Nanoparticles for multifunctional drug delivery systems

Qin, Jian

January 2007

<p>Multifunctional drug delivery systems incorporated with stimuli-sensitive drug release, magnetic nanoparticles and magnetic resonance (MR) <em>T</em>₂ contrast agents is attracting increasing attention recently. In this thesis, works on polymer nanospheres response to temperature change, superparamagnetic iron oxide nanoparticles (SPION)/polymeric composite materials for MR imaging contrast agents are summarized.</p><p>A “shell-in-shell” polymeric structure has been constructed through a “modified double-emulsion method”. Thermosensitive inner shell is comprised of poly(<em>N</em>-isopropylacrylamide) which undergoes phase transition at body temperature. Such a feature could facilitate drug release at an elevated temperature upon administration. Furthermore, the dual-shell structure is covered by a layer of gold nanoparticles. According to the cytotoxicity tests, the biocompatibility is shown to be enhanced due to the layer of gold.</p><p>SPION have been prepared using a high temperature decomposition method. Particle growth of SPION is monitored by transmission electron microscope and synchrotron X-ray diffraction. Poly(L,L-lactide)@SPION (PLLA@SPION) composite particles have been prepared through surface-initiated ring-opening polymerization which has been developed in our lab. For biomedical applications, it is essential to transfer the particles to physiological solutions from organic solutions. Phase transfer of SPION has been carried out by utilizing small molecules. Stability at the neutral pH is of large concern for such transfer systems. A novel phase transfer agent, Pluronic F127 (PF127), a triblock copolymer has been applied and the stability of the aqueous PF127@oleic acid (OA)@SPION solution has been greatly enhanced over a broad pH range. Most interestingly, PF127@OA@SPION show remarkable efficacy as T2 contrast agents as indicated by relaxometric measurements compared with commercially available products.</p>

drug delivery

stimuli-sensitive

SPION

PLLA

PNIPAAm

gold

MRI

cytotoxicity

Pluronic

phase transfer

Materials chemistry

Materialkemi

Synthesis and characterization of new organic electrically conducting polymers : part II: Direct carboxylation of sulfolene : part III: Effect of water on PTC systems : part IV: Mechanism of Phase transfer catalytic N-alkylation reactions

Berkner, Joachim Ernst

12 1900

No description available.

Conducting polymers

Dielectric films

Supercritical fluids

Carbon dioxide

Phase-transfer catalysis

Organic compounds Synthesis

Coordination cages for the separation and transportation of molecular cargo

Grommet, Angela B.

January 2018

The first chapter of this thesis introduces the fundamental concepts governing the design and synthesis of supramolecular complexes. By illustrating the synthesis of several coordination cages reported in the literature, the principles underlying the construction of coordination cages by subcomponent self-assembly are elucidated. Ionic liquids are then proposed as solvents for cage systems; general methods for the preparation and synthesis of these solvents are described. The second chapter explores the use of ionic liquids as solvents for existing coordination cages. Potential methods of characterising these cages in ionic liquids are discussed; cages are demonstrated to be stable and capable of encapsulating guests in these ionic environments; and systems in which cages have good solubility in ionic liquids are designed. Building upon these observations, a triphasic sorting system is presented such that each of three different host-guest complexes are soluble in only one of three immiscible liquid phases. In contrast to the static triphasic system described in the second chapter, the third chapter explores directed phase transfer of coordination cages and their cargos from water, across a phase interface, and into an ionic liquid phase. The host-guest complex can then be recycled from the ionic liquid layer back into water after several additional steps. Furthermore, phase transfer of cationic cages is used to separate a mixture of cationic and anionic host-guest complexes. In the fourth chapter, fully reversible phase transfer of coordination cages is developed. Using anion exchange to modulate the solubility of three different cationic cages, reversible transport between water and ethyl acetate is demonstrated. Sequential phase transfer can also be achieved such that, from a mixture of cubic (+16) and tetrahedral (+8) cages, the cubic cage transfers from water to ethyl acetate before the tetrahedral cage. This process is fully reversible; upon the addition of a hydrophilic anion, the tetrahedral cage returns from ethyl acetate to water before the cubic cage.

