Global ETD Search

41	Etude structure-fonction d'une fucosyltransférase (FucTA) de Arabidopsis thaliana. Both, Peter 29 October 2009 (has links) (PDF) Ce travail cherche à apporter un éclairage sur les relations séquence-structure-fonction des alpha1,3/4-fucosyltransférases, avec un accent particulier sur les core alpha1,3-fucosyltransférases des plantes. La fucosylation de type Core alpha1,3 est une caractéristique des oligosaccharides N-liés des plantes et invertébrés, avec une fonction biologique qui n'est pas encore élucidée. L'activité Core alpha1,3-fucosyltransférase est responsable d'allergies alimentaires, au pollen, et aux insectes chez l'homme. Dans le cadre de ce travail sont présentés des résultats de caractérisation biochimique (effet de cations divalents sur l'activité, Km de substrat donneur), des expériences de troncation des différents domaines (ex: suppression du domaine C-terminal spécifique aux core alpha1,3-fucosyltransférases des plantes), et de mutagenèse dirigée, en utilisant comme protéine modèle, la core 1,3-fucosyltransferase A (FucTA) d'Arabidopsis thaliana qui a été exprimée sous forme recombinante chez Pichia pastoris. Ces expériences ont été dictées sur la base de nos résultats d'analyses bioinformatiques des séquences de alpha1,3/4-fucosyltransférases et de la modélisation par homologie du domaine de liaison au nucléotide-sucre de l'enzyme FucTA. La mutagenèse des résidus clé identifiés par cette approche a permis de confirmer l'importance de certains acides aminés dans le mécanisme catalytique. Enfin la protéine FucTA étant elle-même glycosylée quand elle est produite chez P. pastoris, nous avons étudié l'impact de cette glycosylation sur la production et l'activité de la protéine, par des expériences de mutagenèse, de Western blotting et de spectrométrie de masse. Core alpha-1 3-fucosyltransferases N-glycans Allergénique Mutagenèse Bioinformatique Modélisation moléculaire Arabidopsis Glycosyltransferase
42	Mechanism of action of antipsychotic drugs: focus on the nucleus accumbens and the prefrontal cortex : an experimental study / Marcus, Monica M., January 2005 (has links) Diss. (sammanfattning) Stockholm : Karolinska institutet, 2005. / Härtill 5 uppsatser.
43	Oxidative stress-stimulated vascular calcification Byon, Chang Hyun. January 2009 (has links) (PDF) Thesis (Ph.D.)--University of Alabama at Birmingham, 2009. / Title from PDF title page (viewed on July 12, 2010). Includes bibliographical references.
44	Mechanisms Contributing to Transcriptional Regulation and Chromatin Remodeling of the Bone Specific Osteocalcin Gene Gutierrez Gallegos, Soraya Elisa 20 November 2002 (has links) Activation of tissue-specific genes is a tightly controlled process that normally involves the combined action of several transcription factors and transcriptional co-regulators. The bone-specific osteoca1cin gene (OC) has been used as a prototype to study both tissue-specific and hormonal responsiveness. In this study we have examined the role of Runx2, VDR and C/EBP factors in the regulation of OC gene transcription. Contributions of the Runx and VDRE motifs to OC promoter activity were addressed by introducing point mutations within the context of the rat (-1.1 kb) osteocalcin promoter fused to a CAT-reporter gene. The functional significance of these mutations was assayed following transient transfection and after genomic integration in ROS 17/2.8 osteoblastic cell lines. Furthermore, we tested the effect of these mutations on the chromatin organization of the OC promoter. Our data show that all three Runx sites are required for maximal activation of the OC promoter and that the distal sites contribute significantly to the basal activity. Strikingly, mutation of the three Runx sites abrogates responsiveness of the OC promoter to vitamin D; this loss is also observed when only the Runx sites flanking the VDRE are mutated. Chromatin changes that result in the appearance of DNase I hypersensitive sites during activation of the OC gene are well documented. Mutation of the three Runx sites results in altered chromatin structure as reflected by absence of DNase I hypersensitive sites at the vitamin D response element and over the proximal, tissue-specific basal promoter. These data are consistent with the critical role of Runx2 in osteoblast maturation and bone development. Mutation of the VDRE resulted