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Studies of Alkyne Cycloaddition Reactions Leading to Isoxazolines and Pyrazolines and Synthesis of Urofuranoic Acids to Assess their Effect on Insulin Secretion

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Date Issued:
2017
Summary:
The present thesis will be largely focused on identifying and understanding the scope and mechanistic details associated with the tetrabutylammonium fluoride (TBAF) mediated cyclization of alkynyl hydrazines and (O)-hydroxylamines. Also, the synthesis of 2-(2-carboxyethyl)-4-methyl-5-propylfuran-3-carboxylic acid (CMPF) and its analogs will be discussed along with an analysis of their effects on insulin secretion. Chapter 1 will present the importance of developing isoxazoline and pyrazoline type heterocycles given that they are continually demonstrated to possess a variety of biological activities. Further, the scope of the reaction in terms of functional group tolerability, scalability and mild conditions will be shown. To expand the importance of this work, a route to access non-racemic heterocycles is also noted. With the heterocycles in hand, new methods were developed to generate more complex frameworks in the form of a novel one pot deprotection/functionalization reaction. Chapter 2 will focus on mechanistic investigations of the cyclization. From the initial discovery of the reaction, its actual mechanism was unknown and a main point of interest. What appeared unusual is that a nucleophilic attack occurs on an unactivated triple bond. Given the identity of the products, a reasonable proposal was a 5-endo-dig type cyclization. However, such a pathway would result in the generation of a vinyl anion intermediate which is well known to be of very high energy and it would seem unlikely to occur under mild conditions. Various trapping experiments were used to demonstrate that the vinyl anion forms and a 5-endo-dig-cyclization is the operative mechanism. Chapter 3 analyzes the importance of the tetrabutylammonium fluoride reagent. During optimization studies, it became clear that this base is the ideal reagent to facilitate the cyclization although other bases can also enable the transformation at much slower rates. Addition of non-basic ammonium salt additives to bases such as KF and CsF had a dramatic effect on the rate of the reaction. To determine whether the observed rate differences were merely a phase transfer effect or something more, both empirical and Raman spectroscopy data were collected. Based on this, the first evidence for an ammonium-alkyne cation-pi type interaction was shown. Chapter 4 will summarize the work on the synthesis of 2-(2-carboxyethyl)-4-methyl-5-propylfuran-3-carboxylic acid (CMPF) and its analogs in order to be used in various biological assays. The main goals were to determine a possible structure activity relationship between the substrates and insulin secretion in beta cells and also determine the fate of CMPF in vivo. Several 13C labeled analogs of CMPF were synthesized and successfully used to show for the first time that CMPF in metabolized in vivo in mice.
Title: Studies of Alkyne Cycloaddition Reactions Leading to Isoxazolines and Pyrazolines and Synthesis of Urofuranoic Acids to Assess their Effect on Insulin Secretion.
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Name(s): Nagy, Edith, author
Lepore, Salvatore D., Thesis advisor
Florida Atlantic University, Degree grantor
Charles E. Schmidt College of Science
Department of Chemistry and Biochemistry
Type of Resource: text
Genre: Electronic Thesis Or Dissertation
Date Created: 2017
Date Issued: 2017
Publisher: Florida Atlantic University
Place of Publication: Boca Raton, Fla.
Physical Form: application/pdf
Extent: 228 p.
Language(s): English
Summary: The present thesis will be largely focused on identifying and understanding the scope and mechanistic details associated with the tetrabutylammonium fluoride (TBAF) mediated cyclization of alkynyl hydrazines and (O)-hydroxylamines. Also, the synthesis of 2-(2-carboxyethyl)-4-methyl-5-propylfuran-3-carboxylic acid (CMPF) and its analogs will be discussed along with an analysis of their effects on insulin secretion. Chapter 1 will present the importance of developing isoxazoline and pyrazoline type heterocycles given that they are continually demonstrated to possess a variety of biological activities. Further, the scope of the reaction in terms of functional group tolerability, scalability and mild conditions will be shown. To expand the importance of this work, a route to access non-racemic heterocycles is also noted. With the heterocycles in hand, new methods were developed to generate more complex frameworks in the form of a novel one pot deprotection/functionalization reaction. Chapter 2 will focus on mechanistic investigations of the cyclization. From the initial discovery of the reaction, its actual mechanism was unknown and a main point of interest. What appeared unusual is that a nucleophilic attack occurs on an unactivated triple bond. Given the identity of the products, a reasonable proposal was a 5-endo-dig type cyclization. However, such a pathway would result in the generation of a vinyl anion intermediate which is well known to be of very high energy and it would seem unlikely to occur under mild conditions. Various trapping experiments were used to demonstrate that the vinyl anion forms and a 5-endo-dig-cyclization is the operative mechanism. Chapter 3 analyzes the importance of the tetrabutylammonium fluoride reagent. During optimization studies, it became clear that this base is the ideal reagent to facilitate the cyclization although other bases can also enable the transformation at much slower rates. Addition of non-basic ammonium salt additives to bases such as KF and CsF had a dramatic effect on the rate of the reaction. To determine whether the observed rate differences were merely a phase transfer effect or something more, both empirical and Raman spectroscopy data were collected. Based on this, the first evidence for an ammonium-alkyne cation-pi type interaction was shown. Chapter 4 will summarize the work on the synthesis of 2-(2-carboxyethyl)-4-methyl-5-propylfuran-3-carboxylic acid (CMPF) and its analogs in order to be used in various biological assays. The main goals were to determine a possible structure activity relationship between the substrates and insulin secretion in beta cells and also determine the fate of CMPF in vivo. Several 13C labeled analogs of CMPF were synthesized and successfully used to show for the first time that CMPF in metabolized in vivo in mice.
Identifier: FA00004978 (IID)
Degree granted: Dissertation (Ph.D.)--Florida Atlantic University, 2017.
Collection: FAU Electronic Theses and Dissertations Collection
Note(s): Includes bibliography.
Subject(s): Dissertations, Academic -- Florida Atlantic University
Insulin--Secretion.
Alkynes.
Cycloaddition Reaction.
Pyrazolines.
Held by: Florida Atlantic University Libraries
Sublocation: Digital Library
Links: http://purl.flvc.org/fau/fd/FA00004988
Persistent Link to This Record: http://purl.flvc.org/fau/fd/FA00004978
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Host Institution: FAU
Is Part of Series: Florida Atlantic University Digital Library Collections.