ResoluÃÃo cinÃtica enzimÃtica de precursores da fenilalanina obtidos via catÃlise de transferÃncia de fase (CTF). / Enzymatic Kinetic Resolution of precursors phenylalanine obtained via Phase Transfer Catalysis (PTC)

Marcos Reinaldo da Silva

14 August 2009

CoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superior / Neste trabalho foram realizadas reaÃÃes de C-alquilaÃÃo via CatÃlise de TransferÃncia de Fase (CTF) com a finalidade de obter os precursores de aminoÃcidos para uma posterior resoluÃÃo cinÃtica enzimÃtica. As reaÃÃes de C-alquilaÃÃo ocorreram a 70 ÂC, vÃrios agentes transferidores de fase foram testados, e o mais promissor foi o cloreto de benziltributilamÃnio (CBTBA). As reaÃÃes se processaram com o uso de 3 mmol do cianoacetoamido acetato de etila, 3 mmol de carbonato de potÃssio, 6 mmol do agente alquilante, cloreto de benzila. ApÃs purificaÃÃo do produto, realizou-se uma reaÃÃo de hidrÃlise total com posterior proteÃÃo dos grupos amino e carboxila resultando em trÃs diferentes compostos rac-33, rac-34 e rac-35. A resoluÃÃo cinÃtica enzimÃtica do rac-33 por reaÃÃo de interesterificaÃÃo usando o butirato de butila (PrCO2Bu) foi inicialmente testada com diversas lipases (Candida antarctica Lipase B e sua isoenzima Candida antarctica Lipase A, ACYLASE I obtida de Aspergillus melleus, PSL-C I, Lipase a partir da Candida rugosa e a LIPOZYME RM IM) variando tempo, temperatura e solvente. A LIPOZYME RM IM foi a Ãnica enzima capaz de promover a reaÃÃo de interesterificaÃÃo e com altos valores de enantiosseletividade (E). As melhores reaÃÃes ocorreram à temperatura de 55 ÂC. A resoluÃÃo do rac-33 a 55 ÂC ocorreu em oito horas e quinze minutos, em sistema sem solvente, com uma conversÃo de 50%, ees >99%, eeP>99% com um alto valor de enantiosseletividade, E>200 (10633), Esquema 3. A resoluÃÃo cinÃtica do 2-acetilamino-3-fenil-propanoato de alila (rac-35) ocorreu em quatro horas e trinta minutos, sem solvente à temperatura de 55 ÂC, resultando em 49% de conversÃo, eeS98%, eeP>99% e E>200 (9278). / In this work reactions of C-alkylation were carried out via Phase Transfer Catalysis (PTC) in order to obtain precursors of amino acids and them to perform enzymatic kinetic resolution. The reactions of C-alkylation occurred at 70 ÂC, several phase transfer agents were tested, and the most promising was the benzyltributylammonium chloride (CBTBA). The reaction were performed using 3 mmol of ethyl cianoacetoamidoacetate, 3 mmol of potassium carbonate, 6 mmol of alkylating agent, benzylchloride. After purification of the product, a reaction of total hydrolysis was carried out with subsequent protection of amino and carboxyl groups resulting in three different compounds rac-33 rac-34 and rac-35. The enzymatic kinetic resolution of rac-33 via interesterification with butyl butyrate (PrCO2Bu) was initially tested with different lipases (Candida antarctica Lipase B and itâs isoenzyme, Lipase Candida antarctica Lipase A, ACYLASE I obtained from Aspergillus melleus, PSL-C I, Lipase from Candida rugosa and Lipozyme RM IM) varying time, temperature and solvent. The Lipozyme RM IM was the only enzyme capable of promoting the reaction of interesterification and with high values of enantioselectivity (E). The best reactions occurred at 55 ÂC. The resolution of rac-33 at 55  C occurred in eight hours and fifteen minutes in system solvent free, with conversion of 50%, eeS>99%, eeP>99% with a high value of enantioselectivity, E > 200 (10633), Scheme 3. The kinetic resolution of allyl 2-acetylamino-3-phenyl-propanoate (rac-35) occurred in four hours and thirty minutes, without any solvent at 55  C, resulting in 49% of conversion, eeS>98%, eeP>99% and E > 200 (9278).

ResoluÃÃo CinÃtica EnzimÃtica

Fenilalanina

CatÃlise de TransferÃncia de Fase.

