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A cell-based fascin bioassay identifies compounds with potential anti-metastasis or cognition-enhancing functions.Kraft, Robert, Kahn, Allon, Medina-Franco, José L., Orlowski, Mikayla L., Baynes, Cayla, López-Vallejo, Fabian, Barnard, Kobus, Maggiora, Gerald M., Restifo, Linda L. 01 1900 (has links)
A first-of-its-kind, proof-of-concept drug screen with implications for two unmet medical needs. / The actin-bundling protein fascin is a key mediator of tumor invasion and metastasis and its activity drives filopodia formation, cell-shape changes and cell migration. Small-molecule inhibitors of fascin block tumor metastasis in animal models. Conversely, fascin deficiency might underlie the pathogenesis of some developmental brain disorders. To identify fascin-pathway modulators we devised a cell-based assay for fascin function and used it in a bidirectional drug screen. The screen utilized cultured fascin-deficient mutant Drosophila neurons, whose neurite arbors manifest the 'filagree' phenotype. Taking a repurposing approach, we screened a library of 1040 known compounds, many of them FDA-approved drugs, for filagree modifiers. Based on scaffold distribution, molecular-fingerprint similarities, and chemical-space distribution, this library has high structural diversity, supporting its utility as a screening tool. We identified 34 fascin-pathway blockers (with potential anti-metastasis activity) and 48 fascin-pathway enhancers (with potential cognitive-enhancer activity). The structural diversity of the active compounds suggests multiple molecular targets. Comparisons of active and inactive compounds provided preliminary structure-activity relationship information. The screen also revealed diverse neurotoxic effects of other drugs, notably the 'beads-on-a-string' defect, which is induced solely by statins. Statin-induced neurotoxicity is enhanced by fascin deficiency. In summary, we provide evidence that primary neuron culture using a genetic model organism can be valuable for early-stage drug discovery and developmental neurotoxicity testing. Furthermore, we propose that, given an appropriate assay for target-pathway function, bidirectional screening for brain-development disorders and invasive cancers represents an efficient, multipurpose strategy for drug discovery.
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The role of alpha-synuclein oligomers in Parkinson's disease pathophysiology and biologyRoberts, Rosalind F. January 2015 (has links)
Accumulating evidence links oligomeric species of the protein alpha-synuclein to the neuronal death associated with Parkinson's disease. However, the direct detection of alpha-synuclein oligomers in post-mortem brain has been challenging and this has limited our understanding of their structure, distribution and effects in Parkinson's disease. The work presented in this thesis addresses two aspects of the role of alpha-synuclein oligomers in Parkinson's disease. Firstly, I describe the development of a novel technique, the alpha-synuclein proximity ligation assay (AS-PLA), which specifically detected alpha-synuclein oligomers in vitro and in post-mortem brain tissue. In a blinded study with post-mortem brain tissue from eight Parkinson's disease patients and eight controls, AS-PLA revealed widespread, previously unrecognised pathology in the form of extensive diffuse deposition of alpha-synuclein oligomers. Furthermore, AS-PLA preferentially detected early-stage, loosely compacted Parkinson's disease lesions such as pale bodies, whereas Lewy bodies, considered heavily compacted late lesions were only very exceptionally stained. The oligomeric species detected by AS-PLA displayed a unique, intermediate proteinase K resistance profile, suggesting the detection of a conformer that is different from both physiological pre-synaptic alpha-synuclein (proteinase K sensitive) and highly aggregated alpha-synuclein within Lewy bodies (proteinase K resistant). In addition, AS-PLA revealed the age-dependent accumulation of alpha-synuclein oligomers in the substantia nigra of a BAC transgenic mouse model of Parkinson's disease that overexpresses human wild-type alpha-synuclein, SNCA-OVX. Secondly, the detection of early pathology in Parkinson's disease brain tissue using AS-PLA suggests that oligomeric species of alpha-synuclein could represent a potential target for therapeutic intervention. Therefore, I undertook a screen to identify compounds that can prevent the formation of alpha-synuclein oligomers in vitro. Using bimolecular fluorescence complementation constructs, I identified nine compounds capable of reducing the fluorescence indicative of the formation of alpha-synuclein oligomers. Two of these compounds showed dose-dependent activity. Future work will confirm the hits in vitro before studying whether Parkinson's-like phenotypes in the SNCA-OVX mice can be ameliorated or reversed by treatment with the compounds.
