Design and synthesis of chemical probes for the plekstrin homology domain

Elliott, Thomas S.

January 2010

The phosphatidylinositol polyphosphates play a fundamental role in intracellular signalling. Of particular importance is phosphatidylinositol 3,4,5-trisphosphate [PtdIns(3,4,5)P₃], which acts by recruiting effector proteins to the cell membrane. PtdIns(3,4,5)P₃ interacts with its protein targets through selective binding domains that include the pleckstrin homology (PH) domain. The PH-domain-containing kinase, protein kinase B (PKB/Akt), which interacts with PtdIns(3,4,5)P₃, is upregulated in ~15 human malignancies. Significantly, inhibition of the PtdIns(3,4,5)P₃-PKB interaction has proved viable as a point of therapeutic intervention. There is currently a lack of small molecule probes that selectively interact with a given PH domain. Consequently, it is impossible to dissect the cellular function of PH-domain-containing proteins at a molecular level. To address this problem, we have designed and synthesised a number of derivatives of the PtdIns(3,4,5)P₃ inositol head-group – Ins(1,3,4,5)P₄. Replacement of the 5-position phosphate with a range of phosphate bioisosteres afforded compounds that displayed no binding affinity for the PH-domain of general receptor for phosphoinositides 1 (GRP1). However, it was shown that the 5-position sulfamate analogue displayed selectivity for the PH-domain of PKB. The methylphosphate biosiostere at the 1-position displayed binding for both the GRP1 PH-domain as well as the PKB PH-domain. These results demonstrate that subtle modification of the Ins(1,3,4,5)P₄ structure allows the synthesis of compounds that interact selectively with a given PH domain. We will now use these results for the synthesis of a second generation of compounds with improved PH-domain affinity and selectivity.

572

Novel Insights into PKG Activation and cGMP Signaling in Response to Nitric Oxide and Atrial Natriuretic Peptide in Vascular Smooth Muscle Cells

Nausch, Lydia

06 June 2008

Cyclic 3',5'-guanosine monophosphate (cGMP) is a key signaling molecule involved in a myriad of physiological processes, including vascular smooth muscle (VSM) tone, water- and electrolyte homeostasis, platelet aggregation, airway smooth muscle tone, smooth muscle proliferation and bone formation. Increased occurrence of vascular disorders including erectile dysfunction, hypertension, stroke and coronary artery disease, have made it increasingly important to study the dynamic interplay between cGMP synthesis and hydrolysis in VSM cells. This dissertation examines the spatial distribution of intracellular cGMP, [cGMP]i, in response to NO and atrial natriuretic peptide (ANP) in VSM cells. To investigate the spatial patterning of [cGMP]i, we have developed a new generation of non-FRET (fluorescence resonance energy transfer) cGMP biosensors that are suitable to monitor [cGMP]i in response to physiological (low-nanomolar) NO and ANP concentrations and that qualify for real-time, confocal imaging techniques. We have termed these indicators FlincGs, for green fluorescent indicators of cGMP. For the development of FlincGs, we made use of the specific cGMP binding characteristics of PKG. We utilized site-specific mutagenesis, kinetic cGMP binding, dissociation and kinase assays, as well as crystallography, in order to investigate PKG activation and cGMP binding dynamics in greater detail. Based on these studies, our novel, non-FRET cGMP biosensors were designed by attaching cGMP binding fragments of PKG to the N-terminus of circular permutated green fluorescent protein. We applied FlincGs in cultured VSM cells as well as in intact tissue to determine whether two spatially distinct populations of guanlylyl cyclase (cytosolic versus membrane bound) underlie the generation of spatiotemporally-specific patterns of [cGMP]i formation.

