Development of Boronic Acid Flurescent Reporters, Boronic Acid-Modified Thymidine Triphosphates for Sensor Design and Antagonists of Bacterial Quorum Sensing in Vibrio Harveyi

Cheng, Yunfeng

19 November 2011

Carbohydrates are known to play important roles in a large number of physiological and pathological processes. Conceivably, “binders” of carbohydrates of biological importance could be used as diagnostic and therapeutic agents. Currently, lectins are the major available tools in research for carbohydrate recognition. However, the available lectins often have cross-reactivity issues, along with the high costs and stability issues. Therefore, there is a critical need to develop alternatives (lectin mimics). In this regard, there have been very active efforts in developing different “binders”, such as small molecule lectinmimics and aptamers. Among all the small molecule lectinbmimics developments, boronic acid stands out as the most important building blocks of the sensors design for carbohydrates biomarkers due to its intrinsic binding affinities with diols. To address a fundamental question that whether boronic acid also binds to six-membered ring sugars, with very limited precedents, we provided a concrete experimental evidence of the binding. Specifically, a series of isoquinolinylboronic acids were found to have remarkably high binding affinities with fluorescence change upon binding to representative sugars. Most importantly, these isoquinolinylboronic aicds showed weak but very encouraging bindings with six-membered sugar model. All these promising results paves the way of using boronic acids, especially isoquinolinylboronic acid as building blocks for chemosensors design for biological carbohydrates biomarkers, which universally contain six-membered ring and liner diols. Aptamer provides another alternative way for sensors development for carbohydrates biomarkers as lectin mimics. Compared to lectins, they are normally cheaper and more stable. However, there is much less options. Another challenging area for aptamer-based lectin mimics development is the difficulty to differentiate changes in glycosylation patterns of a glycoprotein, which affect the function of a glycoprotein and thus recognized as biomarkers. To address this major challenge, our group first demonstrated that the incorporation of a boronic acid into DNA would allow for the aptamer selection process to gravitate towards the glycosylation site. To examine the generality of boronic acid incorporation, increase the structural diversity, and broaden the application of boronic acid-modified DNA, a series of B-TTP analogues with simplified structures were designed, synthesized, and successfully incorporated into DNA. A simple route was also developed using 1,7-octadiyne as a linker for both Sonogashira coupling with thymidine and CuAAC tethering of a boronic acid moiety. This paves the way for the preparation of a large number of B-TTPs with different structural features for aptamer selection or array analysis. Finally, bacterial quorum sensing has received much attention in recent years because of its relevance to pathological events such as biofilm formation. As one of the very first groups that developed a series of antagonists for AI-2 mediated quorum sensing, we herein designed and synthesized a series of analogues based on the structures of two lead inhibitors identified through virtual screening. Besides, we also examined their inhibitory activities, twelve of which showed equal or better inhibitory activities compared with the lead inhibitors. The best compound showed an IC50 of about 6 mM in a whole cell assay using Vibrio harveyi as the model organism. This encouraging results and SAR discuss also paves the way for the finding of more potent compound through further structure optimization.

Chemosensor

Boronic acid

Fluorescent

Carbohydrate biomakers

Nucleic acid

Boronolectins

Quorum sensing

AI-2

Vibrio harveyi

Chemistry

Reversible and Mechanism-Based Irreversible Inhibitor Studies on Human Steroid Sulfatase and Protein Tyrosine Phosphatase 1B