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Cryptosporidium parvum: enhancing our understanding of its unique fatty acid metabolism and the elucidation of putative new inhibitorsFritzler, Jason Michael 10 October 2008 (has links)
Cryptosporidium parvum is widely known for outbreaks within the immunocompetent population, as well its sometimes excruciating effects as an opportunistic agent in AIDS patients. Our understanding of the biology and host-parasite interactions of this parasitic protist is increasing at a rapid rate due to recent molecular and genetic advances. The topic of our research is in the area of C. parvum fatty acid metabolism, which is highly streamlined in this parasite. In addition to a type I fatty acid synthase (CpFAS1), C. parvum also possesses an enormous type I polyketide synthase (CpPKS1). Because of the size of this megasynthase, functional characterization of the complete enzyme is not possible. We have isolated and characterized the loading unit of CpPKS1 which contains an acyl-[acyl carrier protein (ACP)] ligase (AL) and an ACP. This unit is responsible for the overall substrate selection and initiation of polyketide production. Our data show that CpPKS1 prefers long-chain fatty acids with the highest specificity for arachidic acid (C20). Thus, the final polyketide product could contain as many as 34 carbons. Additionally, C. parvum possesses only a single fatty acid elongase. This family of enzymes serves a mechanism similar to FAS, and many have been found to be involved in de novo fatty acid synthesis in other organisms. After expressing this membrane protein in human cells, we have determined that it too prefers long-chain fatty acyl-CoAs which undergo only one round of elongation. This is in contrast to members of this enzyme family in other organisms that can initiate de novo synthesis from two- or four-carbon fatty acids via several rounds of elongation. Our lab has previously characterized the unique acyl-CoA binding protein (CpACBP1) from C. parvum. Molecular and biochemical data suggested that this enzyme may serve as a viable drug target. We have screened a library of known (and somewhat common) compounds against CpACBP1, and have isolated several potential compounds to be further examined for their ability to inhibit the growth of C. parvum.
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Cryptosporidium parvum: enhancing our understanding of its unique fatty acid metabolism and the elucidation of putative new inhibitorsFritzler, Jason Michael 10 October 2008 (has links)
Cryptosporidium parvum is widely known for outbreaks within the immunocompetent population, as well its sometimes excruciating effects as an opportunistic agent in AIDS patients. Our understanding of the biology and host-parasite interactions of this parasitic protist is increasing at a rapid rate due to recent molecular and genetic advances. The topic of our research is in the area of C. parvum fatty acid metabolism, which is highly streamlined in this parasite. In addition to a type I fatty acid synthase (CpFAS1), C. parvum also possesses an enormous type I polyketide synthase (CpPKS1). Because of the size of this megasynthase, functional characterization of the complete enzyme is not possible. We have isolated and characterized the loading unit of CpPKS1 which contains an acyl-[acyl carrier protein (ACP)] ligase (AL) and an ACP. This unit is responsible for the overall substrate selection and initiation of polyketide production. Our data show that CpPKS1 prefers long-chain fatty acids with the highest specificity for arachidic acid (C20). Thus, the final polyketide product could contain as many as 34 carbons. Additionally, C. parvum possesses only a single fatty acid elongase. This family of enzymes serves a mechanism similar to FAS, and many have been found to be involved in de novo fatty acid synthesis in other organisms. After expressing this membrane protein in human cells, we have determined that it too prefers long-chain fatty acyl-CoAs which undergo only one round of elongation. This is in contrast to members of this enzyme family in other organisms that can initiate de novo synthesis from two- or four-carbon fatty acids via several rounds of elongation. Our lab has previously characterized the unique acyl-CoA binding protein (CpACBP1) from C. parvum. Molecular and biochemical data suggested that this enzyme may serve as a viable drug target. We have screened a library of known (and somewhat common) compounds against CpACBP1, and have isolated several potential compounds to be further examined for their ability to inhibit the growth of C. parvum.
