I. Formal Synthesis of SCH 351448. II. Synthesis and Characterization of Largazole Analogues.

Park, Heekwang

January 2012

<p>Part I: Extensive studies for treating hypercholesterolemia, one of the major causes of human morbidity throughout the world, have led to the development of statin drugs-the most prevalent drug prescribed today. In addition to statins, SCH 351448 has attracted considerable interest from many synthetic groups as it is the only selective activator of low-density lipoprotein receptor (LDL-R) containing structural features such as a C2-symmetry and 2,6-cis-tetrahydropyrans. Even though direct dimerization has been the most efficient method for the construction of C2-symmetric macrodiolides, total syntheses of SCH 351448 were only achived by stepwise dimerizations. In this chapter, attempts were made to exploit the inherent C2-symmetric macrodioloide via direct dimerization using various single monomeric units, but they did not prove to be viable. Therefore, formal synthesis of SCH 351448 was accomplished through two tandem sequences; cross-metathesis/conjugate addition and allylic oxidation/conjugate addition reactions, to stereoselectively construct 2,6-cis-tetrahydropyrans embedded in SCH 351448. The 1,4-syn aldol and the Suzuki coupling reactions were effective for the construction of the monomeric units. This convergent route should be broadly applicable to the synthesis of a diverse set of analogues of SCH 351448 for further biological studies.</p><p>Part II: Histone deacetylases (HDACs) play a significant role in tumorigenesis and have been recognized as one of the target enzymes for cancer therapy. Extensive studies in small molecules inhibiting HDAC enzymes have resulted in pan-HDAC inhibitor suberoylanilide hydroxamic acid (SAHA) and class I HDAC inhibitor FK228, approved by FDA in 2006 and 2009, respectively. Recently, largazole, a natural product was isolated from Symploca sp. presented HDAC inhibitory activity. Due to its unique differential cytotoxicity, potency, and class selectivity, structure-activity relationship (SAR) studies of largazole have been achieved to improve the potency and class selectivity. In addition to such biological activities, pharmacokinetic characteristics and isoform selectivity should be improved for the therapeutic potential of cancer therapy. In this chapter, two types of largazole analogues were synthesized by a convergent route that involved an efficient and high yielding multistep sequence. The synthesis of three disulfide analogues to improve pharmacokinetics and five linker analogues to enhance HDAC isoform selectivity is disclosed. The evaluation of biological studies is in progress.</p> / Dissertation

Chemistry

Organic chemistry

2

6-cis-tetrahydropyran

HDAC

hypercholesterolemia

largazole

macrocycle

SCH 351448

Aqueous self-assembly with cucurbit[n]urils : from solution to emulsion

Groombridge, Alexander S.

January 2018

Making use of the non-covalent bond to make materials is of great interest in many fields of research. This PhD thesis describes a variety of highly interdisciplinary research undertaken at the interface between chemistry, materials science, physics and engineering. Chapter 1 is an introductory chapter into the core concepts underlying this thesis. Supramolecular chemistry as a broad research field is briefly reviewed, followed by a focus on host-guest chemistry. The macrocyclic cucurbit[n]urils (CB[n]s) in particular are highlighted with a discussion on their recent applications since their discovery. Emulsions and their controlled generation with microfluidic techniques are then reviewed, as they have been used as templates for self-assembly processes throughout this thesis. A study into the synthesis of extended polymer networks composed entirely from small molecules held together by non-covalent interactions is described in Chapter 2. These highly dynamic and responsive supramolecular polymer networks have not yet been constructed with CB[n] host-guest chemistry. The ability of the larger CB[8] macrocycle to encapsulate multiple guest molecules in a stepwise fashion was taken advantage on in designing the synthesis of branching monomers. The monomers had two (A$_2$) or three (B$_3$) terminal guest moieties for CB[8], which upon combination formed branching supramolecular polymers that were multi-stimuli responsive. However, the polymers precipitated from solution at high concentrations rather than form a cross-linked network, due to competing intra-chain cyclisation and the limited water solubility of CB[8]. By confining these polymers to microfluidic droplets, directed assembly to the liquid-liquid interface could drive polymerisation to form an interfacial cross-linked gel that was both elastic and self-healing. Chapter 3 follows on from these results, describing attempts into constructing hyperbranched supramolecular polymers from an AB$_2$ guest molecule and CB[8] that would form globular polymers. Intramolecular complexation dominated with the guest molecules synthesised (A and B complexing within the molecule), evidenced by a variety of characterisation. Compared to previous works that relied on linear molecules to form a folded conformation for intramolecular complexes, these molecules were pre-organised with a unique cooperative complexation pathway. The stimuli-responsiveness of the complexes was probed, and the formation of self-sorting mixtures was demonstrated with multiple CB[n] and additional guest molecules. Controlling the self-assembly of semi-conducting nanocrystals with CB[7] is detailed in Chapter 4, a process that typically requires harsh conditions or extensive time-scales. Semi-conducting nanocrystals could be assembled instantaneously from water into extended networks that were highly porous with excess CB[7], retaining their nanoscale properties. Limiting quantities of CB[7] could then form nanoscale aggregates that remained in solution. Confinement of these assemblies within microfluidic droplets allowed the synthesis of dense microparticles, that retained their shape after re-dispersal in water. By simply including metallic nanocrystals as a minor component, mixed aggregates could be synthesised analogously. Finally, Chapter 5 draws overall conclusions from the results of this thesis, looking broadly at the potential for future prospects in these areas of research.