in a complete loss of vitamin D responsiveness; however, this mutant promoter exhibited increased basal activity. The two DNase I hypersensitive sites characteristic of the transcriptionally active OC gene in osteoblastics cells were not altered upon mutation of the VDRE element, although restriction enzyme accessibility in the proximal promoter region was decreased. We also found an increased level of histone H3 acetylation at the VDRE mutant promoter in comparison to the endogenous gene. Thus binding of VDR to OC promoter is required to achieve a normal transcriptional regulation and chromatin structure of the OC gene. Although Runx2 is considered a master gene for bone development and osteoblast differentiation, it is noteworthy that osteoblast-specific transcription of the rat OC promoter occurs even in the absence of Runx sites. Therefore, other transcription factor(s) should be able to drive OC expression. We characterized a C/EBP enhancer element in the proximal promoter of the rat osteoca1cin gene that resides in close proximity to a Runx element, essential for tissue-specific activation. We find that C/EBPβ or δ and Runx2 factors interact together in a synergistic manner to enhance OC transcription in cell culture systems. Mutational analysis demonstrated that this synergism is mediated through the C/EBP responsive element in the OC promoter and requires a direct interaction between Runx2 and C/EBPβ or δ. Taken together, our findings strongly support a mechanism in which combinatorial interaction of Runx2, VDR, C/EBPβ or δ and probably other transcription factors are needed for regulating OC expression. In this process Runx factors not only act as simple transcriptional trans activators but also by facilitating modifications in promoter architecture and maintaining an active conformation of the target gene promoter. Bone Development Transcription Genetic Transcription Factors Chromatin Osteoblasts Osteocalcin CCAAT-Enhancer-Binding Proteins Core Binding Factor Alpha 1 Subunit Cells Genetic Phenomena Polycyclic Compounds Tissues
45	Regulation of Cell Growth and Differentiation within the Context of Nuclear Architecture by the Runx2 Transcription Factor: a Dissertation Young, Daniel W 20 September 2005 (has links) The Runx family of transcription factors performs an essential role in animal development by controlling gene expression programs that mediate cell proliferation, growth and differentiation. The work described in this thesis is concerned with understanding mechanisms by which Runx proteins support this program of gene expression within the architectural context of the mammalian cell nucleus. Multiple aspects of nuclear architecture are influenced by Runx2 proteins including sequence-specific DNA binding at gene regulatory regions, organization of promoter chromatin structure, and higher-order compartmentalization of proteins in nuclear foci. This work provides evidence for several functional activities of Runx2 in relation to architectural parameters of gene. expression for the control of cell growth and differentiation. First, the coordination of SWI/SNF mediated chromatin alterations by Runx2 proteins is found to be a critical component of osteoblast differentiation for skeletal development. Several chromatin modifying enzymes and signaling factors interact with the developmentally essential Runx2 C-terminus. A patent-pending microscopic image analysis strategy invented as part of this thesis work - called intranuclear informatics - has contributed to defining the C-terminal portion of Runx2 as a molecular determinant for the nuclear organization of Runx2 foci and directly links Runx2 function with its organization in the nucleus. Intranuclear informatics also led to the discovery that nuclear organization of Runx2 foci is equivalently restored in progeny cells following mitotic division - a natural perturbation in nuclear structure and function. Additional microscopic studies revealed the sequential and selective reorganization of transcriptional regulators and RNA processing factors during progression of cell division to render progeny cells equivalently competent to support Runx2 mediated gene expression. Molecular studies provide evidence that the Runx proteins have an active role in retaining phenotype by interacting with target gene promoters through sequence-specific DNA binding during cell