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Fluorescence resonance energy transfer studies of protein interactionsMartin, Sarah Friede January 2008 (has links)
This thesis presents an investigation of fluorescence resonance energy transfer (FRET) as a reporting signal for protein-protein interactions. Quantitative optical assays to measure protein binding, conjugation and deconjugation are developed and results validated by conventional biochemical techniques. The optical techniques developed provide fast, cheap, quantitative and accurate alternatives to conventional methods. Fluorescent protein fluorophores ECFP and Venus-EYFP were chosen as they are a non-interfering FRET pair and provide an inexpensive and convenient cloning-based labelling method. The small ubiquitin-like modifier SUMO and the SUMOylation pathway leading to its conjugation to target proteins is investigated as a model system. These assays are hence particularly relevant to research on post-translational modification and ubiquitin systems. In protein-protein binding assays we utilise both steady-state and time-resolved FRET detection to measure the equilibrium binding constant of the well-characterised pair SUMO1 and Ubc9. An assay in multi-well plate format is also presented, which uniquely enables repeat measurements under varying conditions and under the addition of further substances. The multi-protein binding interactions of the SUMOylation pathway including RanBP2 are analysed in binding inhibition assays. Our results clarify the role of RanBP2: a covalent SUMO1-Ubc9 link is required for the formation of a trimeric complex, although mutual binding sites are present on all three proteins. Furthermore, the binding of SUMO1 and Ubc9 is disrupted by RanBP2, which may be an essential step in transferring SUMO1 to its target protein. A FRET-based kinetic study of this conjugation process to RanGAP1 is presented. An assay to monitor the deconjugation of SUMO1 by specific proteases is established using a doubly-tagged SUMO construct. This enables a quantitative analysis of protease and substrate specificity based on real-time kinetic data, a characterisation of crude cell extracts and a high-throughput screen for protease inhibitors using FRET. A screen of the National Cancer Institute (NIC) diversity set for SenP1 inhibition reveals nine suitable compounds, which are potential anti-cancer drugs. The results of two further projects, the study of protein-protein binding by measuring small refractive index changes and the autofluorescence of normal and neoplastic cervical tissue models are also presented. In the latter, principal component analysis was used to systematically identify emission regions of significant variation between samples, enabling discrimination between healthy and pre-cancerous tissue models.
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Biophysical and structural characterization of proteins implicated in glaucoma and Gaucher diseaseOrwig, Susan D. 24 August 2011 (has links)
The inherited form of primary open angle glaucoma, a disorder characterized by increased intraocular pressure and retina degeneration, is linked to mutations in the olfactomedin (OLF) domain of the myocilin gene. Disease-causing myocilin variants accumulate within trabecular meshwork cells instead of being secreted to the trabecular extracellular matrix thought to regulate aqueous humor flow and control intraocular pressure. Like other diseases of protein misfolding, we hypothesize myocilin toxicity originates from defects in protein biophysical properties. In this thesis, the first preparative recombinant high-yield expression and purification system for the C-terminal OLF domain of myocilin (myoc-OLF) is described. To determine the relative stability of wild-type (WT) and mutant OLF domains, a fluorescence thermal stability assay was adapted to provide the first direct evidence that mutated OLF is folded but less thermally stable than WT. In addition, mutant myocilin can be stabilized by chemical chaperones. Together, this work provides the first quantitative demonstration of compromised stability among identified OLF variants and placing myocilin glaucoma in the context of other complex diseases of protein misfolding.
