Développement et validation du logiciel S4MPLE : application au docking moléculaire et à l'optimisation de fragments assistée par ordinateur dans le cadre du fragment-based drug design

Hoffer, Laurent

03 June 2013

Cette thèse a pour but de développer le pendant in silico des étapes clés du Fragment-Based Drug Design (FBDD), et ce dans le cadre plus général du développement de l'outil S4MPLE. Le FBDD génère des ligands drug-like à partir de petites molécules (fragments). Après une étape de validation de S4MPLE et de sa fonction d'énergie, un recentrage autour du FBDD est réalisé, à travers le docking puis l'optimisation virtuelle de fragments par growing ou linking (G/L). Cette stratégie reposesur 1) la création d'une chimiothèque focalisée en connectant un ou deux fragment(s) avec des linkers pré-générés, et 2) l'échantillonnage avec S4MPLE des composés chimères dans le site avec des contraintes. Des simulations de G/L plus ou moins ambitieuses (site flexible, ajout de H2O libres) permettent de valider cette approche avec des études rétrospectives basées sur des données expérimentales. La dernière phase de la thèse a consisté à appliquer ce protocole in silico à un projet de l'entreprise.

Fragment-Based Drug Design

Échantillonnage conformationnel

Docking

Algorithme génétique

Champ de force

Design, synthesis and testing of β-strand mimics as protease inhibitors

Aitken, Steven Geoffrey

January 2006

Chapter 1 gives background information on proteases and discusses the concept of protease inhibition as a therapeutic strategy for humans. It introduces the key concept that conformation defines biological activity. It also outlines how proteases almost universally bind their substrate/inhibitors in an extended β-strand conformation. The use of calpain as a prototype protease for the testing of β-strand mimics synthesised later in the thesis is also discussed. Chapter 2 describes how molecular modeling was used to rationalise the structure based activity relationships (SAR) of known calpain inhibitors. Molecular modeling was then used to successfully design a number of acyclic β-strand mimics. The synthesis and testing of eight such inhibitors is described. The most potent β-strand mimic prepared was 2.13. This was determined to have an IC₅₀ of 30 nM against calpain II. Chapter 3 outlines the history and application of ring closing metathesis (RCM) to the synthesis of cyclic compounds. The attempted synthesis of an eight membered cyclic nitrogen to nitrogen conformationally constrained dipeptide is described. The synthesis of a conformationally constrained β-amino acid calpain inhibitor (3.73) is also described. A novel calpain inhibitor motif was designed in Chapter 4. On the basis of this an in-silico combinatorial library of two hundred and eighty eight possible β-strand templates was prepared. Conformational analysis of this library was performed and from this a number of excellent β-strand templates were identified and selected for synthesis. The preparation of ten β-strand templates is described. New microwave irradiation methodology was developed to achieve this. vii The formation of a six-membered catalyst deactivating chelate is also proposed to explain why some dienes fail to undergo RCM. Two methods to circumvent the formation of such a chelate are outlined. The addition of Lewis acid chloro-dicyclohexyl borane to the RCM reaction mixture and chain length alteration are investigated. Chapter 5 describes the design of macrocyclic β-strand mimics using induced fit molecular modelling. The physicochemical properties of these were calculated in-silico. From this analysis a number of Tyr-XX-Gly based and Tyr-XX-Cys based macrocyclic calpain inhibitors were selected for synthesis. The preparation and testing of these are described. In the Tyr-XX-Gly macrocyclic system a number of variables were investigated and numerous SAR implications concluded. Aldehyde 5.14 was identified as the best electrophilic warhead macrocyclic calpain inhibitor with an IC₅₀ against calpain II of 27 nM. The best non-electrophilic warhead macrocycle (5.13) had an IC₅₀ against calpain II of 704 nM. Chapter 6 describes synthetic optimisation for the preparation of calpain inhibitors 2.13, 5.14 and 5.17. Multi-gram quantities of each were prepared. Aldehydes 2.13 and 5.14 were evaluated as anti-cataract agents using in-vivo cataract sheep model. Both of these β-strand mimics were demonstrated to retard cataract development. Macrocycle 5.14 was found to be the most effective, decreasing the rate of cataract development between forty four and forty nine per cent relative to control. Chapter 7 outlines the attempted development of RCM methodology for the chiral synthesis of α-α disubstituted amino acid lactams. In addition, methodology for the stereoselective incorporation of a C-N constrained β-amino acid carbocycle into a peptide or peptidomimetic is described.

