Selective inhibition of acetylcholinesterase 1 from disease-transmitting mosquitoes : design and development of new insecticides for vector control

Engdahl, Cecilia

January 2017

Acetylcholinesterase (AChE) is an essential enzyme with an evolutionary conserved function: to terminate nerve signaling by rapid hydrolysis of the neurotransmitter acetylcholine. AChE is an important target for insecticides. Vector control by the use of insecticide-based interventions is today the main strategy for controlling mosquito-borne diseases that affect millions of people each year. However, the efficiency of many insecticides is challenged by resistant mosquito populations, lack of selectivity and off-target toxicity of currently used compounds. New selective and resistance-breaking insecticides are needed for an efficient vector control also in the future. In the work presented in this thesis, we have combined structural biology, biochemistry and medicinal chemistry to characterize mosquito AChEs and to develop selective and resistance-breaking inhibitors of this essential enzyme from two disease-transmitting mosquitoes.We have identified small but important structural and functional differences between AChE from mosquitoes and AChE from vertebrates. The significance of these differences was emphasized by a high throughput screening campaign, which made it evident that the evolutionary distant AChEs display significant differences in their molecular recognition. These findings were exploited in the design of new inhibitors. Rationally designed and developed thiourea- and phenoxyacetamide-based non-covalent inhibitors displayed high potency on both wild type and insecticide insensitive AChE from mosquitoes. The best inhibitors showed over 100-fold stronger inhibition of mosquito than human AChE, and proved insecticide potential as they killed both adult and larvae mosquitoes.We show that mosquito and human AChE have different molecular recognition and that non-covalent selective inhibition of AChE from mosquitoes is possible. We also demonstrate that inhibitors can combine selectivity with sub-micromolar potency for insecticide resistant AChE.

acetylcholinesterase

non-covalent inhibitor

vector control

insecticide

mosquito

vector-borne disease

high throughput screening

rational design

Biochemistry and Molecular Biology

Biokemi och molekylärbiologi

Neuron-to-neuron propagation of neurodegenerative proteins; relation to degradative systems

Domert, Jakob

January 2017

Alzheimer’s disease (AD) and Parkinson’s disease (PD) are defined by neurodegeneration and accumulations of misfolded proteins that spread through the brain in a well characterized manner. In AD these accumulations consist mainly of β-amyloid (Aβ) and tau, while in PD, α-synuclein (α-syn) make up the characteristic lewy pathology.     The general aim of this thesis was to investigate mechanisms associated with neurotoxic peptide activity by Aβ, tau and α-syn in relation to cellular degradation and transfer with a cell-to-cell transfer model system.    We found that intercellular transfer of oligomeric Aβ occurs independently of isoform. However, the amount of transfer correlates with each isoforms ability to resist degradation or cellular clearance. The Aβ1-42 isoform showed particular resistance to clearance, which resulted in higher levels of cell-to-cell transfer of the isoform and lysosomal stress caused by accumulation.    As Aβ accumulations can inhibit the proteasomal degradation we investigated how reduced proteasomal degradation affected neuron-like cells. We found increased levels of phosphorylated tau protein, disturbed microtubule stability and impaired neuritic transport after reduced proteasomal activity. These changes was partly linked to c-Jun and ERK 1/2 kinase activity.    We could also show that α-syn transferred from cell-to-cell in our model system, with a higher degree of transfer for the larger oligomer and fibrillar species. Similar to Aβ, α-syn mainly colocalized with lysosomes, before and after transfer.     Lastly, we have developed our cell-to-cell transfer system into a model suitable for high throughput screening (HTS). The type of cells have been upgraded from SH-SY5Y cells to induced pluripotent stem cells (iPSCs), with a differentiation profile more similar to mature neurons. The next step will be screening a small molecular library for substances with inhibitory effect on cell-to-cell transfer of Aβ peptides.     The importance of the degradative systems in maintaining protein homeostasis and prevent toxic accumulations in general is well known. Our findings shows the importance of these systems for neurodegenerative diseases and also highlight the link between degradation and cell-to-cell transfer. To restore or enhance the degradative systems would be an interesting avenue to treat neurodegenerative diseases. Another way would be to inhibit the transfer of misfolded protein aggregates. By using the HTS model we developed, a candidate substance with good inhibitory effect on transfer can hopefully be found.