Subsequent investigations into the biophysical properties of WT myoc-OLF provide insight into its structure and function. In particular, myoc-OLF is stable in the presence of glycosaminoglycans (GAGs), as well as over a wide pH range in buffers with functional groups reminiscent of such GAGs. Myoc-OLF contains significant â-sheet and â-turn secondary structure as revealed by circular dichroism analysis. At neutral pH, thermal melts indicate a highly cooperative transition with a melting temperature of ~55°C. A compact core structural domain of OLF was identified by limited proteolysis and consists of approximately residues 238-461, which retains the single disulfide bond and is as stable as the full myoc-OLF construct. This construct also is capable of generating 3D crystals for structure determination. This data, presented in Chapter 3, inform new testable hypotheses for interactions with specific trabecular extracellular matrix components.
To gain further insight into the biological function of myoc-OLF, a facile fluorescence chemical stability assay was designed to identify possible ligands and drug candidates. In the assay described in Chapter 4, the target protein is initially destabilized with a chemical denaturant and is tested for re-stabilization upon the addition of small molecules. The assay requires no prior knowledge of the structure and/or function of the target protein, and it is amendable to high-throughput screening. Application of the assay using a library of 1,280 compounds revealed 14 possible ligands and drug candidates for myoc-OLF that may also generate insights into myoc-OLF function.
Due to the high â-sheet content of monomeric myoc-OLF and presence of an aggregated species upon myoc-OLF purification, the ability of myoc-OLF to form amyloid fibrils was suspected and verified. The fibril forming region was confirmed to reside in the OLF domain of myocilin. Kinetic analyses of fibril formation reveal a self-propagating process common to amyloid. The presence of an aggregated species was confirmed in cells transfected with WT myocilin, but to a greater extent in cells transfected with P370L mutant myocilin. Both cell lines stained positive for amyloid. Taken together, these results provide further insights into the structure of myocilin and suggest a new hypothesis for glaucoma pathogenesis.
Finally, in a related study, small molecule drug candidates were investigated to treat acid â-glucosidase (GCase), the deficient lysosomal enzyme in Gaucher disease, another protein conformational disorder. Three new GCase active-site directed 3,4,5,6-tetrahydroxylazepane inhibitors were synthesized that exhibit half inhibitory concentrations (IC50) in the low millimolar to low micromolar range. Although the compounds thermally stabilize GCase at pH 7.4, only one of the synthesized analogs exhibits chaperoning activity under typical assay conditions. This successful pharmacological chaperone is also one in which GCase is in its proposed active conformation as revealed by X-ray crystallography. Probing the plasticity of the active-site of GCase offers additional insight into possible molecular determinants for an effective small molecule therapy for GD.
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Development of a Novel Pck-1: eGFP Reporter Zebrafish Line for the Discovery and Evaluation of Potential Anti-Diabetic DrugsHui, Wing 27 November 2013 (has links)
Overexpression of Phosphoenolpyruvate carboxykinase - cytosolic (PEPCK, encoded by Pck-1 gene) has been found to be associated with the prevalence of hyperglycemia in Type 2 Diabetes Mellitus (T2DM) patients. The Pck-1 enzyme catalyzes the rate limiting step in endogenous glucose production. The aims of this study are to develop a Pck-1:eGFP reporter zebrafish and validate it as a potential tool for the screening of novel anti-diabetic compounds. 3.6 kb zebrafish Pck-1 promoter fragment was cloned and a Pck-1:eGFP expression vector was constructed. After DNA microinjection, we generated Pck-1:eGFP reporter zebrafish with strong eGFP expression in developing liver. Validation studies confirmed that Pck-1:eGFP zebrafish embryos responded to treatment of glucose, cAMP and dexamethasone, metformin and rosiglitazone similarly to that of humans. This novel Pck-1:eGFP reporter fish line can serve as a tool for the screening and development of novel anti-diabetic drugs that may have potential in the treatment of T2DM.