Ahmed, Vanessa

09 1900

The development of reversible and irreversible inhibitors of steroid sulfatase (STS) and protein tyrosine phosphatase 1B (PTP1B) is reported herein. STS belongs to to the aryl sulfatase family of enzymes that have roles in diverse processes such as hormone regulation, cellular degradation, bone and cartilage development, intracellular communication, and signalling pathways. STS catalyzes the desulfation of sulfated steroids which are the storage forms of many steroids such as the female hormone estrone. Its crucial role in the regulation of estrogen levels has made it a therapeutic target for the treatment of estrogen-dependent cancers. Estrone sulfate derivatives bearing 2- and 4-mono- and difluoromethyl substitutions were examined as quinone methide-generating suicide inhibitors of STS with the goal of developing these small molecules as activity-based probes for proteomic profiling of sulfatases. Kinetic studies suggest that inhibition by the monofluoro derivatives is a result of a quinone methide intermediate that reacts with active-site nucleophiles. However, the main inhibition pathway of the 4-difluoromethyl derivative involved an unexpected process in which initially formed quinone methide diffuses from the active site and decomposes to an aldehyde in solution which then acts as a potent, almost irreversible STS inhibitor. This is the first example where this class of inactivator functions by in situ generation of an aldehyde. 6- and 8-mono- and difluoromethyl coumarin derivatives were also examined as quinone methide-generating suicide inhibitors of STS. The 6-monofluoromethyl derivative acted as a classic suicide inhibitor. The partition ratio of this compound was found to be very large indicating that this class of compounds is not likely suitable as an activity-based probe for proteomic profiling of sulfatases. Boronic acids derived from steroid and coumarin platforms were also examined as STS inhibitors with the goal of improving our understanding of substrate binding specificity of STS. Inhibition constants in the high nanomolar to low micromolar range were observed for the steroidal derivatives. The coumarin derivatives were poor inhibitors. These results suggest that the boronic acid moiety must be attached to a platform very closely resembling a natural substrate in order for it to impart a beneficial effect on binding affinity compared to its phenolic analog. The mode of inhibition observed was reversible and kinetic properties corresponding to the mechanism for slow-binding inhibitors were not observed. PTP1B catalyzes the dephosphorylation of phosphotyrosine residues in the insulin receptor kinase and is a key enzyme in the down regulation of insulin signaling. Inhibitors of PTP1B are considered to have potential as therapeutics for treating type II diabetes mellitus. The difluoromethylenesulfonic (DFMS) acid group, one of the best monoanionic phosphotyrosine mimics reported in the literature, was examined as a phosphotyrosine (pTyr) mimic in a non-peptidyl platform for PTP1B inhibition. The DFMS-bearing inhibitor was found to be an approximately 1000-fold poorer inhibitor than its phosphorus analogue. It was also found that the fluorines in the DFMS inhibitor contributed little to inhibitory potency. In addition, [sulfonamido(difluoromethyl)]-phenylalanine (F2Smp) was examined as a neutral pTyr mimic in commonly used hexapeptide and tripeptide platforms. F2Smp was found to be a poor pTyr mimic. These inhibition studies also revealed that the tripeptide platform is not suitable for assessing pTyr mimics for PTP1B inhibition. Taken together, the kinetic data on the inhibition of STS and PTP1B provide valuable information relevant for future design of inhibitors of these two therapeutic targets.

steroid sulfatase

protein tyrosine phosphatase

suicide inhibitors

boronic acid

quinone methide

phosphotyrosine mimic

Chemistry

Reversible and Mechanism-Based Irreversible Inhibitor Studies on Human Steroid Sulfatase and Protein Tyrosine Phosphatase 1B

