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Computational Methods for Inferring Transcription Factor Binding SitesMorozov, Vyacheslav January 2012 (has links)
Position weight matrices (PWMs) have become a tool of choice for the identification of transcription factor binding sites in DNA sequences. PWMs are compiled from experimentally verified and aligned binding sequences. PWMs are then used to computationally discover novel putative binding sites for a given protein. DNA-binding proteins often show degeneracy in their binding requirement, the overall binding specificity of many proteins is unknown and remains an active area of research. Although PWMs are more reliable predictors than consensus string matching, they generally result in a high number of false positive hits. A previous study introduced a novel method to PWM training based on the known motifs to sample additional putative binding sites from a proximal promoter area. The core idea was further developed, implemented and tested in this thesis with a large scale application. Improved mono- and dinucleotide PWMs were computed for Drosophila melanogaster. The Matthews correlation coefficient was used as an optimization criterion in the PWM refinement algorithm. New PWMs keep an account of non-uniform background nucleotide distributions on the promoters and consider a larger number of new binding sites during the refinement steps. The optimization included the PWM motif length, the position on the promoter, the threshold value and the binding site location. The obtained predictions were compared for mono- and dinucleotide PWM versions with initial matrices and with conventional tools. The optimized PWMs predicted new binding sites with better accuracy than conventional PWMs.
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Role of post-transcriptional regulation in human liverChaturvedi, Praneet 11 February 2015 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / My thesis comprises of two individual projects which revolve around the importance of post-transcriptional regulation in liver. My first project is studying the integrated miRNA – mRNA network in NAFLD. For fulfillment of the study we conducted a genome-wide study to identify microRNAs (miRs) as well as the miR-mRNA regulatory network associated with hepatic fat and NAFLD. Hepatic fat content (HFC), miR and mRNA expression were assessed in 73 human liver samples. Liver histology of 49 samples was further characterized into normal (n=33) and NAFLD (n=16). Liver miRNome and transcriptome were significantly associated with HFC and utilized to (a) build miR-mRNA association networks in NAFLD and normal livers separately based on the potential miR-mRNA targeting and (b) conduct pathway enrichment analyses. We identified 62 miRs significantly correlated with HFC (p < 0.05 with q < 0.15), with miR-518b and miR-19b being most positively and negatively correlated with HFC, respectively (p < 0.008 for both). Integrated network analysis showed that six miRs (miRs-30b*, 612, 17*, 129-5p, 204 and 20a) controlled ~ 70% of 151 HFC-associated mRNAs (p < 0.001 with q < 0.005). Pathway analyses of these HFC-associated mRNA revealed their key effect (p<0.05) in inflammation pathways and lipid metabolism. Further, significant (p<2.47e-4, Wilcoxon test) reduction in degree of negative associations for HFC-associated miRs with HFC-associated mRNAs was observed in NAFLD as compared to normal livers, strongly suggesting highly dysfunctional miR-mRNA post-transcriptional regulatory network in NAFLD. Our study makes several novel observations which provide clues to better understand the pathogenesis and potential treatment targets of NAFLD.
My second project is based on uncovering important players of post-transcriptional regulation (RBPs) and how they are associated with age and gender during healthy liver development. For this study, we performed an association analysis focusing on the expression changes of 1344 RNA Binding proteins (RBPs) as a function of age and gender in human liver. We identify 88 and 45 RBPs to be significantly associated with age and gender respectively. Experimental verification of several of the predicted associations in the mouse model confirmed our findings. Our results suggest that a small fraction of the gender-associated RBPs (~40%) are likely to be up-regulated in males. Altogether, these observations show that several of these RBPs are important developmentally conserved regulators. Further analysis of the protein interaction network of RBPs associated with age and gender based on the centrality measures like degree, betweenness and closeness revealed that several of these RBPs might be prominent players in liver development and impart gender specific alterations in gene expression via the formation of protein complexes. Indeed, both age and gender-associated RBPs in liver were found to show significantly higher clustering coefficients and network centrality measures compared to non-associated RBPs. The compendium of RBPs and this study will help us gain insight into the role of post-transcriptional regulatory molecules in aging and gender specific expression of genes.