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Development of a Novel Pck-1: eGFP Reporter Zebrafish Line for the Discovery and Evaluation of Potential Anti-Diabetic DrugsHui, Wing 27 November 2013 (has links)
Overexpression of Phosphoenolpyruvate carboxykinase - cytosolic (PEPCK, encoded by Pck-1 gene) has been found to be associated with the prevalence of hyperglycemia in Type 2 Diabetes Mellitus (T2DM) patients. The Pck-1 enzyme catalyzes the rate limiting step in endogenous glucose production. The aims of this study are to develop a Pck-1:eGFP reporter zebrafish and validate it as a potential tool for the screening of novel anti-diabetic compounds. 3.6 kb zebrafish Pck-1 promoter fragment was cloned and a Pck-1:eGFP expression vector was constructed. After DNA microinjection, we generated Pck-1:eGFP reporter zebrafish with strong eGFP expression in developing liver. Validation studies confirmed that Pck-1:eGFP zebrafish embryos responded to treatment of glucose, cAMP and dexamethasone, metformin and rosiglitazone similarly to that of humans. This novel Pck-1:eGFP reporter fish line can serve as a tool for the screening and development of novel anti-diabetic drugs that may have potential in the treatment of T2DM.
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Criblage d’inhibiteurs de l’interaction virus/hôte [LP]PxY/Nedd4 : une cible antivirale à large spectre / Development of a small compound inhibitor screening against Virus/Host [LP]PxY/Nedd4 interaction as broad spectrum antiviral drug targetAustin, Sisley 04 December 2015 (has links)
L’identification d’antiviraux à large spectre est un des défis majeurs de la rechercheactuelle en virologie. Une des stratégies les plus prometteuses consiste à cibler une interactionvirus/hôte conservée. Ainsi, avec la technique d’AlphaScreen® et le modèle d’interactionprotéine VI de l’Adénovirus (AdV)/Nedd4-2, nous avons réalisé un criblage biochimique àhaut débit contre l’interaction virus/hôte [LP]PxY/Nedd4, commune à différentes familles devirus. Nous avons trouvé des candidats inhibiteurs issus d’une banque de composés approuvéspar les agences de santé. Nous les avons testés, caractérisés et validé leur effet antiviral surdeux familles de virus totalement différentes. Ainsi, les composés C9 (Sulconazole) et C4(Flunarizine) que nous avons identifiés diminuent la réplication de l’AdV, un virus à ADNenveloppé et du virus de Marburg, un virus à ARN, non enveloppé de la famille desFiloviridae. Ces résultats ont permis de valider l’interaction [LP]PxY/Nedd4 comme unecible idéale d’un antiviral à large spectre et de proposer un repositionnement de ces moléculesC9 et C4 comme antiviraux potentiels. Nous avons également synthétisé de nouvellesmolécules analogues du composé C9 et démontré qu’elles étaient tout aussi efficaces que lecomposé lui-même sur la réplication de l’AdV. Ces résultats nous ont permis de présenter laclasse des dérivés imidazolés comme structure de base pour l’élaboration de nouveauxantiviraux, potentiellement à large spectre. / Broad-spectrum antiviral identification is considered as one of the major aims of theactual virology research and one strategy consists in targeting virus/host interaction. Using theAlphaScreen® technology and the adenoviral model protein VI/Nedd4-2, we performed highthroughputbiochemical screening targeting the [LP]PxY/Nedd4 interaction, a commoninteraction of different virus families. We identified candidate inhibitors from a librarycompound approved by health agencies. We tested, characterized and validated the antiviraleffect of those compounds on two very different virus families. Indeed, compounds C9(Sulconazole) and C4 (Flunarizine) decrease replication of the adenovirus, a DNA nonenvelopedvirus and the replication of the Marburg virus, an RNA enveloped virus from theFilovirus family. Taken together, those results permit us to validate the [LP]PxY/Nedd4interaction as good target for a broad spectrum antiviral and to propose the “repositioning” ofcompounds C4 and C9 as antivirals. Moreover, we have synthesized new analogues from C9showing similar effect on AdV replication compared to the original molecule (C9). Inconclusion, our work on developing new broad-spectrum antivirals highlights the possibilityto use imidazole derivatives as a new class of antiviral compounds.