Vascular smooth muscle cells

Cyclic GMP dependent protein kinase

Nitric Oxide

Atrial natriuretic peptide

Flourescent biosensor

Green flourescent protein

Interleukin-1 Beta Mediated Regulation of Hyaluronan and Hyaluronan Synthase 2

Ducale, Ashley Elizabeth

01 January 2005

Elevated levels of hyaluronan are associated with numerous inflammatory diseases including ulcerative colitis, Crohn's disease and wound healing. Various proinflammatory cytokines have shown to influence hyaluronan expression in cells originating from connective tissue. The overall purposes of this study included: 1. To determine the effects of IL-1β stimulation on HA and HAS2 steady state transcript levels and the signaling pathways involved in its effects. The signaling pathways utilized by proinflammatory mediators to modulate hyaluronan expression have only begun to be elucidated. In this aim, the effects of IL-1β on hyaluronan and HAS expressions in jejunum-derived mesenchymal cells were determined. Inhibition studies were utilized to determine the signaling pathways involved. The overall hypothesis of this aim was that stimulation of jejunum-derived mesenchymal cells with IL-1β activates the mitogen activated protein kinase pathways resulting in increased HAS2 steady state transcript and hyaluronan levels.Results: The results suggest that IL-1β induction of HAS2 expression involves, in part, the mitogen activated protein kinase signaling pathways that act in concert thus leading to an increase in expression of hyaluronan by jejunum-derived mesenchymal cells.2. To determine the effects of dexamethasone on IL-1β mediated increase in hyaluronan and HAS2 expressions and the mechanisms utilized by this glucocorticoid. Glucocorticoids are a mainstay treatment for the inflammatory component of inflammatory bowel disease. Given the recent evidence demonstrating increased hyaluronan in inflamed tissue from patients affected with inflammatory bowel disease, the objective of this aim was to determine the effect of dexamethasone on IL-1β-mediated induction of hyaluronan. The hypothesis of this aim was that pre-treatment with dexamethasone suppressed the ability of IL-1β to increase HAS2 transcript and hyaluronan levels via inhibition of the p38 MAP kinase pathway. Results: Pre-treatment with dexamethasone inhibited IL-1β-mediated hyaluronan and HAS2 induction by blocking the activation of the p38 MAP kinase pathways. 3. To identify the transcriptional and post-transcriptional mechanisms utilized by IL-1β to upregulate HAS2 steady state transcript levels. Very little is known about transcriptional and post-transcriptional regulation of the hyaluronan synthase 2 gene. In this aim, 5' and 3' mapping, luciferase analyses and actinomycin D studies were used to determine the transcriptional and post-transcriptional mechanisms utilized by IL-1β to regulate HAS2 steady state transcript levels. The hypothesis of this aim was that IL-1β used post-transcriptional mechanisms to regulate the HAS2 gene.Results: Dermal fibroblasts were used to find the 5'- and 3'-termini of the HAS2 message. Promoter constructs extending approximately 1 kb upstream from the transcription start site demonstrated no IL-1β response. Blocking protein synthesis prior to the addition of IL-1β dramatically increased HAS2 steady state transcript levels, while inhibition of transcription suppressed the effect of IL-1β on HAS2. Northern blot analysis revealed that cycloheximide and IL-1β exerted differential effects on the two HAS2 transcripts.

mitogen activated protein kinase

inflammatory bowel disease

hyaluronan

glucocorticoid

interleukin-1 beta

cycloheximide

Life Sciences

Étude du rôle de la protéine LegK2 dans la virulence de Legionella Pneumophila / Study of the role of LegK2 protein kinase in Legionella pneumophila virulence