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Investigating the early events in proteasome assemblyRamamurthy, Aishwarya January 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Proteasome assembly is a rapid and highly sequential process that occurs through a series of intermediates. While the quest to understand the exact process of assembly is ongoing, there remains an incomplete understanding of what happens early on during the process, prior to the involvement of the β subunits. A significant feature of proteasome assembly is the property of proteasomal subunits to self-assemble. While archaeal α and β subunits from Thermoplasma acidophilum can assemble into entire 20S units in vitro, certain α subunits from divergent species have a property to self-assemble into single and double heptameric rings. In this study, we have shown that recombinant α subunits from Methanococcus maripaludis also have a tendency to self-assemble into higher order structures when expressed in E. coli. Using a novel cross-linking strategy, we were able to establish that these higher order structures were double α rings that are structurally similar to a half-proteasome (i.e. an α-β ring pair). Our experiments on M. maripaludis α subunits represent the first biochemical evidence for the orientation of rings in an α ring dimer. We also investigated self-assembly of α subunits in S. cerevisiae and attempted to
characterize a highly stable and unique high molecular weight complex (HMWC) that is formed upon co-expression of α5, α6, α7 and α1 in E. coli. Using our cross-linking strategy, we were able to show that this complex is a double α ring in which, at the least, one α1 subunit is positioned across itself. We were also able to detect α1-α1 crosslinks in high molecular weight complexes that are formed when α7 and α1 are co-expressed, and when α6, α7 and α1 are co-expressed in E. coli. The fact that we able to observe α1-α1 crosslinks in higher order structures that form whenever α7 and α1 were present suggests that α1-α1 crosslinks might be able to serve as potential trackers to detect HMWCs in vivo. This would be an important step in determining if these HMWCs represent bona fide assembly intermediates, or dead-end complexes whose formation must be prevented in order to ensure efficient proteasome assembly.
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Analysis of differentiation capacity of Cfp1 null embyronic stem cellsBowen, Tamara R. January 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Epigenetics is defined as “the study of stable, often heritable, changes that influence gene expression that are not mediated by DNA sequence” (Fingerman et al., 2013). Epigenetic marks such as covalent histone modifications and DNA methylation are important for maintaining chromatin structure and epigenetic inheritance. Several proteins have been found to bind and/ or regulate epigenetic marks. One such protein, CXXC finger protein 1 (Cfp1) is an important chromatin regulator that binds to unmethylated CpG islands. It has been found to be essential for mammalian development. Mice lacking Cfp1 exhibit an embryonic- lethal phenotype. However, the function of Cfp1 can be studied using Cfp1 Null mouse ES cells, which are viable. Thus far, Cfp1 has been shown to be important for cell growth, cytosine methylation, histone modifications, subnuclear localization of Set1A histone H3K4 methyltransferase, and cellular differentiation. When Cfp1 Null ES cells are induced to differentiate by removal of Leukemia Inhibitory Factor (LIF), the cells are not able to turn off pluripotency markers such as Oct4 and alkaline phosphatase and fail to express differentiation markers such as Gata4 and Brachyury. In this study, we used established protocols to further examine the differentiation capacity of Cfp1 Null cells. Specifically, we tested the ability of Cfp1 Null ES cells to retain stem cell properties in the absence of LIF, differentiate into cardiomyocytes in the presence of TGF-β2 and differentiate into neuron precursors in the presence of retinoic acid (RA). While the differentiation effects of RA were inconclusive, Null cells were able to start differentiating in the absence of LIF, either as individual cells or EBs, and the presence of TGF-β2 when seeded on gelatin coated tissue culture dishes. However, no difference was seen between cells treated without LIF and those treated with TGF-β2. In both conditions, only a small portion of cells were able to differentiate, while the majority of the cell population retained stem cell characteristics. Cell growth and the differentiation capacity of Cfp1 Null cells were also compromised in comparison to WT cells. Thus, further supporting the need for the correct epigenetic patterns maintained by Cfp1 during cellular differentiation.
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Développement et validation de modèles in silico pour évaluer la variation de clairance hépatique des médicaments fortement liés aux protéines plasmatiquesBteich, 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.