Beta-strand

Peptidomimetics

drug design

calpain inhibitors

protease inhibitors

computational chemistry

molecular modeling

ADME

Cataract

anti-cataract drugs

Beta-strand mimic

SAR

structure activity relationships

RCM

ring closing metathesis

Conception, synthèse et dévelopement d'inhibiteurs du répresseur transcriptionnel mycobactérien ETHR selon une approche par fragments. Une nouvelle approche dans la lutte contre la tuberculose / Use of fragment-based approaches for the design, synthesis and development of new ethr inhibitors as a new strategy to fight tuberculosis

Villemagne, Baptiste

28 September 2012

Avec plus d’un million et demi de morts chaque année, la tuberculose reste aujourd’hui la seconde cause de mortalité liée à un agent infectieux. De plus l’organisation mondiale de la santé (OMS) a estimé en 2011 qu’un tiers de la population mondiale était porteuse du bacille Mycobacterium tuberculosis responsable de la maladie. Depuis la fin des années 1980, une recrudescence du nombre de cas de tuberculose est observée à l’échelle mondiale. Cette recrudescence est due à la fois à l’apparition de souches résistantes, mais également à l’épidémie de VIH qui est un facteur de prédisposition au déclenchement de la maladie.En 2000, le répresseur transcriptionnel mycobactérien EthR a été identifié comme étant un régulateur clé dans la bioactivation de l’éthionamide (ETH), un antituberculeux utilisé pour le traitement de seconde intention. En 2009, l’inhibition de ce répresseur par le développement de molécules « drug-like » a permis de potentialiser l’activité de l’éthionamide d’un facteur 3 chez la souris infectée et a permis de valider cette cible pour une future approche thérapeutique.Ce travail repose sur la découverte et l’optimisation de nouveaux inhibiteurs de ce répresseur transcriptionnel mycobactérien, à partir d’une petite molécule appelée « fragment » qui a été cocristallisée avec la protéine. Par la combinaison d’un criblage in silico, d’un criblage in vitro des touches identifiées, de l’étude des structures radiocristallographiques des complexes ligands/protéines et de la chimie médicinale, le développement de trois approches complémentaires dites « fragmentgrowing », « fragment-merging » et « fragment-linking » a permis de développer des composés présentant de fortes activités. Ces résultats permettront très prochainement de sélectionner une nouvelle molécule issue de ce travail dans la perspective de nouveaux essais sur le modèle murin. / Tuberculosis (TB) remains the leading cause of death due to a single infective agent with more than 1.5 million people killed each year. In 2011, the world health organization (WHO) estimated that one third of the world’s population is infected with Mycobacterium tuberculosis, the pathogen responsible for the disease. This phenomenon may be due to an explosive escalation of TB incidence that occurred in the 1980s due to the emergence of both resistant strains and HIV epidemic.In 2000, EthR, a mycobacterial transcriptional repressor, was identified as a key modulator of ethionamide (ETH) bioactivation. ETH is one of the main second-line drugs used to treat drug resistant strains. In 2009, it was shown that co-administration of ETH and drug-like inhibitors of EthR was able to boost ETH activity threefold in a mouse-model of TB-infection, thus validating the target for a new therapeutic strategy.This work deals with the discovery and optimisation of new EthR inhibitors, based on a small molecule, called a “fragment”, co-crystallized with the protein. We combined in silico screening, in vitro evaluation of the hit compounds, study of co-crystal structures and medicinal chemistry to develop three complementary approaches called “fragment growing”, “fragment merging” and “fragment linking” that led to the discovery of very potent inhibitors. Based on these results, we are currently selecting a potential candidate for new in vivo experiments.

Inhibiteur d'EthR

Criblage in silico

Approche par fragments

Tuberculose

Mycobacterium tuberculosis

Éthionamide

Potentialisation

Répresseur transcriptionnel

Conception rationnelle

FBDD

Tuberculosis

Mycobacterium tuberculosis,

EthR

Ethionamide

Boosting strategy

Transcriptional repressor,

Fragment-based approaches

In silico screening,

Structure-based drug design

Triagem virtual de inibidores da enzima di-hidrofolato redutase de Schistosoma mansoni (SmDHFR) / Virtual screening of dihydrofolate reductase Schistosoma mansoni (SmDHFR) enzyme inhibitors.