division to support lineage-specific control of transcriptional programs in progeny cells. Immunolocalization of Runx2 foci on mitotic chromosome spreads revealed several large foci with pairwise symmetry on sister chromatids; these foci co-localize with the RNA polymerase I transcription factor, Upstream Binding Factor (UBFl) at nucleolar organizing regions. A series of experiments were carried out to reveal that Runx2 interacts directly with ribosomal DNA loci in a cell cycle dependent manner; that Runx2 is localized to UBF foci within nucleoli during interphase; that Runx2 attenuates rRNA synthesis; and that this repression of ribosomal gene expression by Runx2 is associated with cell growth inhibition and induction of osteoblast-specific gene expression. This thesis has identified multiple novel mechanisms by which Runx2 proteins function within the hierarchy of nuclear architecture to control cell proliferation, growth and differentiation. Transcription Factors Cell Differentiation Gene Expression Regulation DNA-Binding Proteins Core Binding Factor Alpha 1 Subunit Chromatin Assembly and Disassembly Computational Biology Amino Acids, Peptides, and Proteins Cells Genetic Phenomena
46	Polimorfismo do gene SPi2 na obstrução recorrente das vias aéreas e na doença inflamatória das vias aéreas em cavalos puro sangue de corrida / SPI2 Gene polimorphism in recurrent airway obstruction and inflammatory airway disease in thoroughbred horses Silva, Aline Correa da 02 September 2008 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Recurrent airway obstruction (RAO) and inflammatory airway disease (IAD) show high prevalence and are economically important in equine athletes. RAO is considered a multifactorial disease due to genetic and environmental components in their patophysiology. The aim of this study was to determine the presence of polymorphism at exons 2, 3, 4 and 5 of the SPi2 gene and a possible association between them and ORA or IAD on 51 thoroughbred horses through single-strand conformational polymorphism (SSCP). Exons 2, 3 and 4 of the Spi2 gene showed no polymorphism. On exon 5, 3 alleles and 6 genotypes were identified. Frequency of allele A (0.6388) and genotype AA (0.3888) were higher in horses affected by RAO but no association was found between any polymorphism and horses with RAO or IAD. / A obstrução recorrente das vias aéreas (ORA) e a doença inflamatória das vias aéreas (DIVA) são doenças de alta prevalência e economicamente importantes em cavalos atletas. A ORA é considerada uma enfermidade multifatorial por apresentar componentes ambientais e genéticos em sua fiosiopatologia. O presente trabalho teve por objetivo determinar a presença de polimorfismos nos éxons 2, 3, 4 e 5 do gene SPi2 e verificar uma possível associação destes com a ORA e/ou DIVA em 51 cavalos Puro Sangue de Corrida através da técnica de polimorfismo conformacional de fita simples (SSCP). Os éxons 2, 3 e 4 não apresentaram polimorfismo. No éxon 5 do gene Spi2 foram identificados três alelos e seis genótipos. Apesar do alelo A e o genótipo AA apresentarem freqüência (0,6388 e 0,3888, respectivamente) mais elevada nos animais com ORA, não houve associação entre os polimorfismos observados e ORA ou DIVA. Cavalo Doença respiratória SSCP Alfa-1-antitripsina Serpina Horse Respiratory disease SSCP Alpha-1-antitrypsin Serpine
47	Characterization of Higher-order Chromatin Structure in Bone Differentiation and Breast Cancer: A Dissertation Barutcu, Ahmet Rasim 11 February 2016 (has links) Higher-order genome organization is important for the regulation of gene expression by bringing different cis-regulatory elements and promoters in proximity. The establishment and maintenance of long-range chromatin interactions occur in response to cellular and environmental cues with the binding of transcription factors and chromatin modifiers. Understanding the organization of the nucleus in differentiation and cancer has been a long standing challenge and is still not well-understood. In this thesis, I explore the dynamic changes in the higher-order chromatin structure in bone differentiation and breast cancer. First, we show dynamic chromatin contact between a distal regulatory element and the promoter of Runx2 gene, which encodes the Runtrelated transcription factor 2 (RUNX2) that is essential for bone development. Next, via using a genome-wide