Synthèses et analyses conformationnelles de macrocycles aza-β³-peptidiques contenant des atomes d'azote chirogéniques / Synthesis and conformational analysis of aza-β³-peptics macrocycles containing chirogenics nitrogen atoms

Huez, Philippe

23 October 2014

Le travail présenté dans ce mémoire est consacré à la synthèse de cycles pseudopeptidiques construits à partir d'aza-β³-aminoacides, et à la détermination des conformations adoptées par ces cycles. Le travail réalisé a permis de montrer que les cycles obtenus à 8, 16 et 24 liaisons adoptent des conformations privilégiées dans lesquelles la configuration relative des atomes d'azote chiraux est fixée en dépit du phénomène d'inversion pyramidale associé à la structure électronique de cet élément chimique, en réponse à des contraintes structurelles qui varient selon la taille du macrocycle. Ces cycles existent alors sous la seule forme de deux invertomères en équilibre. La constante de vitesse de cet équilibre, qui est indiscernable de la barrière d'inversion pyramidale des atomes d'azote, est maintenue à des valeurs étonnamment faibles par les contraintes conformationnelles. L'étude de ces macrocycles originaux dans le domaine de la chiralité a permis d'apporter en particulier des résultats nouveaux concernant l'influence de l'encombrement stérique des chaînes latérales sur la vitesse d'inversion pyramidale des atomes d'azote, mais aussi sur le transfert de chiralité d'éléments d'asymétrie exocycliques vers la séquence chirale du squelette, et enfin de montrer également l'intérêt des nouveaux cycles à 8 chaînons à travers l'étude de leur conformation. / The work depicted here is devoted to the synthesis of pseudopeptides built from aza-β³-aminoacid units, and to their conformational analysis. The results show that the cycles with 8, 16, and 24 bonds each adopt a ground conformation where the relative configuration of the chiral nitrogen atom is fixed in response to specific structural constraints, and despite the nitrogen pyramidal inversion phenomenon. The cycles just undergo equilibrium between two invertomeric forms, and the energetic barrier associated with the macrocycle inversion reveals surprisingly slow considering the size of the compounds. The influence of steric crowding of the side chains on the inversion rate has been carefully studied, but also the transfer of chirality from exocylic elements towards chirotopic nitrogen atoms inside the backbone. A specific chapter is devoted to the 8-membered rings, that reveal the interest of these newly described compounds in the domain of nitrogen chirality.

Pseudo peptide

Macrocycle

Chiralité

Inversion pyramidale de l'azote

Macrocyclic compounds

Chirality

Pseudo peptide

Development of Peptidomimetic Inhibitors Against Intracellular Targets

Appiah Kubi, George

05 October 2020

No description available.

Chemistry

Organic Chemistry

Biochemistry

mitochondria targeting

non-peptidic cell-penetrating motifs

macrocycle

peptidomimetic

libraries

endosome

OBTC

An Investigation of Gold(I) Catalyzed Cycloaddition Reactions

Conyers, Ryan C.

19 April 2013

No description available.

Organic Chemistry

Chemistry

Gold

Au

cycloaddition

macrocycle

furan

transannular

intramolecular

intermolecular

cyclopropanation

cascade

cortistatin

Highly Fluorinated Macrocycles and Macrocycle-Based Polymers and Their Prospective Applications in Energy-Intensive Separations

Hashem, Abdulmajeed W.

05 1900

The fluorination of porous materials often leads to the enhancement of properties such as stability, crystallinity and selective adsorption. Although there has been much interest in the fluorination of many types of porous materials, little research has been done on the fluorination of macrocycles, specifically trianglimine and leaning pillararene based materials. In this work, we introduce for the first time highly fluorinated trianglimine and leaning pillararene and show the enhancement effects brought about by the inclusion of fluorinated-phenyl moieties, such as increased stability, surface area, and tendency for self-assembly in our systems. We then show how our fluorinated macrocycles open the door for the formation of extended macrocycle-based polymetric materials simply and in high yields via nucleophilic aromatic substitution. We show for the first time the formation of a trianglimine-based cross-linked polymer and demonstrate its use for micropollutant and gas separation.

Macrocycles

Separation

Fluorination

Porous Molecules

Dynamic Covalent Chemistry

Macrocycle-based Polymer

Synthesis and Characterization of (Phospine)- and (N-Heterocyclic Carbene)Gold(I) Halides, Azides, Alkynyls, Triazoles, and Dendrimers and the Synthesis and Characterization of Gold(I) Thiacrown Macrocycles

Robilotto, Thomas J.

January 2011

No description available.

Chemistry

gold

azide

gold(I) triazole

gold(I) alkynyl

thiacrown

macrocycle

phosphine

N-heterocyclic carbene

apoptosis

Design, Synthesis and Characterization of m-Phenylene Ethynylene-Based Macrocycles as Discotic Liquid Crystals

Scioneaux, Ashley Nicole

14 December 2011

No description available.

Organic Chemistry

liquid crystal

discotic

shape persistent macrocycle

phenylene ethynylene

alkyloxy-substitution

self-assembly

Sonogashira coupling

Toward Total Synthesis of (-)-Muironolide A

Clay, Charles Michael

10 August 2017

No description available.

Organic Chemistry

Chemistry

muironolide a

natural product

macrolide

Phorbas sp

macrocycle

polyketide

total synthesis

anti-cancer

Cucurbit[n]urils in Self-Assembling Molecular Devices: Thermodynamic and Kinetic Considerations

Ling, Xiaoxi

January 2013

No description available.

Chemistry

Organic Chemistry

Cucurbiturils

Supramolecular chemistry

Thermodynamic

Kinetic

Macrocycle

Molecular machine

Self-assembling