João Paulo Machado Martins

17 August 2017

A esquistossomose é uma das principais causas de morbidade em países Tropicais e Subtropicais, gerando graves consequências socioeconômicas. Atualmente, os fármacos disponíveis para o tratamento da desta doença são praziquantel e oxamniquina, porém relatos de baixa susceptibilidade do parasita a esses medicamentos sugerem a necessidade de novas estratégias terapêuticas para o tratamento da doença. Todavia, existe pouco interesse da indústria farmacêutica no desenvolvimento de fármacos contra doenças tropicais e negligenciadas, entre as quais se encontra a esquistossomose. Devido a estes fatores, o presente trabalho teve por objetivo geral utilizar ferramentas computacionais para identificar inibidores da SmDHFR candidatos a novos fármacos. Avaliou-se as características exclusivas para a proteína de S. mansoni por meio de uma análise das sequências FASTA em comparação com a DHFR de outros organismos. A fim de garantir a ação seletiva dessas moléculas frente a enzima do parasita, os campos moleculares de interação seletivos para SmDHFR foram calculados e empregados na construção do modelo farmacofórico, o qual foi utilizado na triagem virtual de inibidores de SmDHFR. Os estudos computacionais realizados nos permitiram a seleção de 20 moléculas com uma boa complementariedade com o modelo farmacofórico gerado e com potencial para serem inibidores de SmDHFR. / Schistosomiasis is one of morbidity\'s main causes in tropical and subtropical countries, which leads to serious socioeconomic consequences. Praziquantel and oxamniquina are the drugs currently available for treating this disease, but reports points that the parasite has been resistant to both drugs, which suggests the need for new therapeutic strategies for the treatment of this disease. However, there is little interest in the pharmaceutical industry in developing drugs against neglected tropical diseases, including schistosomiasis. Due to these factors, the present work has the general objective to use computational tools to identify SmDHFR inhibitors which could be good candidates for developing new drugs. Evaluation of the exclusive characteristics of the S. mansoni protein were performed by FASTA sequence analyses in comparison to DHFR from other organisms. In order to guarantee the selective action of these molecules against the parasite enzyme, the molecular interaction fields selective for SmDHFR were calculated and used in the construction of the pharmacophoric model, which was further used in the virtual screening of SmDHFR inhibitors. Computational studies were performed and those led us to 20 molecules with a good complementarity with the pharmacophoric model that was previously generated and with potential to be SmDHFR inhibitors.

Acoplamento Molecular

Di-hidrofolato Redutase

GRID/PCA

Schistosoma mansoni

Dihydrofolate Reductase

GRID / PCA

Molecular coupling

Schistosoma mansoni

Structure Based Drug Design (SBDD)

Novel Therapy for Nicotine Addiction in Alcohol Dependent Rats

Stennett, Bethany Ann

01 January 2013

The co-dependence of nicotine and alcohol addiction occurs at high rates, complicates treatment, and is often associated with significant morbidity and mortality. Treatment options of alcohol and tobacco co-dependence are limited. Currently, there are drugs available for nicotine dependence or alcohol dependence. However, there are no therapeutic drugs available on the market for the co-dependence of nicotine and alcohol. Therefore, and important opportunity of new therapeutic options and drug development has presented itself. NT69L, a non-selective neurotensin (NT) agonist, provides a potential novel therapy for nicotine addiction in alcoholics by interacting with the common neurotransmitter circuits supporting the rewarding process for both nicotine and alcohol. Considering the behavioral effects of NT69L in attenuating nicotine self-administration in rats and alcohol consumption in mice, the present study was designed to assess the effects of NT69L as a new drug. NT69L was used in the treatment of nicotine addiction in an animal model of alcoholics and in attempts to attenuate withdrawal signs associated with nicotine and alcohol dependence. Wistar rats pre-exposed to alcohol vapor or air were allowed to self-infuse nicotine (0.03mg/kg/infusion) or saline. When the rats reached a stable level of responding, the effect of pretreatment with NT69L (1mg/kg i.p.) on the reinforcing effect of nicotine was determined. Animals self-infused nicotine at a significantly (p < .05) higher rate compared to saline in both air and alcohol vapor exposed groups. Acute pretreatment with a single injection of NT69L significantly (p < .05) reduced nicotine self-infusion in both the alcohol vapor and the air exposed groups for 5 days post-injection. Additionally, NT69L attenuated the alcohol- and nicotine-induced withdrawal signs associated with the discontinuation of alcohol and nicotine administration. Neurotensin agonist, NT69L, may represent a potential novel therapy to treat the co-addiction of alcohol and nicotine.

Thesis

University of North Florida

UNF

addiction

NT69L

nicotine

alcohol

Amino Acids, Peptides, and Proteins

Pharmaceutics and Drug Design

Substance Abuse and Addiction

Novos inibidores de LMW-PTP e CDC25B : planejamento baseado em fragmentos moleculares com uso de métodos in silico, ensaios de inibição e cristalografia de proteínas / New inhibitors of LMW-PTP and CDC25B : fragment-based drug design using in silico methods, inhibition assays and protein crystallography