Ahmed, Vanessa

09 1900

The development of reversible and irreversible inhibitors of steroid sulfatase (STS) and protein tyrosine phosphatase 1B (PTP1B) is reported herein. STS belongs to to the aryl sulfatase family of enzymes that have roles in diverse processes such as hormone regulation, cellular degradation, bone and cartilage development, intracellular communication, and signalling pathways. STS catalyzes the desulfation of sulfated steroids which are the storage forms of many steroids such as the female hormone estrone. Its crucial role in the regulation of estrogen levels has made it a therapeutic target for the treatment of estrogen-dependent cancers. Estrone sulfate derivatives bearing 2- and 4-mono- and difluoromethyl substitutions were examined as quinone methide-generating suicide inhibitors of STS with the goal of developing these small molecules as activity-based probes for proteomic profiling of sulfatases. Kinetic studies suggest that inhibition by the monofluoro derivatives is a result of a quinone methide intermediate that reacts with active-site nucleophiles. However, the main inhibition pathway of the 4-difluoromethyl derivative involved an unexpected process in which initially formed quinone methide diffuses from the active site and decomposes to an aldehyde in solution which then acts as a potent, almost irreversible STS inhibitor. This is the first example where this class of inactivator functions by in situ generation of an aldehyde. 6- and 8-mono- and difluoromethyl coumarin derivatives were also examined as quinone methide-generating suicide inhibitors of STS. The 6-monofluoromethyl derivative acted as a classic suicide inhibitor. The partition ratio of this compound was found to be very large indicating that this class of compounds is not likely suitable as an activity-based probe for proteomic profiling of sulfatases. Boronic acids derived from steroid and coumarin platforms were also examined as STS inhibitors with the goal of improving our understanding of substrate binding specificity of STS. Inhibition constants in the high nanomolar to low micromolar range were observed for the steroidal derivatives. The coumarin derivatives were poor inhibitors. These results suggest that the boronic acid moiety must be attached to a platform very closely resembling a natural substrate in order for it to impart a beneficial effect on binding affinity compared to its phenolic analog. The mode of inhibition observed was reversible and kinetic properties corresponding to the mechanism for slow-binding inhibitors were not observed. PTP1B catalyzes the dephosphorylation of phosphotyrosine residues in the insulin receptor kinase and is a key enzyme in the down regulation of insulin signaling. Inhibitors of PTP1B are considered to have potential as therapeutics for treating type II diabetes mellitus. The difluoromethylenesulfonic (DFMS) acid group, one of the best monoanionic phosphotyrosine mimics reported in the literature, was examined as a phosphotyrosine (pTyr) mimic in a non-peptidyl platform for PTP1B inhibition. The DFMS-bearing inhibitor was found to be an approximately 1000-fold poorer inhibitor than its phosphorus analogue. It was also found that the fluorines in the DFMS inhibitor contributed little to inhibitory potency. In addition, [sulfonamido(difluoromethyl)]-phenylalanine (F2Smp) was examined as a neutral pTyr mimic in commonly used hexapeptide and tripeptide platforms. F2Smp was found to be a poor pTyr mimic. These inhibition studies also revealed that the tripeptide platform is not suitable for assessing pTyr mimics for PTP1B inhibition. Taken together, the kinetic data on the inhibition of STS and PTP1B provide valuable information relevant for future design of inhibitors of these two therapeutic targets.

steroid sulfatase

protein tyrosine phosphatase

suicide inhibitors

boronic acid

quinone methide

phosphotyrosine mimic

Chemistry

Synthesis of Boronic Acid-Tosyl Chemical Probes and Its Applications in the Study of Glycoprotein-Protein Interactions

Yang, Yung-Lin

05 September 2012

In this research, a method for site-selective attachment of synthetic molecules into glycoproteins using Boronic acid (BA)-directed tosyl chemistry is proposed. The synthetic BA-tosyl chemical probes are composed of boronic asid as a affinity ligand, a tosyl group as a reactive group and a terminal alkyne group for reporting. In neutral and alkaline environment, boronic acid can act as a targeting head to react with the cis-diol of carbohydrates and therefore forms a covalently reversible boronic diester ring. The newly formed boronate ring can withdraw the probe moeular close to the molecular surface of glycoproteins of interest. Followed by a SN2 reaction with the nucleophilic residues of labeled glycoproteins, the report alkyne group can covalently shift to the protein surface apart from the BA-tosyl skeleton. With the competition of polyols, the BA modified carbohydrates can be recovered to the native glycan structures. The traceless labeling strategy developed in the work has been demonstrated in the specific interaction with a known glycoprotein feutin with negatives controls. We believe that the successful development of this methodology can certainly accelerate the study of glycoproteomics and glycobiology.

Western Blotting

Boronic acid

Tosyl

Glycoprotein

Darzens Reaction Of Substituted Alfa-bromo Acetophenones With Acyl Phosphonates

Pirkin, Eser

01 November 2008

Phosphorous containing small cycles are very important building blocks in organic and medicinal chemistry. Many of their derivatives, especially cyclopropyl- and 1,2- epoxypropylphosphonates, have attracted great attention due to the broad spectrum of their biological properties including antiviral, anticancer, antibiotic, antibacterial, pesticidal, insecticidal and enzyme inhibitory activities. The Darzens condensation is one of the most potential methodologies for the preperation of &amp / #945 / ,&amp / #946 / -epoxy carbonyl compounds with complete control of two stereogenic centers. The Darzens condensation reaction represents one of the classical C-C and C-O bond-forming processes. In the first part of the thesis, reactions of a broad range of acyl phosphonates with substituted &amp / #945 / -bromo acetophenones at room temperature in the presence of different bases were examined in order to illustrate the reaction and the substituent effect on the reaction. The reaction affords two diastereomeric epoxy phosphonates in good yields and high diastereoselectivities. In the second part of the thesis, it is shown that a variety of radicals can be generated from the substituted aryl boronic acids with Mn(OAc)3. In the presence of acetonitrile, these radicals were added to carbon of acetonitrile to afford the corresponding ketones after hydrolysis of the formed imine with moderate to good yields.