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Thrombospondin-1 induces platelet activation through CD36-dependent inhibition of the cAMP/protein kinase A signaling cascadeRoberts, Wayne, Magwenzi, S., Aburima, Ahmed, Naseem, Khalid M. January 2010 (has links)
No / Cyclic adenosine monophosphate (cAMP)-dependent signaling modulates platelet function at sites of vascular injury. Here we show that thrombospondin-1 (TSP-1) prevents cAMP/protein kinase A (PKA) signaling through a CD36-dependent mechanism. Prostaglandin E(1) (PGE(1)) induced a robust inhibition of both platelet aggregation and platelet arrest under physiologic conditions of flow. Exogenous TSP-1 reduced significantly PGE(1)-mediated inhibition of both platelet aggregation and platelet arrest. TSP-1 prevented PGE(1)-stimulated cAMP accrual and phosphorylation of PKA substrates, through a mechanism requiring phosphodiesterase3A. TSP-1 also inhibited VASP phosphorylation stimulated by the nonhydrolyzable cAMP analog, 8-bromo-cAMP, indicating that it may regulate cAMP-mediated activation of PKA. The inhibitory effect of TSP-1 on cAMP signaling could be reproduced with a peptide possessing a CD36 binding sequence of TSP-1, while the effects of TSP-1 were prevented by a CD36 blocking antibody. TSP-1 and the CD36 binding peptide induced phosphorylation of Src kinases, p38 and JNK. Moreover, inhibition of Src kinases blocked TSP-1-mediated regulation of cAMP concentrations and the phosphorylation of VASP, indicating that TSP-1 modulated the cAMP/PKA signaling events through a tyrosine kinase-dependent pathway downstream of CD36. These data reveal a new role for TSP-1 in promoting platelet aggregation through modulation of the cAMP-PKA signaling pathway.
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Chondroitin-based nanoplexes as peptide delivery systems-Investigations into the self-assembly process, solid-state and extended release characteristicsUmerska, A., Paluch, Krzysztof J., Santos-Martinez, M.J., Medina, C., Corrigan, O.I., Tajber, L. 20 April 2015 (has links)
Yes / A new type of self-assembled polyelectrolyte complex nanocarrier composed of chondroitin (CHON) and protamine (PROT) was designed and the ability of the carriers to bind salmon calcitonin (sCT) was examined. The response of sCT-loaded CHON/PROT NPs to a change in the properties of the liquid medium, e.g. its pH, composition or ionic strength was studied and in vitro peptide release was assessed. The biocompatibility of the NPs was evaluated in Caco-2 cells. CHON/PROT NPs were successfully obtained with properties that were dependent on the concentration of the polyelectrolytes and their mixing ratio. X-ray diffraction determined the amorphous nature of the negatively charged NPs, while those with the positive surface potential were semi-crystalline. sCT was efficiently associated with the nanocarriers (98-100%) and a notably high drug loading (13-38%) was achieved. The particles had negative zeta potential values and were homogenously dispersed with sizes between 60 and 250 nm. CHON/PROT NPs released less than 10% of the total loaded peptide in the first hour of the in vitro release studies. The enthalpy of the decomposition exotherm correlated with the amount of sCT remaining in NPs after the release experiments. The composition of medium and its ionic strength was found to have a considerable influence on the release of sCT from CHON/PROT NPs. Complexation to CHON markedly reduced the toxic effects exerted by PROT and the NPs were compatible and well tolerated by Caco-2 cells.