Fonseca, Emanuella Maria Barreto, 1984-

27 August 2018

Orientadores: Ricardo Aparicio, Munir Salomão Skaf / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Química / Made available in DSpace on 2018-08-27T01:45:39Z (GMT). No. of bitstreams: 1 Fonseca_EmanuellaMariaBarreto_D.pdf: 13119998 bytes, checksum: 0b4e5f9502ec2b9b4e347bcd68c9e261 (MD5) Previous issue date: 2015 / Resumo: O câncer é uma doença cuja incidência e prevalência atinge proporções alarmantes, estabelecendo-se, hoje, como um problema mundial de saúde pública. A fosforilação de proteínas é um evento dinâmico e reversível, governado pela atividade oposta de proteínas tirosina quinases e proteínas tirosina fosfatases. Níveis elevados das fosfatases LMW-PTP e CDC25B foram observados em uma ampla variedade de tumores e, assim, estas foram selecionadas como alvo para o desenvolvimento de novos inibidores. Utilizando métodos in silico, uma coleção, contendo aproximadamente 500 mil fragmentos, foi montada a partir de um banco de compostos comerciais. Para cada enzima, esses fragmentos foram submetidos a distintos protocolos de docagem molecular, através dos quais 19 pequenas moléculas foram selecionadas e adquiridas comercialmente. Os resultados computacionais foram validados por ensaios de inibição enzimática, tendo sido identificados novos esqueletos moleculares capazes de inibir mais do que 50% da atividade enzimática, obtendo-se valores de eficiência do ligante de até 0,33 kcal mol-1 por átomo diferente de hidrogênio. Paralelamente, uma série de compostos derivados do ácido benzenofosfônico foi ensaiada frente à LMW-PTP após estudos de docagem, seguindo-se estudos cristalográficos que levaram à obtenção de duas estruturas inéditas: uma com a proteína na forma apo e outra de um complexo LMW-PTP:inibidor. Além do sítio ativo já conhecido, observou-se um segundo sítio cristalográfico cuja potencial função biológica, se confirmada, poderia abrir novas possibilidades para modular a atividade da LMW-PTP, perspectiva que demanda investigação / Abstract: Cancer is a disease whose incidence and prevalence have reached alarming proportions, emerging today as a major public health problem. Protein phosphorylation is a dynamic and reversible event, governed by the opposite activities of protein tyrosine kinases and protein tyrosine phosphatases. High levels of the phosphatases LMW-PTP and CDC25B have been observed in a wide variety of tumors and, for this reason, they have been selected as targets for inhibitor development. Using in silico methods, a collection of approximately 500,000 fragments was assembled from a database of commercial compounds. For each enzyme, these fragments were subjected to different molecular docking protocols, through which 19 small molecules have been selected and purchased. The computational results were validated by enzyme inhibition assays, with the identification of new molecular scaffolds capable of inhibiting in more than 50% the enzyme activity, resulting in ligand efficiency values up to 0.33 kcal mol-1 per non-H atom. Similarly, a number of compounds derived from benzenophosphonic acid was tested against the LMW-PTP after docking studies, followed by crystallographic studies which resulted in two new structures: one of the apo protein and another of a complex LMW-PTP:inhibitor. In addition to the previously described active site, a second crystallographic site was identified, whose potential biological function, if confirmed, might open new possibilities to modulate LMW-PTP activity, in a perspective which demands further investigation. / Doutorado / Físico-Química / Doutora em Ciências

LMW-PTP

CDC25B

Química farmacêutica

Planejamento racional de fármacos

Cristalografia de proteínas

LMW-PTP

CDC25B

Pharmaceutical chemistry

Rational drug design

Protein crystallography

In silico određivanje fizičko-hemijskih, farmakokinetskih i toksikoloških parametara i in vitro ispitivanje antiproliferativne aktivnosti novosintetisanih derivata N-sukcinimida / In silico physico-chemical, pharmacokinetic and toxicologic parameters determination and in vitro antiproliferative activity evaluation of newly synthesized succinimide derivatives