QD Organic Chemistry 241-441

Catalytic Regio- and Stereoselective Reactions for the Synthesis of Allylic and Homoallylic Compounds

Alam, Rauful

January 2015

This thesis is focused on two main areas of organic synthesis, palladium-catalyzed functionalization of alkenes and allylic alcohols, as well as development of new allylboration reactions. We have developed a palladium-catalyzed selective allylic trifluoroacetoxylation reaction based on C−H functionalization. Allylic trifluoroacetates were synthesized from functionalized olefins under oxidative conditions. The reactions proceed under mild conditions with a high level of diastereoselectivity. Mechanistic studies of the allylic C−H trifluoroacetoxylation indicate that the reaction proceeds via (η3-allyl)palladium(IV) intermediate. Palladium-catalyzed regio- and stereoselective synthesis of allylboronic acids from allylic alcohols has been demonstrated. Diboronic acid B2(OH)4 was used as the boron source in this process. The reactivity of the allylboronic acids were studied in three types of allylboration reactions: allylboration of ketones, imines and acyl hydrazones. All three processes are conducted under mild conditions without any additives. The reactions proceeded with remarkably high regio- and stereoselectivity. An asymmetric version of the allylboration of ketones was also developed. In this process chiral BINOL derivatives were used as catalysts. The reaction using γ-disubstituted allylboronic acids and various aromatic and aliphatic ketones afforded homoallylic alcohols bearing two adjacent quaternary stereocenters with excellent regio-, diastereo- and enantioselectivity (up to 97:3 er) in high yield. The stereoselectivity in the allylboration reactions could be rationalized on the basis of the Zimmerman-Traxler TS model.

palladium catalysis

C−H functionalization

boronic acid

allylboration

asymmetric catalysis

allylic

homoallylic

diastereoselective

enantioselective

Greener Chemistry Using Boronic Acids as Organocatalysts and Stoichiometric Reaction Promoters

Zheng, Hongchao

Unknown Date

No description available.

Boronic acid catalysis

Green chemistry

Organocatalysis

Carboxylic acid activation

Alcohol activation

Diol activation

Template effect

Enantioselective synthesis of chiral building blocks with non-stabilized nucleophiles

Schäfer, Philipp

January 2017

This thesis describes the combination of non-stabilized nucleophiles and prochiral/racemic electrophiles in transition metal catalyzed asymmetric transformations. These enantioselective reactions have tremendous potential for the formation of chiral building blocks and new structural motifs that can be found in a variety of natural products and their derivatives. The first part of the thesis focuses on the synthetic approach towards anti-cancer active diterpenoid structures. The two key steps involve a Cu-catalyzed asymmetric conjugate addition of alkylzirconocenes to enones and an intramolecular oxidative cyclisation. Particular investigations into the cyclisation are made with organocatalysis, transition metal catalysis and electrochemistry for the formation of these tricyclic scaffolds. In the second part this work builds on the Rh-catalyzed asymmetric Suzuki-Miyaura coupling of benzeneboronic acids and cyclic allyl chlorides, which has been developed in our group. Here, the main point is to use more challenging coupling partners, such as heteroaromatic boronic acids, which are coupled to racemic cyclic allyl halides. The utility of this method is demonstrated by performing further transformations and an asymmetric synthesis of the natural product (+)- isoanabasine. The last chapter describes the development of a new asymmetric Hiyama coupling of arylsiloxanes with racemic cyclic allyl chloride. Attempts are made to generate substrates that are not accessible via the asymmetric Suzuki - Miyaura reaction. After extensive optimisation a variety of arylsiloxanes is generated and tested with the best conditions to prove its utility in comparison to the asymmetric Suzuki-Miyaura coupling.