Cell-to-cell transfer

beta-amyloid

Alzheimer's disease

degradation

proteasome

alpha-synuclein

Parkinson's disease

high throughput screening model

Srovnání indukce a regulace autofagocytózy v proliferujících a senescentních nádorových buňkách / Srovnání indukce a regulace autofagocytózy v proliferujících a senescentních nádorových buňkách

Pešina, František

January 2014

Autophagy, senescence and apoptosis are tightly linked processes which together determine the fate of cells in response to various stresses. There is ample evidence supporting the notion that senescent cells are highly dependent on autophagy and this process is here much more intensive than in nonsenescent cells. Autophagy may to some extent compensate increased energetic and metabolic demands of senescent cells and also helps with removal of toxic products such as oxidized proteins, protein aggregates and damaged organelles resulting from an overloaded metabolism of some senescent cells. In addition, some studies reported the need of autophagy for the adoption of senescent phenotype. However, there are also studies with seemingly contradictory results claiming that increased autophagy prevents or delays cellular senescence. Relationship of autophagy to apoptosis is similarly ambivalent. Whereas intact autophagy is necessary for the cell, while slightly increased autophagy still has a rather positive impact, excessive autophagy may lead to degradation of critical components necessary for cell function and survival and can trigger one of the modes of programmed cell death. In the first part of this work, we focused on the analysis of autophagic response in senescent and proliferating pancreatic...

Novel approach for identification of biocatalysts by reverse omics techniques

Egelkamp, Richard

20 February 2019

No description available.

570

amidases

biocatalysts

functional genomics

genomics

high-throughput screening

metagenomics

metatranscriptomics

nitrilases

nitrile hydratases

transcriptomics

Biologie (PPN619462639)

Exploration de la biodiversité des Baeyer-Villiger monooxygénases et découverte d'activités originales sur les cétones α,β-insaturées / Exploration of the Baeyer-Villiger Monooxygenase diversty and discovering of new activities on α,β-unsaturated ketones

Reignier, Thomas

18 December 2014

Ce travail traite de l’exploration de la biodiversité des Baeyer-Villiger MonoOxygénases (BVMOs) : des enzymes utilisées en biocatalyse pour la production de lactones optiquement pures à partir de cétones. Pour mettre à bien cet objectif nous avons réalisé, en association avec le Génoscope d’Evry, une sélection de plusieurs centaines d’enzymes couvrant une forte diversité génétique. Après clonage et criblage à haut débit sur plus de vingt substrats différents nous avons obtenus plus de 90 nouvelles BVMOs. Avec ce résultat nous avons triplé le nombre de BVMOs connues dans la littérature. Dans un second temps nous avons étudié l’activité de certaines de ces nouvelles enzymes sur les cétones α,β-insaturées (ou enone), Ces substrats sont peu étudiés en biocatalyse et, lors de la réaction chimique, aboutissent à la formation de nombreux sous-produits. Deux enzymes d’O.batsensis et de P. lavamentivorans se sont révélées être actives aboutissant à la production d’ene-lactone et d’enol-lactone respectivement. La conversion de certaines enones chirales a abouti à des lactones présentant un fort excès énantiomérique.Nous avons ensuite étudié la régio-sélectivité de 35 enzymes issues du criblage sur une série de cétones aliphatiques acycliques. Alors que la formation de l’ester méthylique est très rare, nous avons obtenu des résultats très variés pour la formation de l’ester éthylique allant jusqu’à 80%. Le travail de thèse s’est terminé par le développement d’une cascade enzymatique sur la production d’ester à partir d’alcool secondaire. La cascade implique deux enzymes : une Alcool Déshydrogénase et une BVMO. La cascade est à la fois fonctionnelle et est très efficace. / -

Réaction de Baeyer-Villiger

Lactones insaturées

Enones

Criblage à haut débit

Enzymes

Baeyer-Villiger oxidation

Unsaturated lactones

High throughput screening

Enzymes

Enone

Development and Application of a Mass Spectrometry-Based Assay for the High Throughput Analysis of Protein-Ligand Binding

Hopper, Erin D.