Ćurčić Jelena

30 July 2020

<p>Sukcinimidi su jedinjenja koja pokazuju vi&scaron;estruke farmakolo&scaron;ke efekte uključujući i antiproliferativnu aktivnost, zahvaljujući prisustvu farmakofore sa dva hidrofobna regiona i dva regiona bogata elektronima. Savremeni dizajn lekova ima za cilj da se modifikacijama u strukturi (promena vrste, položaja i orijentacije supstituenata) i in silico računarskim metodama predvide i optimizuju farmakokinetske osobine i bezbednosni profil kandidata za lek. U ranoj fazi razvoja lekova se koriste postojeće baze podataka o molekulskim, farmakokinetskim i toksikolo&scaron;kim parametrima već ispitanih jedinjenja i pomoću matematičkih modela i algoritama predviđaju se osobine novih molekula, elimini&scaron;u se neodgovarajući kandidati i postiže se u&scaron;teda u vremenu i materijalnim sredstvima. Da se ispitaju fizičko-hemijske karakteristike 11 novosintetisanih metil-etil-N-aril-sukcinimida na osnovu strukture, primenom različitih softverskih paketa; da se na osnovu strukture odrede farmakokinetski i toksikolo&scaron;ki parametri, primenom različitih softverskih paketa; da se ispita retenciono pona&scaron;anje, odnosno odrede retencione konstante za svako jedinjenje primenom visokoefikasne hromatografije na tankom sloju (HP-TLC) i ispita mogućnost primene retencionih konstanti kao mere lipofilnosti ispitivanih jedinjenja; da se ispita antiproliferativna aktivnost na odabranim kulturama ćelija karcinoma i na zdravim ćelijama fibroblasta pluća; da se analizom molekulskog dokinga ustanovi vezivanje za estrogene receptore. Ispitano je retenciono pona&scaron;anje 11 novosintetisanih derivata sukcinimida primenom visokoefikasne hromatografije na tankom sloju (HP-TLC) obrnute faze uz primenu dvokomponentne sme&scaron;e vode i organskog rastvarača (metanola, acetonitrila ili acetona), sa odgovarajućim zapreminskim udelom organskog rastvarača kao mobilne faze. Iz razvijenih hromatograma su izračunate retencione konstante RM0 i S. Logaritam podeonog koeficijenta (logP) određen je in silico, kori&scaron;ćenjem različitih računarskih programa. In silico su određene fizičko-hemijske karakteristike, farmakokinetski parametri, toksikolo&scaron;ki parametri, akvatična toksičnosti i afinitet vezivanja za estrogene receptore. Izračunate su vrednosti afiniteta za 4 vrste receptora (G-protein spregnuti receptori, jonski kanali, inhibitori kinaza, nuklearni receptori). Antiproliferativna aktivnost ispitivanih derivata sukcinimida određena je primenom kolorimetrijskog testa sa tetrazolijum solima (MTT testa) na komercijalnim kulturama ćelija (MRC-5, A549, HeLa, MDA-MB-231, MCF-7, HT-29) i izračunate su IC50 vrednosti. Urađena je i doking analiza sukcinimida prema ERA (estrogen receptor alfa) i ERB (estrogen receptor beta) i dobijene su vrednosti energije formiranja kompleksa sa posmatranim receptorima (MolDock Score). Statistički najznačajnije linearne korelacije dobijene su između eksperimentalno određenih hromatografskih parametara (RM0 i S) i in silico parametara lipofilnosti MlogP i ClogP. Ispitivanjem uticaja promene RM0 i S na farmakokinetske karakteristike dobijeni su rezultati koji pokazuju paraboličnu zavisnost konstante apsorpcije (Ka) i procenta vezivanja za proteine plazme (PPB) od posmatranih retencionih konstanti, dok je zavisnost sa volumenom distribucije (Vd) i sposobno&scaron;ću prolaska kroz krvno-moždanu barijeru (logBBB) bila linearnog tipa. Toksičnost ispitivanih jedinjenja, procenjena na osnovu in silico dobijenih LD50 vrednosti, nije bila vi&scaron;a od toksičnosti već registrovanih lekova sa strukturom sukcinimida, i dala je parabolične zavisnosti u odnosu na RM0 i S vrednosti. Eksperimentalno nijedno od ispitivanih jedinjenja nije pokazalo aktivnost u odnosu na zdrave fibroblaste pluća. Najznačajniju antiproliferativnu aktivnost (najniže IC50) su pokazala jedinjenja 6 i 7 u odnosu na ćelije linije MCF-7 i jedinjenje 11 u odnosu na A549 ćelijsku liniju. Doking analiza je pokazala niže energije formiranja kompleksa sa ERA, u odnosu na ERB. Eksperimentalno određeni parametri RM0 i S se mogu koristiti kao alternativne i pouzdane mere lipofilnosti analiziranih sukcinimida. Ispitivana jedinjenja pokazuju povoljne fizičko-hemijske karakteristike, predviđene in silico metodama i povoljne farmakokinetske karakteristike: male vrednosti konstante apsorpcije, umeren volumen distribucije, povoljan afinitet vezivanja za proteine plazme, favorizovan prolazak kroz krvno-moždanu barijeru za lipofilnija jedinjenja. Procenjuje se da sva ispitivana jedinjenja, izuzev derivata sa &ndash;CN supstituentom, imaju zahtevani nizak stepen toksičnosti. Po antiproliferativnoj aktivnosti u odnosu na ćelije ER-zavisnog karcinoma dojke (MCF-7) izdvajaju se jedinjenja sa metil i nitro supstituentom u para položaju. Na osnovu malih energija formiranja kompleksa sa ERA, koji su eksprimirani na ćelijama MCF-7 linije, pretpostavlja se da bi mehanizam njihovog delovanja delimično mogao biti obja&scaron;njen uticajem na ERA, ali su potrebna dodatna istraživanja na tom polju.</p> / <p>Succinimides have exhibited various pharmaceutical effects including antiproliferative activity due to an important structural fragment (a pharmacophore) presented in form of two hydrophobic regions and two electron-rich centers. Current development of new drugs involves modifications in structure (type, position and orientation of substituents) and usage of in silico computational programs to predict and optimize pharmacokinetic and safety profile of drug candidates. In early phase of drug development, databases regarding the molecular, pharmacokinetic and toxicological parameters of already tested compounds are used, mathematical models and algorithms are applied for predicting the properties of new molecules and inadequate candidates are eliminated saving time and resources. Determination of physico-chemical properties of the analyzed methyl-ethyl-N-phenilsuccinimide derivatives by software packages; virtual pharmacokinetic and toxicology screening; investigation of retention behavior of the compounds by the reversed-phase HPTLC analysis and calculation of retention constants and their correlation with lipophilicity; in vitro evaluation of antiproliferative activity toward five carcinoma cell lines and normal fetal lung cell line; molecular behavior study on target estrogen receptors by molecular docking and correlation of antiproliferative activity toward ER+ breast carcinoma cell lines and in silico estrogen receptor affinity binding. Retention behavior of 11 newly synthesized succinimide derivatives was determined by reversed phase high performance thin layer chromatography (RP HPTLC) with the application of two-component mixtures water - organic solvent (methanol, acetonitrile or acetone) with adequate volume fractions of the organic modifier. After chromatographic development RM0 and S parameters were calculated. The logarithm of partition coefficient, logP for the analyzed compounds were calculated by different softwares. Physico-chemical properties, pharmacokinetic and toxicological parameters, aquatic toxicity and relative affinity to estrogen receptors were predicted in silico. The affinity toward 4 types of receptors (G-proteine coupled receptors, ion channels, kinase inhibitors, nuclear receptors) were calculated as well. Standard MTT assay was applied to evaluate cytotoxic activities of the analyzed succinimides after cells were exposed. Antiproliferative activity were investigated toward commercial MRC-5, A549, HeLa, MDA-MB-231, MCF-7, HT-29 cell lines and IC50 values were calculated for each compound. MolDock Score that represents energy of binding to estrogen alfa and estrogen beta receptors was determined by molecular docking. Statistically significant linear correlations were determined between the chromatographic retention constants (RM0 and S) and calculated logP, and the best two were obtained in correlation of retention constants with MlogP and ClogP. The examination of RM0 and S influence on pharmacokinetics indicated parabolic dependence of the absorption constant (Ka) and plasma protein binding predictor (PPB) from the observed constants while the volume of distribution (Vd) and the ability to cross the brain blood barrier (logBBB) had linear association with the retention parameters. The toxicity of the analysed compounds evaluated in silico as LD50 on rodents was lower in comparison with the drugs with succinimide structure that are on the market and had parabolic correlation with the RM0 and S values. The experiments indicated that none of the compounds examined had cytotoxic activity toward the healthy lung fibroblast cells. The results of the in vitro assay shown that none of the investigated compounds demonstrated antiproliferative activity toward fetal lung cells. The most potent antiproliferative agents were compounds 6 and 7 toward MCF-7 cell line, and compound 11 toward A549 cell line. Molecular docking shown lower energy for binding to ERA in comparison to ERB.</p>