approach, we show that breast cancer cells have altered long-range chromatin contacts among small, gene-rich chromosomes and at telomeres when compared with mammary epithelial cells. Furthermore, we assess the changes in nuclear structure and gene expression of breast cancer cells following Runt-related transcription factor 1 (RUNX1) deficiency, an event frequently observed in breast cancer. Finally, I present the role of the central ATPase subunit of the SWI/SNF complex, SMARCA4 (BRG1), in mediating nuclear structure and gene expression. Taken together, the research presented in this thesis reveals novel insight and paradigm for the dynamic changes in disease and differentiation, as well as uncovers previously unidentified roles for two chromatin regulatory proteins, RUNX1 and SMARCA4. Cell Differentiation Bone Development Breast Neoplasms Chromatin Core Binding Factor Alpha 1 Subunit Transcription Factors Dissertations, UMMS Cancer Biology Cell Biology Genetics and Genomics Neoplasms
48	Small Angle Scattering Of Large Protein Units Under Osmotic Stress Palacio, Luis A. 05 1900 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Large protein molecules are abundant in biological cells but are very difficult to study in physiological conditions due to molecular disorder. For large proteins, most structural information is obtained in crystalline states which can be achieved in certain conditions at very low temperature. X-ray and neutron crystallography methods can then be used for determination of crystalline structures at atomic level. However, in solution at room or physiological temperatures such highly resolved descriptions cannot be obtained except in very few cases. Scattering methods that can be used to study this type of structures at room temperature include small-angle x-ray and neutron scattering. These methods are used here to study two distinct proteins that are both classified as glycoproteins, which are a large class of proteins with diverse biological functions. In this study, two specific plasma glycoproteins were used: Fibrinogen (340 kDa) and Alpha 1-Antitrypsin or A1AT (52 kDa). These proteins have been chosen based on the fact that they have a propensity to form very large molecular aggregates due to their tendency to polymerize. One goal of this project is to show that for such complex structures, a combination of scattering methods that include SAXS, SANS, and DLS can address important structural and interaction questions despite the fact that atomic resolution cannot be obtained as in crystallography. A1AT protein has been shown to have protective roles of lung cells against emphysema, while fibrinogen is a major factor in the blood clotting process. A systematic approach to study these proteins interactions with lipid membranes and other proteins, using contrast-matching small-angle neutron scattering (SANS), small angle x-ray scattering (SAXS) and dynamic light scattering (DLS), is presented here. A series of structural reference points for each protein in solution were determined by performing measurements under osmotic stress controlled by the addition of polyethylene glycol-1,500 MW (PEG 1500) in the samples. Osmotic pressure changes the free energy of the molecular mixture and has consequences on the structure and the interaction of molecular aggregates. In particular, the measured radius of gyration (Rg) for A1AT shows a sharp structural transition when the concentration of PEG 1500 is between 33 wt% and 36 wt%. Similarly, a significant structural change was observed for fibrinogen when the concentration of PEG 1500 was above 40 wt%. This analysis is applied to a study of A1AT interacting with lipid membranes and to a study of fibrinogen polymerization in the presence of the enzyme thrombin, which catalyzes the formation of blood clots. The experimental approach presented here and the applications to specific questions show that an appropriate combination of scattering methods can produce useful information on the behavior and the interactions of large protein systems in physiological conditions despite the lower resolution compared to crystallography. Small Angle X-Ray Scattering Small Angle Neutron Scattering Protein Osmotic Stress Lipids Polyethylene glycol alpha-1 antitrypsin fibrinogen thrombin blood clot