Polymères associatifs par interaction covalente réversible diol-acide boronique / Associative polymers based on the diol-boronic acid reversible covalent interaction

Fournier, Rémi

28 October 2016

Ce travail de thèse porte sur la synthèse et l'étude physico-chimique de polymères associatifs hydrosolubles à associations complémentaires. Utilisant la chimie covalente réversible, ce système met en jeu l'association d'un poly(diol) et d'un poly(acrylamide) partiellement hydrolysé portant des fonctions d'acide boronique. Ces dernières sont introduites par une technique de greffage qui a été optimisée et finement caractérisée. Le mélange des deux polymères permet d'obtenir des solutions visqueuses et des gels dynamiques et ceci pour de faibles concentrations. La possibilité de viscosifier des formulations en-dessous de la concentration de gélification constitue un résultat marquant qui distingue ce système de nombreux polymères à association hydrophobe. Dans le régime de gel, les propriétés rhéologiques linéaires sont analysées en relation avec l'étude de la force des interactions moléculaires qui ont été mesurées par la RMN du bore et une technique de fluorescence. La rhéologie non-linéaire apporte des informations essentielles sur la relation entre le cisaillement et la structure du réseau réversible formé. L'utilisation d'un système de visualisation de l'échantillon sous écoulement permet l'observation d'effets locaux fortement non-linéaires. L'influence des différents paramètres, comme le pH et la température, sur les propriétés dynamiques des solutions peut être rationalisée et modélisée en termes de lois d'échelles. L'originalité de ce concept de système associatif par associations complémentaires est mise en perspective au travers d'une revue de la littérature rationalisant le lien entre architecture et rhéologie des polymères associatifs hydrosolubles. / This thesis deals with the synthesis and the physical chemistry study of water-soluble complementary associative polymers. Based on reversible covalent chemistry, this system brings into play the association of a poly(diol) and of a partially hydrolyzed poly(acrylamide) bearing boronic acid moieties. The latter are introduced by a grafting technique which has been optimized and finely characterized. The mixing of these two polymers allows obtaining viscous solutions and visco-elastic gels at relatively low polymer concentrations. The possibility to make formulations viscous below the gel point represents a remarkable result, which differentiates this system to numerous associative polymers based on hydrophobic interactions. In the gel regime, the linear rheological properties are analyzed with regard to the strength of molecular interactions which have been measured by boron NMR and a fluorescence technique. Non-linear rheology brings essential information about the relationship between shearing and the structure of the formed reversible network. The use of a visualization setup of samples under flow enables the observation of very non-linear local effects such as wall slip and shear-banding. The influence of various parameters, as pH and temperature, on the dynamical properties of solutions and gels can be rationalized and modeled in terms of scaling laws. The originality of this concept of associative system with complementary associations is put into perspective through a literature review on the relationship between architecture and molecular interactions on one hand, and rheological properties of associative polymers on the other hand.

Polymères associatifs

Rhéologie

Acides boroniques

Physico-Chimie

Rhéo-Microscopie

Gels

Associative polymers

Boronic acids

Rheology

541.3

Busca por oxidantes quirais para a transformação enantiosseletiva de compostos orgânicos de boro / Search for chiral oxidants for the enantioselective transformation of organic boron compounds