A CNS-Active siRNA Chemical Scaffold for the Treatment of Neurodegenerative Diseases

Alterman, Julia F.

13 May 2019

Small interfering RNAs (siRNAs) are a promising class of drugs for treating genetically-defined diseases. Therapeutic siRNAs enable specific modulation of gene expression, but require chemical architecture that facilitates efficient in vivodelivery. siRNAs are informational drugs, therefore specificity for a target gene is defined by nucleotide sequence. Thus, developing a chemical scaffold that efficiently delivers siRNA to a particular tissue provides an opportunity to target any disease-associated gene in that tissue. The goal of this project was to develop a chemical scaffold that supports efficient siRNA delivery to the brain for the treatment of neurodegenerative diseases, specifically Huntington’s disease (HD). HD is an autosomal dominant neurodegenerative disorder that affects 3 out of every 100,000 people worldwide. This disorder is caused by an expansion of CAG repeats in the huntingtin gene that results in significant atrophy in the striatum and cortex of the brain. Silencing of the huntingtin gene is considered a viable treatment option for HD. This project: 1) identified a hyper-functional sequence for siRNA targeting the huntingtin gene, 2) developed a fully chemically modified architecture for the siRNA sequence, and 3) identified a new structure for siRNA central nervous system (CNS) delivery—Divalent-siRNA (Di-siRNA). Di-siRNAs, which are composed of two fully chemically-stabilized, phosphorothioate-containing siRNAs connected by a linker, support potent and sustained gene modulation in the CNS of mice and non-human primates. In mice, Di-siRNAs induced potent silencing of huntingtin mRNA and protein throughout the brain one month after a single intracerebroventricular injection. Silencing persisted for at least six months, with the degree of gene silencing correlating to guide strand tissue accumulation levels. In Cynomolgus macaques, a bolus injection exhibited significant distribution and robust silencing throughout the brain and spinal cord without detectable toxicity. This new siRNA scaffold opens the CNS for RNAi-based gene modulation, creating a path towards developing treatments for genetically-defined neurological disorders.