January 2009

<p>Many of the biological roles of proteins are modulated through protein-ligand interactions, making proteins important targets for drug therapies and diagnostic imaging probes. The discovery of novel ligands for a protein of interest often relies on the use of high throughput screening (HTS) technologies designed to detect protein-ligand binding. The basis of one such technology is a recently reported mass spectrometry-based assay termed SUPREX (stability of unpurified proteins from rates of H/D exchange). SUPREX is a technique that uses H/D exchange and MALDI-mass spectrometry for the measurement of protein stabilities and protein-ligand binding affinities. The single-point SUPREX assay is an abbreviated form of SUPREX that is capable of detecting protein-ligand interactions in a high throughput manner by exploiting the change in protein stability that occurs upon ligand binding.</p><p>This work is focused on the development and application of high throughput SUPREX protocols for the detection of protein-ligand binding. The first step in this process was to explore the scope of SUPREX for the analysis of non-two-state proteins to determine whether this large subset of proteins would be amenable to SUPREX analyses. Studies conducted on two model proteins, Bcl-xL and alanine:glyoxylate aminotransferase, indicate that SUPREX can be used to detect and quantify the strength of protein-ligand binding interactions in non-two-state proteins.</p><p>The throughput and efficiency of a high throughput SUPREX protocol (i.e., single-point SUPREX) was also evaluated in this work. As part of this evaluation, cyclophilin A, a protein target of diagnostic and therapeutic significance, was screened against the 880-member Prestwick Chemical Library to identify novel ligands that might be useful as therapeutics or imaging agents for lung cancer. This screening not only established the analytical parameters of the assay, but it revealed a limitation of the technique: the efficiency of the assay is highly dependent on the precision of each mass measurement, which generally decreases as protein size increases. </p><p>To overcome this limitation and improve the efficiency and generality of the assay, a new SUPREX protocol was developed that incorporated a protease digestion step into the single-point SUPREX protocol. This new protocol was tested on two model proteins, cyclophilin A and alanine:glyoxylate aminotransferase, and was found to result in a significant improvement in the efficiency of the SUPREX assay in HTS applications. This body of work resulted in advancements in the use of SUPREX for high throughput applications and laid the groundwork for future HTS campaigns on target proteins of medical significance.</p> / Dissertation

Chemistry, Analytical

Biophysics, General

Chemistry, Biochemistry

H

D exchange

high throughput screening

MALDI

mass spectrometry

protein

ligand binding

thermodynamics

Small-Molecule Suppressors of Cytokine-Induced Beta-Cell Apoptosis

Chou, Danny Hung-Chieh

28 February 2013

Type-1 diabetes is caused by the autoimmune destruction of insulin-producing beta cells in the pancreas. Beta-cell apoptosis involves a complex set of signaling cascades initiated by \(interleukin-1\beta (IL-1\beta)\), \(interferon-\gamma (IFN-\gamma)\), and \(tumor necrosis factor-\alpha (TNF-\alpha)\). \(IL-1\beta\) and \(TNF-\alpha\) induce \(NF\kappa B\) expression, while \(IFN-\gamma\) induces STAT1 activation. These cytokines lead to a decrease of beta-cell function. The goal of this thesis is to identify small-molecule suppressors of cytokine-induced beta-cell apoptosis using high-throughput screening approach. Using the rat INS-1E beta-cell line, I developed an assay to measure cellular viability after 48 hours of cytokine treatment. I screened 29,760 compounds for their ability to suppress the negative effects of the cytokines. I identified several compounds to be suppressors of beta-cell apoptosis. These efforts led to the discovery of \(GSK-3\beta\) and HDAC3 as novel targets for suppressing beta-cell apoptosis. I also followed up on BRD0608, a novel suppressor that increased ATP levels and decreased caspase activity in the presence of cytokines. To follow up this compound, 35 analogs related to BRD0476 were synthesized using solid-phase synthesis and tested for their protective effects in the presence of cytokines. A structurally related analog, BRD0476, was found to be more potent and active in human islets, decreasing caspase activation and increasing insulin secretion after a 6-day treatment. I performed gene-expression profiling of INS-1E cells treated with the cytokine cocktail in the absence or presence of \(10\mu M\) BRD0476. Gene-set enrichment analysis revealed that the gene sets most significantly changed by BRD0476 involved cellular responses to \(IFN-\gamma\). I therefore assessed the effects of BRD0476 on STAT1 transcriptional activity. Cytokine treatment increased the reporter-gene luciferase activity, while co-treatment with BRD0476 reduced this activity significantly. To identify the intracellular target(s) of BRD0476, I collaborated with the Proteomics Platform in Broad Institute using SILAC (stable isotope labeling by amino acids in cell culture). SILAC is a mass spectrometry-based method to identify proteins that bind a small molecule attached to a bead. Deubiquitinase USP9X was pulled down by BRD0476. Knock-down of USP9X by siRNA phenocopied the protective effects of BRD0476. Binding assays were performed to identify interactions between BRD0476 and USP9X. / Chemistry and Chemical Biology