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Tissue-specific gain of wild-type RTK levels combined with screen strategies identify new mechanisms of cell vulnerability in developmental and tumorigenic programsFan, Yannan 18 November 2016 (has links)
Pour étudier la capacité cellulaire à s’adapter aux changements de signalisation dépendante des RTKs, nous utilisons un modèle de souris où l’expression du RTK Met sauvage peut être accrue dans un tissu spécifique. La plupart des tissus se protègent contre cette expression anormale des RTK. Mais certains types cellulaires sont sensibles aux altérations des RTKs, c’est le cas du mésenchyme du membre pendant l’embryogenèse. En effet, l’expression de certains gènes du mésenchyme est modifiée et celui-ci n’est plus accessible aux myoblastes qui le colonisent, conduisant à des déficits des muscles du membre. Chez l’adulte une augmentation de l’expression de Met dans le foie (Alb-R26Met) perturbe l’homéostasie tissulaire, conduisant à la tumorigenèse. Pour identifier des gènes qui coopèrent avec les RTKs pendant l’initiation de la tumorigenèse, nous avons combiné les souris Alb-R26Met avec le système de mutagenèse Sleeping Beauty (SB) transposon. 285 gènes putatifs liés au cancer ont été identifiés. Certains sont des proto-oncogènes ou suppresseurs de tumeurs déjà connus, validant le système. D’autres gènes n’avaient, jusqu’à présent, jamais été associés à ce processus. 9 candidats ont été fonctionnellement validés. Pour identifier des signaux assurant le maintien de la tumeur, nous avons analysé le phosphokinome, testé l’efficacité de composés et identifié de nouvelles combinaisons de drogues qui agissent en synergie pour tuer les cellules cancéreuses dérivées de Alb-R26Met. En conclusion, ces travaux montrent qu’une approche génétique non-biaisée combinée à une approche génomique permet d’identifier de nouveaux mécanismes pertinents pour la biologie du cancer. / We explore the cell competence to deal with slight changes in RTK inputs during embryogenesis and tissue homeostasis using a mouse model in which wild-type RTK Met levels can be moderately enhanced in a tissue specific manner. Most tissues buffer enhanced RTK levels thus avoiding perturbation of developmental programs and tissue homeostasis. Nevertheless, certain cell types are vulnerable to RTK levels. During embryogenesis, the limb mesenchyme is sensitive to alterations of the spatial distribution of RTKs, as illustrated by gene expression changes and by loss of accessibility to incoming myoblasts, which lead to limb muscle defects. At adulthood, liver enhanced Met levels (Alb-R26Met) perturbs tissue homeostasis, leading to tumorigenesis. To uncover new genes that cooperate with RTKs during tumour initiation, we combined Alb-R26Met mice with the Sleeping Beauty (SB) transposon mutagenesis system. 285 putative cancer-related genes have been identified. Some correspond to known proto-oncogenes or tumour suppressors, thus validating the overall strategy we employed for cancer gene discovery. Others have not been previously linked to cancer. 9 new tumour suppressors have been functionally validated, demonstrating the validity of our screen strategy. To identify signals involved in tumour maintenance, we employed a phosphokinome-guided drug screen and identified new synergistic drugs deleterious for cancer cells modelled by the Alb-R26Met genetic setting. The overall strategy and outcomes strengthen the value of combining unbiased genetic and genomic approaches to identify new mechanisms relevant for cancer biology and new therapeutic interventions.
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