49	Développement et validation de modèles in silico pour évaluer la variation de clairance hépatique des médicaments fortement liés aux protéines plasmatiques Bteich, Michel 11 1900 (has links) La prédiction des paramètres pharmacocinétiques/toxicocinétiques (PK/TK), tels que la clairance intrinsèque (CLint) et la clairance hépatique (CLh) des médicaments, demeure un défi majeur en modélisation quantitative. Selon « l’hypothèse du médicament libre », seul le médicament libre peut traverser la membrane plasmique et la CLh de ce médicament est calculée en fonction de sa fraction libre (fup). Néanmoins, la captation hépatique facilitée par l’albumine (ALB) représente clairement une violation de « l’hypothèse du médicament libre ». Cette captation hépatique se base sur la possibilité que le complexe ALB-médicament puisse assurer un apport supplémentaire en médicament aux hépatocytes. Ainsi, cela pourrait expliquer en grande partie les sous-prédictions observées de CLh. Par ailleurs, certains médicaments peuvent se lier fortement à plusieurs protéines plasmatiques telles que l’ALB et l’alpha-1-glycoprotéine acide (AGP). Ainsi, la forte liaison d’un même médicament à l’ALB, à l’AGP, ou aux deux, pourrait avoir des répercussions bien distinctes sur la prédiction de ces paramètres PK/TK. Cependant, aucune étude n’a été faite pour simuler la différence entre leurs effets. L’objectif principal de cette thèse est donc d’évaluer (avec plus d’exactitude et de précision), pour une série de médicaments, en condition in vivo (ou in situ), ces répercussions en présence des deux protéines plasmatiques, conjointement ou séparément. En outre, il est indispensable de vérifier si une approche générique en modélisation peut être appliquée. Cette thèse est répartie en trois objectifs spécifiques. Le premier est de proposer un arbre décisionnel pour faciliter la sélection des approches prédictives appropriées de CLhin vivo pour des médicaments ayant des caractéristiques différentes. Le second est d’évaluer les répercussions de fortes liaisons aux deux protéines plasmatiques ALB et AGP sur la CLh de deux xénobiotiques choisis (perampanel (PER) et fluoxétine (FLU)) ; ces médicaments ont de fortes affinités pour les deux protéines et un métabolisme exclusif (ou prédominant) dans le foie. Et, le dernier est de développer et valider un nouveau modèle prédictif de CLh pour les xénobiotiques ayant le potentiel de se lier fortement dans le plasma, à l’ALB ainsi qu’à l’AGP. Dans un premier temps, des données in vitro rapportées chez l’humain ont été colligées pour 19 médicaments (substrats des transporteurs OAT2 et OATP1B1), et ont été ensuite utilisées dans six modèles d’extrapolation in vitro-in vivo (IVIVE) pour prédire lesdits paramètres. Après une comparaison statistique, les résultats ont montré que l’approche 2 (c’est-à-dire « fup-adjusted model ») qui se base sur la captation hépatique facilitée par l’ALB, avait la meilleure performance prédictive. Cependant, l’approche 5 (c’est-à-dire « Extended Clearance Model ») qui se base sur le transport facilité, en était une très pertinente à appliquer pour les substrats de transporteurs membranaires. Lesdits substrats seraient potentiellement moins affectés par l’ALB. Ainsi, un arbre décisionnel a été proposé pour choisir rapidement et judicieusement la meilleure approche IVIVE servant à prédire la CLhin vivo pour chaque xénobiotique en présence de l’ALB. Dans un deuxième temps, les médicaments PER et FLU ont été sélectionnés à partir d’une collecte de données (N= 1907 médicaments) en fonction de certains critères (avoir un métabolisme exclusif ou prédominant dans le foie, pas de transport facilité par les transporteurs membranaires, une haute affinité pour les deux protéines ALB et AGP, et un ratio de liaison à l’AGP sur celle à l’ALB proche de l’unité). Cette sélection a été réalisée pour faire des expériences sur des foies isolés et perfusés de rats (IPRL), en présence et en absence des protéines ALB et AGP (c’est-à-dire quatre scénarios IPRL). Les résultats IPRL ont démontré que PER est faiblement à moyennement métabolisé (extraction hépatique= 0,2-0,7), tandis que FLU est fortement métabolisé (extraction hépatique= 0,8-0,99). Le modèle Michaelis-Menten a été ajusté aux cinétiques métaboliques, et différents paramètres Vmax, Km et Km, u ont été obtenus de ce modèle. À de faibles concentrations libres pour les deux médicaments (c’est-à-dire à des concentrations thérapeutiques) et