beta cells

cytokines

diversity-oriented synthesis

high-throughput screening

histone deacetylase inhibitors

small-molecule probes

chemistry

organic chemistry

cellular biology

The uses of supramolecular chemistry in synthetic methodology development

Shabbir, Shagufta Hasnain

24 February 2011

Enantioselective indicator displacement assays (eIDAs), was transitioned to a high-throughput screening protocols, for the rapid determination of concentration and enantioselectivity (ee) of chiral diols and α-hydroxycarboxylic acid. To improve the design of our previously established receptor based on o-(N,N-dialkylaminomethyl)arylboronate scaffolds for eIDAs. The rigidity of the receptor, which pertinent from the formation of an intramolecular N-B dative bond was investigated. o-(Pyrrolidinylmethyl)phenylboronic acid its complexes with bifunctional substrates such as catechol, [alpha]-hydroxyisobutyric acid, and hydrobenzoin was studied in detail by x-ray crystallography and ¹¹B NMR. Our structural study predicts that the formation of an N-B dative bond, and/or solvolysis to afford a tetrahedral boronate anion, depends on the solvent and the complexing substrate present. To simplify the operation of eIDAs, we introduced an analytical method, which utilize a dual-chamber quartz cuvette, which reduces the number of spectroscopic measurements from two to one and introduced artificial neural networks (ANNs) which simplifies data analysis. In a second example a high-throughtput screening protocol for hydrobenzoin was developed. The method involves the sequential utilization of what we define herein as screening, training, and analysis plates. Several enantioselective boronic-acid based receptors were screened using 96-well plates, both for their ability to discriminate the enantiomers of hydrobenzoin and to find their optimal pairing with indicators resulting in the largest optical responses. The best receptor/indicator combination was then used to train an ANN to determine concentration and ee. To prove the practicality of the developed protocol, analysis plates were created containing true unknown samples of hydrobenzoin generated by established Sharpless asymmetric dihydroxylation reactions, and the best ligand was correctly identified. The system was extended to pattern recognition for the rapid determination of identity, concentration, and ee of chiral vicinal diols. A diverse enantioselective sensor array was generated with three chiral boronic acid receptors and pH indicators. The optical response produced by the sensor array, was analyzed by two pattern recognition algorithms: principal component analysis (PCA) and ANNs. The PCA plot demonstrated good chemoselective and enantioselective separation of the analytes, and ANNs was used to accurately determine the concentration and ee of five unknown samples. / text

Supramolecular chemistry

Artificial neural networks

Catalyst discovery

High-throughput screening

Principal component analysis

Large-scale identification of functional genes regulating cancer cell migration and metastasis using the self-assembled cell microarray

Zhang, Hanshuo

20 September 2013

Metastasis is one of the critical hallmarks of malignancy tumor and the principal cause of death in patients with cancer. Cell migration is the basic and essential step in cancer metastasis process. To systematically investigate functional genes regulating cell migration and cancer metastasis on large scale, we developed a novel on-chip method, SAMcell (self-assembled cell microarray). This method was demonstrated to be particularly suitable for loss-of-function high-throughput screening because of its unique advantages. The first application of SAMcell was to screen human genome miRNAs, considering that more and more miRNAs had been proved to govern cancer metastasis. We found that over 20 % of miRNAs have migratory regulation activity in diverse cell types, indicating a general involvement of miRNAs in migratory regulation. Through triple-round screenings, we discovered miR-23b, which is down-regulated in human colon cancer samples, potently mediates the multiple steps of metastasis, including cell motility, cell growth and cell survival. In parallel, the second application of SAMcell was to screen human genome kinase genes, considering that more and more kinase genes had become successful diagnostic marker or drug targets. We found over 11% migratory kinase genes, suggesting the important role of kinase group in metastasis regulation. Through both functional screening and bioinformatics analysis, we discovered and validated 6 prospective metastasis-related kinase genes, which can be new potential targets in cancer therapy. These findings allow the understanding of regulation mechanism in human cancer progression, especially metastasis and provide the new insight into the biological and therapeutical importance of miRNAs or kinases in cancer.