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Funktionelle Untersuchungen von Ahnak durch Protein-Protein-Wechselwirkungen und in Ahnak-DefizienzmodellenPetzhold, Daria 14 December 2007 (has links)
Ahnak ist ein ubiquitäres Protein, das an einer Vielzahl biologischer Prozesse beteiligt ist. In der Herzmuskelzelle ist Ahnak überwiegend am Sarkolemma lokalisiert und bindet an Aktin und an die regulatorischen Beta2-Untereinheit des L-Typ-Kalzium-Kanals. Das Ziel dieser Arbeit war die Funktion von Ahnak im Herzen mit Hilfe eines Knock-out-Maus-Modells und in Bindungsstudien zu untersuchen. Morphologische Untersuchungen zeigten, dass das Längenwachstum adulter Kardiomyozyten bei Ahnakdefizienz signifikant reduziert war. Die Kontraktionseigenschaften adulter isolierter Ahnak-defizienter Kardio-myozyten (im Alter von 6 Monaten) waren ebenfalls verändert. Die Kontraktions- und Relaxaktionsgeschwindigkeiten waren erhöht. Eine Erhöhung des diastolischen Kalzium-Spiegels zeigten die Kardiomyozyten schon im Alter von 3 Monaten. Diese beobachteten phänotypischen Veränderungen lassen vermuten, dass die Aktivität des L-Typ-Kalzium-Kanals erhöht ist. In dieser Arbeit konnte das PXXP-Motiv, in der C-terminalen Ahnak-Domäne, als die hochaffine Beta2-Bindungsstelle (KD ~ 60 nM) identifiziert werden. Substitution von Prolin gegen Alanin verringerte zwar die Bindung zur Beta2-Untereinheit dramatisch (KD ~ 1 µM), hob sie aber nicht auf. In weiteren Bindungsstudien zeigte sich, dass die natürlich vorkommende Missensmutation I5236T die Bindung zur regulatorischen Beta2-Untereinheit verstärkte, dagegen verminderte die PKA-abhängige Phosphorylierung der beiden Proteinpartner die Bindung. Experimente am ganzen isoliert perfundierten Herzen zeigten, dass Ahnak-Knock-Out-Herzen geringer Beta-adrenerg stimulierbar waren. Ahnak scheint wie eine physiologische Bremse des kardialen Kalzium-Kanals zu wirken. / Ahnak is an ubiquitous protein with in unique structure, which has been implicated in cell type specific functions. In cardiomyocytes, ahnak is predominantly localized at the sarcolemma and is associated with actin and with the regulatory beta2 subunit of the L-type calcium-channel. The aim of this work was to unravel the function of ahnak in the heart, using a knock-out-mouse model and binding studies. Morphological studies showed a significant decrease in the cell-length of ahnak deficient cardiomyocytes. The contractile parameters of isolated adult ahnak deficient cardiomyocytes (in the age of 6 month) were altered. The development of tension and relaxation were increased. An increase of diastolic calcium was already observed at the age of 3 month. In general the observed phenotypic changes suggested an increased activity of the L-type calcium-channel. In this study, a PXXP-motif, which locates in ahnaks C-terminus, was identified as the high affinity beta2 subunit binding site (KD ~ 60 nM). Substitution of both proline residues by alanine reduced, but did not abolish the binding (KD ~ 1 µM). Further binding studies revealed that the natural occurring ahnak missense mutation I5236T increases the binding affinity to the regulatory beta2 subunit. By contrast PKA dependant phosphorylation of both protein partners decreases the interaction. In studies with isolated perfused working heart preparations, the ahnak deficient hearts were less beta-adrenergic stimulated than hearts from wild type. Taken together ahnak seems to be a physiological brake of the cardiac calcium-channel.
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Mechanisms of binding diversity in protein disorder : molecular recognition features mediating protein interaction networksHsu, Wei-Lun 25 February 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Intrinsically disordered proteins are proteins characterized by lack of stable tertiary structures under physiological conditions. Evidence shows that disordered proteins are not only highly involved in protein interactions, but also have the capability to associate with more than one partner. Short disordered protein fragments, called “molecular recognition features” (MoRFs), were hypothesized to facilitate the binding diversity of highly-connected proteins termed “hubs”. MoRFs often couple folding with binding while forming interaction complexes. Two protein disorder mechanisms were proposed to facilitate multiple partner binding and enable hub proteins to bind to multiple partners: 1. One region of disorder could bind to many different partners (one-to-many binding), so the hub protein itself uses disorder for multiple partner binding; and 2. Many different regions of disorder could bind to a single partner (many-to-one binding), so the hub protein is structured but binds to many disordered partners via interaction with disorder. Thousands of MoRF-partner protein complexes were collected from Protein Data Bank in this study, including 321 one-to-many binding examples and 514 many-to-one binding examples. The conformational flexibility of MoRFs was observed at atomic resolution to help the MoRFs to adapt themselves to various binding surfaces of partners or to enable different MoRFs with non-identical sequences to associate with one specific binding pocket. Strikingly, in one-to-many binding, post-translational modification, alternative splicing and partner topology were revealed to play key roles for partner selection of these fuzzy complexes. On the other hand, three distinct binding profiles were identified in the collected many-to-one dataset: similar, intersecting and independent. For the similar binding profile, the distinct MoRFs interact with almost identical binding sites on the same partner. The MoRFs can also interact with a partially the same but partially different binding site, giving the intersecting binding profile. Finally, the MoRFs can interact with completely different binding sites, thus giving the independent binding profile. In conclusion, we suggest that protein disorder with post-translational modifications and alternative splicing are all working together to rewire the protein interaction networks.