en présence des protéines plasmatiques, les valeurs de CLint non liée ont augmenté pour PER (avec l’ALB et le mélange des deux protéines (MIX)) et FLU (avec l’ALB, l’AGP et le MIX) par rapport à celles obtenues du scénario sans protéine (sauf pour PER avec AGP, lesdites valeurs ont diminué). Par ailleurs, les calculs des ratios CLint (SANS versus AVEC protéine) ont permis d’indiquer l’occurrence d’une facilitation de la captation hépatique de médicaments par l’ALB ou l’AGP. Ces ratios ont aussi permis de vérifier si la cinétique métabolique pour PER et FLU suivait soit « l’hypothèse du médicament libre » soit celle de « la captation hépatique facilitée par les protéines plasmatiques ». Dans un dernier temps, une nouvelle approche prédictive de CLh (approche WO-to-MIX) est développée en se basant sur une nouvelle notion de liaison fractionnelle et en intégrant dans le « fup-adjusted model » de nouveaux paramètres tels que la fraction liée à l’ALB (fB-ALB) et celle liée à l’AGP (fB-AGP) à partir du scénario MIX. Ce modèle est basé sur la captation facilitée par l’ALB. Contrairement à l’approche WO-to-MIX, le « well-stirred model » (ou modèle conventionnel) est basé sur l’hypothèse du médicament libre. Ensuite, les paramètres Vmax et Km obtenus in situ pour PER et FLU lors des expériences IPRL sans protéines, ont été utilisés en combinaison avec le paramètre intrant de la fraction libre ajustée (fup-adjusted) pour le « fup-adjusted model » ou avec la fraction libre (fup) pour le « well-stirred model ». Une comparaison des performances prédictives globales des deux modèles a été faite. Les performances prédictives du nouveau modèle étaient prometteuses, en particulier pour FLU qui montrait le plus haut degré de captation hépatique médiée par l’ALB, par rapport au modèle conventionnel. L’approche WO-to-MIX est une première validation d’un nouveau modèle d’extrapolation proposé pour les médicaments comme FLU qui se lient à l’ALB et à l’AGP. Néanmoins, le modèle conventionnel reste utile à utiliser pour les médicaments comme PER. L’exactitude de prédiction était inférieure pour ce dernier médicament probablement parce que la captation hépatique par l’ALB ne semble pas être maximale, et, par conséquent, l’utilisation de fup-adjusted a surestimé la CLhin vivo. Par conséquent, plus de travail est nécessaire en particulier pour PER. Cette thèse démontre qu’une seule approche générique pour prédire la CLh n’existe pas. Néanmoins, le choix d’une approche IVIVE ayant une performance prédictive satisfaisante est maintenant possible. Les résultats de cette thèse contribuent à : 1) mieux comprendre les répercussions sur les paramètres PK/TK de la forte liaison des médicaments à l’ALB et à l’AGP ; 2) choisir la meilleure approche prédictive de CLh sur la base de l’affinité du xénobiotique (médicament ou contaminant) pour chacune des protéines plasmatiques et des mécanismes impliqués dans le foie ; et 3) prédire la CLh avec précision et exactitude des xénobiotiques qui se lient aux deux protéines plasmatiques. Ces approches IVIVE pour la CLh pourront assurément être intégrées dans des modèles PK/TK à base physiologique pour les xénobiotiques afin d’améliorer la prédiction de leur pharmacocinétique et d’accélérer le processus de développement de médicaments. / The prediction of pharmacokinetic/toxicokinetic (PK/TK) parameters such as intrinsic clearance (CLint) and hepatic clearance (CLh) for highly bound drugs is a major challenge in quantitative modeling. According to the ‘free drug hypothesis’, only the free drug can pass through the plasma membrane and the CLh of this drug is calculated according to its free fraction (fup). Nevertheless, the hepatic uptake facilitated by albumin (ALB) is a violation of the ‘free drug hypothesis’. This facilitated hepatic uptake is based on the possibility that the ALB-drug complex may provide additional drug intake to the hepatocytes. Thus, this could largely explain the underpredictions of CLh. In addition, some drugs can bind extensively in plasma, and to several plasma proteins such as ALB and alpha-1-glycoprotein acid (AGP). Thus, the high binding of the same drug to either ALB or AGP, or to both, could have distinct impacts on the prediction of these PK/TK parameters. However, no study has yet explored how to simulate the difference between these impacts. The main objective of this