Enzymatic Kinetic Resolution

Phenylalanine

Phase Transfer Catalysis

QUIMICA ORGANICA

Mikrofluidní reaktory pro chemickou syntézu / Microfluidic reactors for chemical synthesis

Jaklová, Natalie

January 2021

The main topic of the Diploma Thesis is the conversion of the batch N-alkylation reaction into a continuous regime. It is the reaction of 10α-methoxydihydrolysergic acid methyl ester to 1-methyl-10α-methoxydihydrolysergic acid methyl ester. It represents one step in the industrial synthesis of Nicergoline, a pharmaceutical used for senile dementia treatment. This methylation reaction is performed in two immiscible liquid phases. Phase-transfer catalysis is used to increase the efficiency of the reaction, which allows the reaction to proceed in the entire volume of the organic solvent, not only at the phase interface. The reaction is rapid, with an exothermic character. The advantages of continuous arrangement are better control of the reaction, increased operational safety due to handling smaller volumes of reaction components, and more intensive removal of heat of the reaction. The Thesis deals with the influence of reaction conditions on the course of the reaction in a microfluidic reactor. The glass microchip reactor was chosen to perform the reaction in a flow arrangement. This reactor could produce up to grams of the product per hour. Several series of experiments were performed on this apparatus. The conversion of the starting material, and selectivities to the product and the side products...

Total Syntheses of (+)-Geldanamycin, (-)-Ragaglitazar, and (+)-Kurasoin A and Phase-Transfer-Catalyzed Asymmetric Alkylation

Hicken, Erik J.

01 November 2005

Geldanamycin possesses various biological activities as seen in the NCI 60 cell line panel (13 nM avg., 70 nM SKBr-3 cells). The predominant mode of action providing these unique results arises from the ability of geldanamycin (GA) to bind to the chaperone heat shock protein 90 (Hsp90). Despite its complicated functionality, the first total synthesis of GA was accomplished, which included two new reactions developed specifically to address the stereochemical features. The final step in the synthesis of GA was a demethylation-oxidation sequence to generate the desired para-quinone. This step could only be accomplished with HNO3/AcOH, producing GA in 5% yield. A GA model study, which closely resembled the aromatic core, was extensively investigated to solve this critical oxidation issue. A protected hydroquinone model compound was determined to be the optimum choice. Using Pd in the presence of air with a 1,4-hydroquinone provided the desired para-quinone quickly and nearly quantitatively in 98% yield. This study formulated the recipe of success for para-quinone formation of GA and future synthetic analogs. Asymmetric glycolate alkylation has been developed using phase-transfer-catalysis (PTC). Diphenylmethoxy-2,5-dimethoxyacetophenone with trifluorobenzyl cinchonidinium catalyst and cesium hydroxide provided alkylation products at —35 °C in high yield (80-99%) and with excellent enantioselectivity (up to 90% ee). Useful α-hydroxy products were obtained using bis-TMS peroxide Baeyer—Villiger conditions and selective transesterification. The intermediate aryl esters can be obtained with >99% ee after a single recrystallization. The newly developed PTC glycolate alkylation was applied to the asymmetric syntheses of ragaglitazar and kurasoin A. Ragaglitazar is a potent antihyperglycemic and lipid modulator, currently in phase II clinical trials. Kurasoin A is a relatively potent protein farnesyltransferase (PFTase) inhibitor with an IC50 value of 59.0 micromolar. PTC glycolate alkylation was optimized to provide 4-benzyloxy glycolate intermediates in excellent overall yield and with 96% ee after recrystallization. Ragaglitazar was then synthesized after considerable experimentation to provide the potent lipid modulator with yields and enantiopurity rivaling the best-known routes produced by industry standards. Kurasoin A was produced through an α-triethylsiloxy Weinreb amide to provide the highest overall yielding route to this PFTase inhibitor currently disclosed.

geldanamycin

ragaglitazar

kurasoin

phase transfer catalysis

PTC

asymmetric alkylation

cinchonidine

natural product

organic synthesis

Biochemistry

Chemistry

Synthesis of Resveratrol and Its Analogs, Phase-Transfer Catalyzed Asymmetric Glycolate Aldol Reaction, and Total Synthesis of 8,9-Methylamido-Geldanamycin