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IDENTIFICATION OF TARGETS AND AUXILIARY PROTEINS OF PYR/PYL/RCAR ABA RECEPTORS: PROTEIN PHOSPHATASES TYPE 2C (PP2Cs) AND C2-DOMAIN ABA-RELATED PROTEINS (CARs)Rodríguez Solovey, Leisa Natacha 16 December 2015 (has links)
[EN] ABSTRACT
Abscisic acid (ABA) signaling plays a critical role in regulating root growth and root system architecture. ABA-mediated growth promotion and root tropic response under water stress are key responses for plant survival under limiting water conditions. In this work, we have explored the role of Arabidopsis (Arabidopsis thaliana) PYR/PYL/RCAR receptors (PYRABACTIN RESISTANCE1 (PYR1)/PYR1 LIKE (PYL)/REGULATORY COMPONENTS OF ABA RECEPTORS) for root ABA signaling. As a result, we discovered that PYL8 plays a nonredundant role for the regulation of root ABA sensitivity. Unexpectedly, given the multigenic nature and partial functional redundancy observed in the PYR/PYL family, the single pyl8 mutant showed reduced sensitivity to ABA-mediated root growth inhibition. This effect was due to the lack of PYL8-mediated inhibition of several clade A phosphatases type 2C (PP2Cs), since PYL8 interacted in vivo with at least five PP2Cs, namely HYPERSENSITIVE TO ABA1 (HAB1), HAB2, ABAINSENSITIVE1 (ABI1), ABI2, and PP2CA/ABA-HYPERSENSITIVE GERMINATION3 as revealed by tandem affinity purification and mass spectrometry proteomic approaches.
Membrane-delimited abscisic acid (ABA) signal transduction plays a critical role in early ABA signaling, but the molecular mechanisms linking core signaling components to the plasma membrane are unclear. We show that transient calciumdependent interactions of PYR/PYL/RCAR ABA receptors with membranes are mediated through a 10-member family of C2-domain ABA-related (CAR) proteins in Arabidopsis thaliana. Specifically, we found that PYL4 interacted in an ABA-independent manner with CAR1 in both the plasma membrane and nucleus of plant cells. CAR1 belongs to a plant-specific gene family encoding CAR1 to CAR10 proteins, and bimolecular fluorescence complementation and coimmunoprecipitation assays showed that PYL4-CAR1 as well as other PYR/PYL-CAR pairs interacted in plant cells. The crystal structure of CAR4 was solved, which revealed that, in addition to a classical calcium-dependent lipid binding C2 domain, a specific CAR signature is likely responsible for the interaction with PYR/PYL/RCAR receptors and their recruitment to phospholipid vesicles. This interaction is relevant for PYR/PYL/RCAR function and ABA signaling, since different car triple mutants affected in CAR1, CAR4, CAR5, and CAR9 genes showed reduced sensitivity to ABA in seedling establishment and root growth assays. In summary, we identified PYR/PYL/RCAR-interacting partners that mediate a transient Ca2+-dependent interaction with phospholipid vesicles, which affects PYR/PYL/RCAR subcellular localization and positively regulates ABA signaling. / [ES] RESUMEN
La señalización por la hormona vegetal ácido abscísico (ABA) desempeña un papel crítico en la regulación del crecimiento de la raíz y en la arquitectura del sistema radical. La promoción de crecimiento de la raíz en condiciones de estrés hídrico mediada por ABA es clave para la supervivencia de las plantas bajo condiciones limitantes de agua. En este trabajo, hemos explorado el papel de los receptores PYR/PYL/RCAR (PYRABACTIN RESISTANCE1 (PYR1)/PYR1 LIKE (PYL)/ REGULATORY COMPONENTS OF ABA RECEPTORS) de Arabidopsis (Arabidopsis thaliana) en la ruta de señalización