RNAi

siRNA

Huntington's disease

neurodegenerative disease

brain

delivery

Biotechnology

Chemical and Pharmacologic Phenomena

Medical Biotechnology

Medical Neurobiology

Medicinal Chemistry and Pharmaceutics

Neurosciences

Other Neuroscience and Neurobiology

Pharmaceutics and Drug Design

Translational Medical Research

Cyclopropanes to spirocycles : a study of Versatile B‒N Motifs

Siddiqui, Saher Hasan

09 1900

Les dérivés cyclopropanoïques sont des composés importants dans plusieurs domaines tels que la synthèse organique, la chimie médicinale et la science des matériaux. La synthèse asymétrique des dérivés cyclopropanoïques s'est de plus en plus concentrée sur la synthèse stéréocontrolée de cyclopropanes polysubstitutés qui arborent toute une gamme de substituants distincts. Ces méthodes permettent d’accéder à des synthèses divergentes pour préparer des composés pharmaceutiques comportant cette sous-unité. De plus, l'ouverture facile de ce cycle très tendu en fait une bonne cible pour étudier l'activation de la liaison C‒C. C’est pourquoi les cyclopropanes sont parmi les composés les plus attrayants et les plus diversifiés en synthèse organique. La synthèse divergente de dérivés cyclopropanoïques repose sur l'utilisation de précurseurs stables mais réactifs. L'une des réactions pour former des liaisons C‒C les plus couramment utilisées dans la fonctionnalisation à un stade avancé, est la réaction de couplage croisé de Suzuki-Miyaura. C'est l'une des raisons pour lesquelles les borocyclopropanes sont devenus des précurseurs synthétiques attrayants pour la fonctionnalisation et diversification des molécules complexes. L’accès à de telles molécules faciliterait la préparation de molécules cyclopropanoïques de structures diversifiées. Il est difficile de préparer des borocyclopropanes de manière énantiosélective. Dans cette thèse, une cyclopropanation énantiosélective d'acides boroniques protégés dérivés d'alcools allyliques a été réalisée via la réaction de cyclopropanation asymétrique en présence du ligand chiral de type dioxaborolane. Le développement de cette méthodologie a nécessité une modification de la décomplexation oxydative existante du dioxaborolane via son complexe dérivé de la diéthanolamine. Le protocole est maintenant applicable aux dérivés boronates qui incluent des groupements fonctionnels qui sont incompatibles avec les bases. Les borocyclopropanes tétracoordonnés obtenus permettent également la formation de liaisons C‒C et ont démontré une stabilité améliorée par rapport à leurs dérivés tricoordonnés. Une étude plus approfondie sur des complexes cyclopropylméthylamine-boranes (CAB) a démontré que ces derniers pouvaient conduire aux amine-boranes spirocycliques (SCAB). Ces SCAB ont été obtenus grâce à une cascade d'activation des CABs en utilisant le bis(trifluorométhanesulfonimide) (Tf2NH) comme initiateur. L'ouverture du cycle des CAB représente la première conversion des cyclopropanes en spirocycles contenant à la fois un N-spirocentre et un spiro amine-borane. Les amine-boranes ont démontré une activité pharmacologique telle que des propriétés anticancéreuses, anti-inflammatoires et anti-ostéoporotiques. L'incorporation de spirocycles dans un motif augmente le caractère sp3 et la chiralité inhérente. Les SCAB rendent alors des candidats attrayants pour la conception de médicaments. La réaction de SCAB avec de Tf2NH en quantités stoechiométriques a donné un complexe SCAB•NTf2 qui est capable de réduire les fonctions cétone, aldéhyde, imine, nitrobenzène, nitrosobenzène, anthracène, indole et aryl méthyl éther. Le complexe SCAB•NTf2 est également capable de réduire le diphénylacétylène de manière Z-sélective en cis-stilbène. Des études spectroscopiques approfondies ont donné plus d'informations sur la structure de SCAB•NTf2 et nous ont permis de proposer un mécanisme de réduction des groupements fonctionnels ci-dessus. Les études spectroscopiques (RMN, IR et Raman) ont également révélé l'implication d'une liaison α-C‒H au bore dans une liaison hydrogène hypsochromique « improper hydrogen bond » avec [Tf2N]-. L'hyperconjugaison avec l’atome de bore, un acide de Lewis, est proposée, ce qui rend la liaison C‒H acide et donc suffisamment polarisée pour agir comme un donneur de pont hydrogène. / Cyclopropane derivatives are incredibly versatile building blocks used in organic synthesis, medicinal chemistry, and materials science. The asymmetric synthesis of cyclopropane derivatives has increasingly focused on achieving polysubstituted cyclopropanes with a range of distinct substituents and their use in divergent syntheses to access pharmaceutical compounds. Moreover, the ring-opening potential of the cyclopropane ring, due to its inherent strain, makes it a facile target for C‒C bond activation and one of the most attractive and diverse cycloalkanes in organic synthesis. Divergent synthesis of cyclopropanes relies on stable pre-installed handles on cyclopropanes that can be activated readily. One of the most common C‒C bond formation approaches used in late-stage functionalization is the Suzuki-Miyaura cross-coupling reaction. As a result, borocyclopropanes have become attractive synthetic building blocks for their use in late-stage functionalization. Methods for the enantioselective synthesis of borocyclopropanes are scarce. In this thesis, the first enantioselective cyclopropanation of an allylic alcohol bearing a tetracoordinate boronate has been achieved via the Charette dioxaborolane-mediated enantioselective cyclopropanation reaction. The development of our method required modification of the existing oxidative decomplexation of dioxaborolane via diethanolamine. The protocol has now been expanded to include boronates and base-sensitive functionalities. The tetracoordinate borocyclopropane obtained was also shown to undergo C‒C bond formation and demonstrated enhanced stability compared to its tricoordinate boronate derivative. Further investigation of boron tethered cyclopropanes led to the discovery of the unique transformation of cyclopropane amine-boranes (CABs) to spirocyclic amine-boranes (SCABs). SCABs were obtained through a cascade activation of CAB via bis(trifluoromethane)sulfonimide (Tf2NH). The ring-opening of CABs represents the first conversion of cyclopropanes to spirocycles containing an N-spirocenter and furthermore an amine-borane spirocore. Amine-boranes have shown pharmacological activity such as anti-cancer, anti-inflammatory, and anti-osteoporotic properties. Incorporating spirocycles into a motif increases sp3 character and inherent chirality, rendering SCABs as attractive candidates for drug design. The reaction of SCAB with stoichiometric amounts of Tf2NH resulted in a SCAB•NTf2 complex that was found to be able to reduce ketone, aldehyde, imine, nitrobenzene, nitrosobenzene, anthracene, and indole functionalities as well as demethylate aryl methyl ethers. The SCAB•NTf2 complex was also capable of reducing diphenylacetylene in a Z-selective manner to cis-stilbene. In-depth spectroscopic studies revealed the structure of SCAB•NTf2 and a mechanism for the reduction of the above functionalities is proposed. The spectroscopic studies (NMR, IR and Raman) revealed the involvement of an α-C‒H bond to boron in improper hydrogen bonding with [Tf2N]-. Hyperconjugation to the Lewis acidic boron is proposed to make the C‒H bond acidic and therefore polarized enough to act as a hydrogen bond donor.