Cancer metastasis

High-throughput screening

SAMcell

Functional genes

Cancer

Metastasis

Cancer Genetic aspects

Cell migration

Functional genomics

Versatilidade enzimática = triagem, promiscuidade e inibição de enzimas / Enzymatic versatility : screening, promiscuity and inhibition of enzymes

Costa, Bruna Zucoloto da, 1987-

18 August 2018

Orientador: Anita Jocelyne Marsaioli / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Química / Made available in DSpace on 2018-08-18T09:33:31Z (GMT). No. of bitstreams: 1 Costa_BrunaZucolotoda_M.pdf: 3730198 bytes, checksum: aee2e21aa8a8998b409bff4636299519 (MD5) Previous issue date: 2011 / Resumo: A versatilidade enzimática foi abordada nesta dissertação desde a triagem de microorganismos para a seleção de biocatalisadores adequados, e estudos de interações intermoleculares presentes em sistemas complexos de promiscuidade enzimática, até avaliação da inibição de enzimas relacionadas a ocorrência de diversas enfermidades. As triagens enzimáticas de micro-organismos isolados de água de drenagem de mina de prospecção de cobre permitiram a identificação de hidrolases e monoxigenases, sendo que as cepas de bactérias que apresentaram as melhores atividades oxidativas mostraram-se promissoras para oxidação de diversas classes de sulfetos, em ensaios de biocatálise convencional. A atuação promíscua de lipases foi avaliada frente a oxidação de cetonas cíclicas em meio orgânico, e as interações intermoleculares deste sistema foram estudadas por RMN, onde foi observado características de um sistema organizado em micelas reversas. A partir destas evidências, foi proposto que a condição necessária para a reação enzimática é o confinamento da enzima num ambiente aquoso restrito limitado por uma barreira molecular de ácido graxo. Finalmente a inibição da atividade enzimática de proteína tirosina fosfatases foi avaliada com implementação de uma metodologia fluorimétrica rápida e eficiente. Logo, este trabalho apresentou uma visão ampla no campo da enzimologia com o emprego de biocatalisadores, sejam eles enzimas isoladas ou células íntegras, em estudos relacionados a aspectos químicos, bioquímicos e terapêuticos das enzimas / Abstract: In this thesis the enzymatic versatility was evaluated in microorganisms selecting specific biocatalysts, in studies of intermolecular interactions of complex systems focusing enzyme promiscuity, and last in enzyme inhibition related to the occurrence of various diseases. The enzymatic screening of microorganisms isolated from copper mine water drainage led to the identification of hydrolases and monooxygenases, and bacterial strains with relevant oxidative activities were further investigated in larger scale oxidation of several sulfides. The promiscuous activity of lipases was evaluated in organic medium catalyzing the oxidation of cyclic ketones. The supramolecular interactions involved in these reactions were studied by NMR, revealing the presence of reverse micelles in a highly organized system. Therefore confinement of the enzyme in a restricted aqueous environment limited by a narrow molecular barrier of fatty acids in an organic medium is the necessary condition for this enzymatic reaction to occur. Finally, inhibition of enzymatic activity of protein tyrosine phosphatases was assessed with the implementation of a quick and efficient fluorimetric method. The data presented herewith provide a broad vision of enzyme application, as isolated enzymes or whole cells, in studies addressing chemical, biochemical and therapeutic issues / Mestrado / Quimica Organica / Mestre em Química

Triagem de alto desempenho

Promiscuidade enzimática

Ressonância magnética nuclear

Inibição de fosfatases

High-throughput screening

Enzymatic promiscuity

NMR

Phosphatase inhibition