de ABA en raíz. Así, hemos descubierto que el receptor de ABA PYL8 juega un papel no redundante en la regulación de la percepción de ABA en raíz. Inesperadamente, dada la naturaleza multigénica y la redundancia funcional parcial observada en la familia PYR/PYL/RCAR, el mutante pyl8 fue el único mutante sencillo de pérdida de función de los receptores PYR/PYL/RCAR que mostraba una sensibilidad reducida a la inhibición del crecimiento mediada por ABA en raíz. Este efecto se debe a la falta de inhibición mediada por PYL8 de varias fosfatasas del grupo A tipo 2C (PP2Cs), ya que PYL8 es capaz de interactuar in vivo con al menos cinco PP2Cs, denominadas HYPERSENSITIVE TO ABA1 (HAB1), HAB2, ABAINSENSITIVE1 (ABI1), ABI2, and PP2CA/ABA-HYPERSENSITIVE GERMINATION3 según lo han revelado la purificación por afinidad en tándem (TAP por sus siglas en inglés) y estudios proteómicos de espectrometría de masas.
La transducción de la señal del ABA localizada en la membrana plasmática celular
juega un papel crucial en los pasos iniciales de la señalización de la fitohormona, pero los mecanismos moleculares que unen los componentes básicos de la señalización y la membrana plasmática no están claros. Estudiando las interacciones de los receptores del ABA PYR/PYL/RCAR con la membrana plasmática hemos encontrado que éstos pueden interaccionar transitoriamente con ella de forma dependiente de calcio gracias a una familia de proteínas con dominios C2 relacionadas con la ruta de señalización de ABA (denominadas C2-domain ABA-related (CAR) proteins). Específicamente, se encontró que PYL4 interacciona de manera independiente de ABA con CAR1 tanto en la membrana plasmática como en el núcleo de las células vegetales. La proteína CAR1 pertenece a una familia multigénica constituida por 10 miembros en Arabidopsis thaliana, desde CAR1 hasta CAR10, y que solo se encuentra en plantas. Los ensayos de complementación bi-molecular de fluorescencia y de co-immunoprecipitación confirmaron la interacción en células vegetales tanto de PYL4-CAR1 como de otras parejas de PYR/PYL-CAR. La cristalización de la proteína CAR4 reveló que, además de un dominio C2 clásico de unión a lípidos dependiente de calcio, las proteínas de la familia CAR presentan un dominio específico que probablemente es responsable de la interacción con los receptores PYR/PYL/RCAR y de su posterior reclutamiento a las vesículas de fosfolípidos. Esta interacción es relevante para la función de los receptores PYR/PYL/RCAR en la señalización del ABA, ya que diferentes mutantes triples car de pérdida de función, que tienen afectados los genes CAR1, CAR4, CAR5, y CAR9, demostraron una reducción de la sensibilidad al ABA en ensayos de establecimiento de plántula y crecimiento de la raíz. En resumen, hemos identificado nueva familia de proteínas que son capaces mediar las interacciones transitorias dependientes de Ca2+ con vesículas de fosfolípidos, lo que a su vez afecta localización de PYR/PYL/RCAR y regula positivamente la señalización de ABA. / [CA] RESUM