Liu, Jing

16 July 2007

The phytoalexin resveratrol and its acetyl analogs have been made using a decarbonylative Heck reaction. The acid chloride derived from 3,5-dihydroxybenzoic acid was coupled with suitable protected 4-hydroxystyrene in the presence of palladium acetate and N,N-bis-(2,6-diisopropylphenyl)-4,5-dihydro imidazolium chloride to give the substituted stilbene in good yield as the key step. Human HL-60 cell assays showed the 4'-acetyl resveratrol variant improved activity (ED50 17 μM) relative to resveratrol (24 μM). Cinchona phase-transfer catalysts (PTC) were developed for glycolate aldol reactions to give differentially protected 1,2-diol products. Silyl enol ether of diphenylmethoxy-2,5-dimethoxyacetophenone reacted to generate benzhydryl-protected products. O-Allyl trifluorobenzyl cinchonium hydrodifluoride (20 mol %) catalyzed the addition of the silyl enol ether to benzaldehyde to give aldol product as a single syn-product in 76% yield and 80% ee. Recrystallization enriched the product to 95% ee, and a Baeyer-Villiger reaction transformed the product into useful ester intermediates. A novel unnatural product, 8,9-Methylamido-Geldanamycin, has been designed and synthesized. Using a convergent route, the total synthesis of the molecule involved only 27 longest linear steps. New synthesis methodologies, including auxiliary controlled asymmetric anti-glycolate aldol, syn-norephedrine aldol, and selective p-quinone formation, were used.

resveratrol

phase-transfer catalysts

aldol

Geldanamycin

decarbonylative Heck reaction.

Biochemistry

Chemistry

Aryl Acetate Phase Transfer Catalysis: Method and Computation Studies

Binkley, Meisha A.

11 August 2011

Brief explanation and history of cinchona based Phase Transfer Catalysis (PTC). Studied aryl acetates in PTC, encompassing napthoyl, 6-methoxy napthoyl, phenyl and protected 4-hydroxy phenyl acetates. Investigated means of controlling the selectivity of the PTC reaction by changing the electrophile size, the ether side group size or by addition of inorganic salts. Found that either small or aromatic electophiles increased enantioselectivity more than aliphatic electrophiles, and that increasing the size of ether protecting group also increased selectivity. Positive effects of salt addition included either decreasing reaction time or increasing enantiomeric excess. Applied findings towards the synthesis of S-equol. Computational experiments working towards deducing the transition state between PTC and aryl acetate substrates.

Phase Transfer Catalysis

cinchona catalyst

asymmetric alkylation

transition state determination

computational chemistry

Biochemistry

Chemistry

Nanoparticles for multifunctional drug delivery systems

Qin, Jian

January 2007

Multifunctional drug delivery systems incorporated with stimuli-sensitive drug release, magnetic nanoparticles and magnetic resonance (MR) T2 contrast agents is attracting increasing attention recently. In this thesis, works on polymer nanospheres response to temperature change, superparamagnetic iron oxide nanoparticles (SPION)/polymeric composite materials for MR imaging contrast agents are summarized. A “shell-in-shell” polymeric structure has been constructed through a “modified double-emulsion method”. Thermosensitive inner shell is comprised of poly(N-isopropylacrylamide) which undergoes phase transition at body temperature. Such a feature could facilitate drug release at an elevated temperature upon administration. Furthermore, the dual-shell structure is covered by a layer of gold nanoparticles. According to the cytotoxicity tests, the biocompatibility is shown to be enhanced due to the layer of gold. SPION have been prepared using a high temperature decomposition method. Particle growth of SPION is monitored by transmission electron microscope and synchrotron X-ray diffraction. Poly(L,L-lactide)@SPION (PLLA@SPION) composite particles have been prepared through surface-initiated ring-opening polymerization which has been developed in our lab. For biomedical applications, it is essential to transfer the particles to physiological solutions from organic solutions. Phase transfer of SPION has been carried out by utilizing small molecules. Stability at the neutral pH is of large concern for such transfer systems. A novel phase transfer agent, Pluronic F127 (PF127), a triblock copolymer has been applied and the stability of the aqueous PF127@oleic acid (OA)@SPION solution has been greatly enhanced over a broad pH range. Most interestingly, PF127@OA@SPION show remarkable efficacy as T2 contrast agents as indicated by relaxometric measurements compared with commercially available products. / QC 20101115

drug delivery

stimuli-sensitive

SPION

PLLA

PNIPAAm

gold

MRI

cytotoxicity

Pluronic

phase transfer

Materials Chemistry

Materialkemi

THE SYNTHESIS, REDUCTION, AND CHLORINATION OF 5-ALKOXY-2,3-DIPHENYLTEREPHTHALATES

Sayers, Rachel Marie

30 June 2011

No description available.

Chemistry

phenylated terephthalates

poly(phenylene vinylene)s

Diels-Alder

phase-transfer

alkoxyterephthlates