Rodrigo dos Santos Martins

05 May 2017

Neste trabalho, avaliou-se o potencial do uso de oxidantes quirais em oxidações enantiosseletivas de compostos orgânicos de boro. É de conhecimento geral que compostos orgânicos de boro, especialmente ésteres e ácidos borônicos são facilmente oxidados por hidroperóxidos em meio básico. No entanto, são escassos na literatura exemplos destas reações de modo enantiosseletivo. A fim de realizar as reações mencionadas, sintetizou-se os hidroperóxidos quirais TADOOH ({(4R,5R)-5-[(hidroperoxidifenil)metil]-2,2-dimetil-1,3-dioxolan-4il}difenilmetanol) e o hidroperóxido quiral derivado de carboidrato, 2,3-dideoxi1-O-oxidanil-4,6-di-O-pivaloil-α-D-eritro-hex-2-enopiranose (di-O-PivOOH). Estes compostos apresentaram resultados interessantes na literatura em oxidações enantiosseletiva de sulfetos orgânicos, em epoxidações de alcenos e em oxidações de Baeyer-Villiger. Inicialmente o potencial oxidativo de ambos hidroperóxidos, bem como a seletividade destes, foi avaliado frente a diversos ésteres borônicos, sendo que somente o TADOOH apresentou resultados promissores. (Ver esquema no PDF) Observou-se uma melhor seletividade do TADOOH frente a ésteres borônicos que possuíam grupos carbonílicos em sua estrutura. Ao submeter o β-boronil-éster, 3-fenil-3-(4,4,5,5-tetrametil-1,3,2-dioxaborolan-2-il)propanoato de etila, à oxidação com o TADOOH em THF utilizando NaOH como base, a -30°C por 1 hora, obteve-se o respectivo álcool com 40% de e.e. Cálculos de DFT para o estado de transição na oxidação dos ésteres borônicos com o TADOOH foram realizados em colaboração com o grupo do Prof. Dr. Ataualpa Albert Carmo Braga. Estes cálculos demonstraram que o estado de transição é estabilizado por uma ligação de hidrogênio não clássica entre o oxigênio da carbonila e umas das ligações C-H dos grupos fenila do TADOOH. Além dos estudos relatados, a reconhecida metodologia de Sharpless na epoxidação assimétrica de alcoóis alílicos foi adaptada para a oxidação enantiosseletiva de ésteres borônicos. Ao trocar o ligante derivado de éster tártarico, normalmente utilizado nas epoxidações de Sharpless, por (-)-efedrina observou-se uma moderada seletividade deste sistema frente ao pinacol l-fenietilboronato. Investigações mais detalhadas demonstraram que a presença do Ti(IV) não era necessária, sendo que a (-)efedrina era a responsável pela ativação e indução quiral nesta reação. / In this work, it was investigated the potential use of chiral oxidants in organic boron compound oxidation. It is known in the literature, that organic boron compounds can be easily oxidized by hydroperoxides. However, an enantioselective approach in literature is scarce. In order to perform these reactions, hydroperoxide TADOOH ({(4R,5R)-5[(hydroperoxydiphenyl)methyl]-2,2-dimethyl-l,3-dioxolan-4-yl}diphenylmethanol) and carbohydrate derived hydroperoxide, 2,3-dideoxy-1-O-oxidanyl-4,6-di-O-pivaloyl-α-D-erythro-hex-2-enopyranose (di-O-PivOOH), have been synthesized. These compounds showed interesting results in several enantioselective oxidations, as like, organic sulfides oxidation, alkenes epoxidation and Baeyer-Villiger oxidations. The oxidative potential of both hydroperoxides, as well as their selectivity, were evaluated against several boronic esters. Only TADOOH has shown promissing results for further studies. (See Scheme on PDF). Boronic esters containing a carbonyl moiety showed better selectivities with TADOOH, for example, the reaction of β-boronyl-ester, ethyl 3-phenyl-3-(4,4,5,5-tetramethyl-l,3,2-dioxaborolan-2-yl)propanoate, gave the correponding alcohol with 40% e.e. DFT calculations for the transition state in the oxidation of the boronic esters with TADOOH were carried out in collaboration with the group of Prof. Dr. Ataualpa Albert Carmo Braga. These calculations have shown that the transition state is stabilized by a non-classical hydrogen bond between the carbonyl oxygen and one of the C-H bonds of the TADOOH phenyl groups. In addition to the studies, the well-known Sharpless protocol for asymmetric epoxidation of allylic alcohols was adapted in the enantioselective oxidation of boronic esters. By replacing the tartaric ester-derived, commonly used in the Sharpless experiments, for (-)-ephedrine moderate selectivity was observed with pinacol 1-phenylethyl boronate. Further investigations showed that the presence of Ti (IV) was not necessary, and (-)-ephedrine was responsible for the activation and chiral induction in this reaction.

Ésteres borônicos

Hidroperóxidos quirais

Oxidação enantiosseletiva

Resolução cinética

Boronic esters

Chiral hydroperoxides

Enantioselective oxidation

Kinetic resolution