thesis is therefore to evaluate (with accuracy and precision) for a series of drugs, in the in vivo (or in situ) condition, these impacts in the presence of the two plasma proteins, jointly or separately. Also, it is important to verify if a generic model can be applied. This thesis is divided into three specific objectives. The first is to propose a decision tree to facilitate the selection of appropriate predictive approaches of CLhin vivo for drugs with different characteristics. The second is to assess the impacts of extensive binding to the two plasma proteins ALB and AGP on the CLh of two selected xenobiotics (perampanel (PER) and fluoxetine (FLU)); these drugs have strong affinities to both proteins and an exclusive (or predominant) metabolism in the liver. And the last objective is to develop and validate a new predictive model of CLh for xenobiotics with the potential to bind extensively to ALB as well as to AGP. Firstly, in vitro data obtained in humans were collected for 19 drugs (i.e. substrates of OAT2 and OATP1B1 transporters) and were then used in six in vitro-to-in vivo (IVIVE) extrapolation models to predict these PK/TK parameters. After a statistical comparison, the results showed that the approach 2 (i.e. ‘fup-adjusted model’) that is based on the ALB-facilitated hepatic uptake, had the best predictive performance. However, the approach 5 (i.e. ‘Extended Clearance Model’) that is based on the membrane transporter-mediated uptake, was very relevant to apply for the substrates of membrane transporters. These substrates would potentially be less affected by ALB. Thus, a decision tree has been proposed to quickly and judiciously select the best IVIVE approach to predict CLhin vivo for each xenobiotic in the presence of ALB. Secondly, the PER and FLU drugs were selected from a data collection of 1907 drugs depending on certain criteria (exclusive or predominant metabolism in the liver, no transport facilitated by membrane transporters, high affinity for the two proteins ALB and AGP, and having a binding ratio between AGP and ALB close to the unity). This selection was made to conduct experiments using the isolated and perfused rat liver (IPRL) apparatus, in the presence, and in the absence of the ALB and AGP proteins (i.e. four IPRL scenarios). The IPRL results showed that PER is low to moderately metabolized (hepatic extraction= 0.2-0.7), while FLU is highly metabolized (hepatic extraction= 0.8-0.99). The Michaelis-Menten model was fitted to the obtained metabolic kinetics, and different parameters Vmax, Km and Km, u were obtained from the model. At low free concentrations for both drugs (i.e. therapeutic concentrations) and in the presence of plasma proteins, the values of unbound CLint increased for PER (with ALB and the mixture of the two proteins (MIX)) and FLU (with ALB, AGP and MIX); when compared to those obtained from the protein-free scenario (except for PER with AGP, the unbound CLint values decreased). In addition, the calculations of CLint ratios (WITHOUT versus WITH protein) indicated the occurrence of a hepatic uptake facilitated by ALB or AGP. These ratios also helped in verifying whether the metabolic kinetics for PER and FLU followed either ‘the free drug hypothesis’ or that of ‘plasma protein-facilitated hepatic uptake’. Finally, a new predictive approach of CLh (WO-to-MIX approach) was developed based on a new notion of fractional binding and incorporating new parameters such as the ALB bound fraction (fB-ALB) and the AGP bound fraction (fB-AGP) from the MIX scenario into the ‘fup-adjusted model’. This model is based on the ‘ALB-facilitated hepatic uptake’. Unlike the WO-to-MIX approach, the ‘well-stirred model’ is based on ‘the free drug hypothesis’. Then, the Vmax and Km parameters that were obtained in situ for PER and FLU from the protein-free IPRL experiments, were used in combination with the fup-adjusted input parameter for the ‘fup-adjusted model’ or with the free fraction (fup) for the ‘well-stirred model’. A comparison of the two models’ overall predictive performances was made. The predictive performances of the new model were promising for FLU, which showed the highest degree of ‘ALB-mediated hepatic uptake’, compared to the conventional model. This WO-to-MIX approach is a first validation of a novel extrapolation model suggested for drugs such as FLU that bind to both ALB