La senyalització per l'hormona vegetal àcid abcíssic (ABA) exerceix un paper crític en la regulació del creixement de l'arrel i també en l'arquitectura del sistema radical. La promoció del creixement de l'arrel en condicions d'estrés hídric, regulada per ABA és clau per la supervivència de les plantes sota condicions limitants d'aigua. Amb aquest treball, hem investigat el paper dels receptors PYR/PYL/RCAR (PYRABACTIN RESISTANCE1 (PYR1)/PYR1 LIKE (PYL)/ REGULATORY COMPONENTS OF ABA RECEPTORS) d'Arabidopsis (Arabidopsis thaliana) en el camí de senyalització d'ABA en arrel. Així, hem descobert que el receptor d'ABA PYL8 exerceix un paper no redundant en la regulació de la percepció d'ABA en arrel. Inesperadament, donada la naturalesa multigènica i la redundància funcional parcial que s'observa en la família PYR/PYL/RCAR, el mutant pyl8 va ser l'únic mutant senzill de pèrdua de funció dels receptors PYR/PYL/RCAR que mostrava una sensibilitat reduïda a la inhibició del creixement mitjançada per l'ABA en l'arrel. Doncs aquest efecte es deu a la falta d'inhibició regulada per PYL8 de diverses fosfatases del grup A tipus 2C (PP2Cs), ja que PYL8 té la capacitat d'interactuar in vivo almenys amb cinc PP2Cs, anomenades HYPERSENSITIVE TO ABA1 (HAB1), HAB2, ABAINSENSITIVE1 (ABI1), ABI2, and PP2CA/ABAHYPERSENSITIVE GERMINATION3 segons ho han revelat per una banda la purificació per afinitat en tàndem (TAP són les seues sigles en anglés) i per altra banda, estudis proteòmics d'espectrometria de masses.
Pel que fa a la transducció del senyal del l'ABA, la qual es localitza en la membrana plasmàtica cel¿lular, juga un paper molt important en els primers instants de la senyalització de la fitohormona, no obstant això els mecanismes moleculars que uneixen els components bàsics d'aquesta senyalització amb la membrana plasmàtica, no es troben del tot clars. Per tant, s'han estudiat les interaccions que tenen els receptors del ABA PYR/PYL/RCAR amb la membrana plasmàtica, i hem trobat que aquests tenen la capacitat d'interaccionar transitòriament amb la membrana de forma dependent al calci, gràcies a una família de proteïnes amb domini C2, les quals es troben relacionades amb la ruta de senyalització d'ABA(anomenades C2domain ABArelated (CAR) proteins).Específicament, es va trobar que PYL4 interacciona d'una manera independent al ABA amb CAR1, tant en la membrana plasmàtica, com en el nucli de les cèl¿lules vegetals. La proteïna CAR1 pertany a la família multigènica constituïda per 10 components en Arabidopsis thaliana, des de CAR1 fins CAR10, que tan sols es troba en plantes. Els assajos de complementació bimolecular de fluorescència i de co-immunoprecipitació, van confirmar la interacció en cèl¿lules vegetals, tant de PYL4CAR1 com d'altres parelles de PYR/PYL-CAR. La cristal¿lització de la proteïna CAR4 va revelar que, a més d'un domini C2 clàssic de unió a lípids dependent del calci, les proteïnes de la família CAR presenten un domini PYR/PYL/RCAR, i del seu posterior reclutament a les vesícules fosfolipídiques. Doncs, aquesta interacció és rellevant en la funció dels receptors PYR/PYL/RCAR, ja que participa en la senyalització del l'ABA. Aquesta interacció es clau per a la funció dels receptors, ja que diferents mutants triples car de pèrdua de funció, els quals posseïxen afectats els gens CAR1, CAR4, CAR5 i CAR9, van mostrar una reducció de la sensibilitat a l'ABA en assajos d'establiment de plàntula i creixement de l'arrel. En conclusió, hem identificat una nova família de proteïnes amb la capacitat d'organitzar les interaccions transitòries dependents del calci amb vesícules de fosfolípids, fet que al seu torn afecta la localització de PYR/PYL/RCAR i regula positivament la senyalització d'ABA. / Rodríguez Solovey, LN. (2015). IDENTIFICATION OF TARGETS AND AUXILIARY PROTEINS OF PYR/PYL/RCAR ABA RECEPTORS: PROTEIN PHOSPHATASES TYPE 2C (PP2Cs) AND C2-DOMAIN ABA-RELATED PROTEINS (CARs) [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/58862
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