University, 2012-05-23 10:18:48.307

Étude de la synthèse totale de tétrahydroisoquinoléines naturelles : quinocarcine, Tétrazomine et Lémonomycine. : rapide accés aux α-amidosulfures et leur utilisation en tant que précurseurs de N-acylimines dans la réaction de Friedel-Crafts / Study toward the total synthesis of natural tetrahydroisoquinolines : quinocarcin, tetrazomin and lemonomycin. : rapid acces to α-amidosulfide and its use as N-acylimines precursor in the Friedel-Crafts reaction

George, Nicolas

24 November 2011

La quinocarcine, la tétrazomine et la lémonomycine constituent une sous-famille appartenant à la famille des tétrahydroisquinoléines trisubstituées naturelles. Ce sont des puissants agents cytotoxiques et possèdent de nombreuses activités biologiques telles qu’antitumorales et antibiotiques. Leur complexité structurale, leurs intérêts biologiques ainsi que leur faible rendement d’extraction du milieu naturel font de ces molécules des cibles attrayantes pour les chimistes de synthèse.Ces trois molécules sont constituées d’une tétrahydroisoquinoléine différemment substitué fusionnée avec un diazabicycle[3.2.1]octane commun. Le but de ce projet était de mettre au point une stratégie commune à cette sous-famille et divergente grâce à la synthèse du diazabicyclooctane en premier. Une première stratégie faisant intervenir une aziridine n’a pas permis de construire le bicycle. Cet objectif a été réalisé grâce à une seconde stratégie. Elle repose sur une première cyclisation d’un hémiaminal puis d’une cyclisation par addition nucléophile d’un éther d’énol silylé sur un N-acylimmonium formé in situ au départ d’un N,S-acétal.Parallèlement à cette étude synthétique, nous avons mis au point une réaction multicomposant séquentielle qui permet l’accès rapide et général aux a-amidosulfures, comblant un manque dans la littérature. Ensuite nous avons étudié la réactivité de ces composés en tant que précurseurs simples de N-acylimines en conditions acides douces. Trois conditions réactionnelles, nous ont permis d’accéder à cette objectif : l’utilisation stœchiométrique d’acétate d’argent, catalytique d’acide phosphorique ainsi que le NIS en quantité stœchiométrique et catalytique. Cette dernière réaction est très attrayante. En effet, ce réactif doux et neutre permet l’élimination efficace du thiol formant la N-acylimine puis son activation pour se faire piéger in situ par un nucléophile. Les rendements atteints sont très hauts en moins de 5 minutes. / Quinocarcin, tetrazomin and lemonomycin constitute a subfamily belonging to the family of natural trisubstituted tetrahydroisquinolines. These are powerful cytotoxic agents and have many biological activities such antitumor and antibiotics. Their structural complexity, biological interests and their low efficiency of extraction of the natural environment make these molecules attractive targets for synthetic chemists.These three molecules are constituted of differently substituted tetrahydroisoquinoline diazabicycle merged with a [3.2.1] octane common. The purpose of this project was to develop a common strategy in this subfamily and divergent with the synthesis of diazabicyclooctane first.A first strategy involving an aziridine failed to build the bicycle. This objective was achieved through a second strategy. It is based on a first cyclization of hemiaminal followed by cyclization of nucleophilic addition of a silyl enol ether of an N-acylimmonium formed in situ from a N, S-ketal.Along with this synthetic study, we developed a multicomponent reaction sequence that allows quick general access to -amidosulfides, filling a gap in the literature. Then we studied the reactivity of these compounds as simple precursors of N-acylimines in mild acidic conditions. Three reaction conditions allowed us to reach this goal: the use of stoichiometric silver acetate, phosphoric acid as catalyst and NIS in catalytic and stoichiometric amount. This last reaction is very attractive. Indeed, this sof and neutral reagent allows the efficient removal of the thiol forming the N-acylimine and its activation to be trapped in situ by a nucleophile. The yields are very high in less than 5 minutes.

Synthèse totale

Quinocarcine

Tétrazomine

Lémonomycine

Tétrahydroisoquinoléine

Antibiotique

N-acylimmonium

Éther d’énol silylé

Mannich

Diazabicyclo[3.2.1]octane

Lemonose

N,S-acétal

Précurseur de N-acylimines

Thioglycoside

Diiode

Réaction de Friedel-Crafts

Total synthesis

Quinocarcine

Tetrazomine

Lmonomycine

Tetrahydroisoquinoline

Antibiotic

N-acyliminium

Silyl enol ether

Mannich reaction

Diazabicyclo[3.2.1]octane

Lemonose

N,S-ketal

Precursor of N-acylimines

Thioglycoside

Iodine

Friedel-Crafts reaction