Simmons-Smith Cyclopropanation

Borocyclopropanes

Cyclopropanes

Amine-Boranes

Spirocycles

N-Spirocentre

Conception de Médicament

Agent Réducteur

Liaison Hydrogène

Liaison Hydrogène Hypsochromique

N-Spirocenter

Drug Design

Reducing Agent

Hydrogen Bonding

Improper Hydrogen Bonding

Cellular and Computational Evaluation of the Structural Pharmacology of Delta Opioid Receptors

Yazan J Meqbil (14210360)

05 December 2022

<p>G-protein coupled receptors (GPCRs) are membrane proteins that constitute ~30% of the FDA-approved drug targets. Opioid receptors are a subtype of GPCRs with four different receptor types: delta, kappa, mu, and nociception opioid receptors. Opioids such as morphine have been used for thousands of years and are deemed the most effective method for treating pain. However, opioids can have detrimental effects if used illicitly or over an extended period of time. Intriguingly, most of the clinically used opioids act on the mu opioid receptor (µOR). Hence, efforts in recent decades have focused on other opioid receptors to treat pain and other disorders. The delta opioid receptor (δOR) is one of four opioid receptors expressed in the central and peripheral nervous system. The δOR has attracted much attention as a potential target for a multitude of diseases and disorders including substance and alcohol use disorders, ischemia, migraine, and neurodegenerative diseases. However, to date, no δOR agonists, or drugs that act directly at the δOR, have been successful as clinical candidates. Nonetheless, the therapeutic potential of the δOR necessitates the targeting its pharmacologically. In this dissertation, I highlight peptide-based modulation as well as the identification of novel agonists at the δOR. I report research findings in the context of biased agonism at δOR, which is a hypothesized cellular signaling mechanism with potential therapeutic benefits. The focus on this work is the molecular determinants of biased agonism, which were investigated using a combination of cellular and computational approaches.  </p>

Basic pharmacology

Biomolecular modelling and design

Proteins and peptides

Computational chemistry

structure-based drug design (SBDD)

Opioid Receptors Signaling

Hit identification

Molecular modeling