and AGP. The well-stirred model remains however a useful tool to predict the clearance for drugs such as PER. The prediction accuracy was lower for the latter drug probably because the ALB-mediated hepatic uptake does not seem to be maximal, and, hence, the use of fup-adjusted has overestimated its CLhin vivo. Therefore, more work is needed particularly for PER. This thesis shows that a generic approach to predict the CLh in vivo does not exist. Nevertheless, the choice of an IVIVE approach with satisfactory predictive performances is now possible. The results of this thesis contribute to: 1) better understand the impacts on the PK/TK parameters of extensive drug binding to ALB and AGP; 2) choose the best predictive approach to CLh based on the affinity of xenobiotic (drug or contaminant) to each of the plasma proteins and the mechanisms involved in the liver; and 3) predict accurately and with precision the output CLh of xenobiotics that bind to the two plasma proteins. These IVIVE approaches for CLh can certainly be integrated into physiologically based PK/TK models for xenobiotics to improve the prediction of their pharmacokinetics and to accelerate the drug development process. Clairance hépatique Interactions pharmacocinétiques Albumine Alpha-1-glycoprotéine acide Captation facilitée par la protéine Transporteurs membranaires Extrapolation in vitro-in vivo Foie isolé et perfusé du rat Hepatic clearance Extensive plasma protein binding Pharmacokinetic interactions Albumin Alpha-1-acid glycoprotein Plasma protein-mediated uptake Membrane transporters In vitro-in vivo extrapolation Isolated and perfused rat liver
50	Resveratrol-mediated SIRT-1 interactions with p300 modulate receptor activator of NF-kappaB ligand (RANKL) activation of NF-kappaB signaling and inhibit osteoclastogenesis in bone-derived cells Shakibaei, M., Buhrmann, C., Mobasheri, A. January 2011 (has links) No / Resveratrol is a polyphenolic phytoestrogen that has been shown to exhibit potent anti-oxidant, anti-inflammatory, and anti-catabolic properties. Increased osteoclastic and decreased osteoblastic activities result in bone resorption and loss of bone mass. These changes have been implicated in pathological processes in rheumatoid arthritis and osteoporosis. Receptor activator of NF-kappaB ligand (RANKL), a member of the TNF superfamily, is a major mediator of bone loss. In this study, we investigated the effects of resveratrol on RANKL during bone morphogenesis in high density bone cultures in vitro. Untreated bone-derived cell cultures produced well organized bone-like structures with a bone-specific matrix. Treatment with RANKL induced formation of tartrate-resistant acid phosphatase-positive multinucleated cells that exhibited morphological features of osteoclasts. RANKL induced NF-kappaB activation, whereas pretreatment with resveratrol completely inhibited this activation and suppressed the activation of IkappaBalpha kinase and IkappaBalpha phosphorylation and degradation. RANKL up-regulated p300 (a histone acetyltransferase) expression, which, in turn, promoted acetylation of NF-kappaB. Resveratrol inhibited RANKL-induced acetylation and nuclear translocation of NF-kappaB in a time- and concentration-dependent manner. In addition, activation of Sirt-1 (a histone deacetylase) by resveratrol induced Sirt-1-p300 association in bone-derived and preosteoblastic cells, leading to deacetylation of RANKL-induced NF-kappaB, inhibition of NF-kappaB transcriptional activation, and osteoclastogenesis. Co-treatment with resveratrol activated the bone transcription factors Cbfa-1 and Sirt-1 and induced the formation of Sirt-1-Cbfa-1 complexes. Overall, these results demonstrate that resveratrol-activated Sirt-1 plays pivotal roles in regulating the balance between the osteoclastic versus osteoblastic activity result in bone formation in vitro thereby highlighting its therapeutic potential for treating osteoporosis and rheumatoid arthritis-related bone loss. Animals Bone marrow cells Metabolism Cell line Core binding factor Alpha 1 subunit Genetics Dogs Enzyme inhibitors Pharmacology Humans Mice Multiprotein complexes NF-kappa B Osteoclasts Osteoporosis Drug therapy RANK Ligand Rheumatic fever Signal transduction Drug effects Sirtuin 1 Stilbenes Up-regulation p300-CBP transcription factors REF 2014

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