Hervet, Éva

14 October 2011

Legionella pneumophila est la bactérie responsable de la légionellose, une pneumonie atypique dans les pays industrialisés. Les souches pathogènes sont issues de notre environnement après multiplication à l’intérieur d’amibes, sont disséminées par la technologie humaine, puis peuvent infecter les macrophages alvéolaires humains. Ce travail vise à caractériser une famille d’effecteurs du système de sécrétion de type IV Dot/Icm transloqués dans le cytoplasme de la cellule hôte, des protéine kinases, et en particulier à établir le rôle de la protéine kinase LegK2 dans la virulence. L’analyse in silico et des tests de phosphorylation in vitro ont permis d’identifier 5 protéine kinases fonctionnelles, LegK1-LegK5, codées par la souche épidémique L. pneumophila Lens. Des tests de translocation ont montré qu’à l’exception de LegK5, les protéine kinases de Legionella sont transloquées dans la cellule hôte de façon Icm/Dot dépendante. LegK2 joue un rôle clé dans la virulence, comme démontré par inactivation de gène. Les vacuoles contenant le mutant legK2 présentent un recrutement moins efficace de reticulum endoplasmique, ce qui entraine une réplication intracellulaire retardée. Un mutant de substitution déficient pour l’activité kinase présente les mêmes défauts de virulence, ce qui démontre le rôle central de la phosphorylation dans le contrôle de ce processus. Les mécanismes moléculaires contrôlés par LegK2 sont actuellement recherchés par identification de partenaires et/ou substrats protéiques / Legionella pneumophila is the most common causative agent of the severe pneumony legionellosis. Legionella pathogenic strains are emerging from the environment after intracellular multiplication in amoeba, are dissiminated by water aerosols technologies, and are able to infect alveolar macrophages of human lungs. This work aims to characterize one family of effectors translocated into the host cytoplasm, namely the protein kinase family, and particularly the role of LegK2 protein kinase in virulence. In silico analysis and in vitro phosphorylation assays allowed the identification of 5 functional protein kinases LegK1-LegK5 encoded by the epidemic L. pneumophila Lens strain. Translocation assays showed that except LegK5, the Legionella protein kinases are translocated. LegK2 plays a key role in bacterial virulence, as demonstrated by gene inactivation. The legK2 mutant containing vacuoles display less efficient recruitment of endoplasmic reticulum markers, which results in delayed intracellular replication. A kinase-dead substitution mutant of legK2 exhibits the same virulence defects. Molecular mechanisms controled by LegK2 have been investigated by searching LegK2 partner and substrate proteins

Relations hôte-pathogène

Legionella

Virulence

Protéine kinase

Génétique fonctionnelle

Host-pathogen interactions

Legionella

Virulence

Protein kinase

Functional genetics

579

Studium vlivu vybraných inhibitorů proteinkináz na lékovou rezistenci zprostředkovanou cytochromy P450 / Study on impact of selected protein kinase inhibitors on drug resistance mediated by cytochromes P450

Janoušková, Adéla

January 2019

Charles University Faculty of Pharmacy in Hradec Králové Department of Pharmacology & Toxicology Student: Adéla Janoušková Supervisor: RNDr. Jakub Hofman, Ph.D. Title of diploma thesis: Study on impact of selected protein kinase inhibitors on drug resistance mediated by cytochromes P450 Pharmacokinetic drug resistance often leads to failure of an anticancer therapy. One of the mechanisms is increased efflux of drugs from tumour cells, whereas some studies suggest that increased drug conversion to an inactive metabolite might be another contributing mechanism. The aim of this work was to define the possible role of CYP3A4 and CYP2C8 enzymes in the phenomenon of pharmacokinetic resistance and to investigate the possibility of its modulation by new targeted drugs. In the first part, we used the MTT proliferation method together with HepG2 cells stably transduced with particular human enzymes and demonstrated significant involvement of CYP3A4 in docetaxel resistance. In the following part, we examined the inhibitory effects of four selected tyrosine kinase inhibitors on the CYP3A4 activity in intact cells using a commercial kit. Cobimetinib and dabrafenib showed significant inhibitory activity, while osimertinib and brivanib did not. In the final part, we demonstrated the ability of the first two...

Influence des perturbations métaboliques sur des voies de signalisation impliquées dans la biogenèse mitochondriale / Influence of metabolic disturbances on signalling pathways involved in mitochondrial biogenesis

Combes, Adrien

16 November 2015

L’évolution des populations occidentales s’accompagne d’une augmentation de la sédentarité et des maladies métaboliques qui accroissent les problèmes de santé. Ces évolutions ont des répercussions sur le muscle squelettique qui voit sa capacité à produire de l’énergie aérobie diminuer. Néanmoins, le muscle squelettique est très plastique et les capacités oxydatives musculaires s’améliorent rapidement par l'activité physique. Les mitochondries sont des éléments majeurs des capacités oxydatives musculaires et la compréhension des mécanismes moléculaires qui régissent la biogenèse et la fonction mitochondriale est nécessaire pour prescrire au mieux l’activité physique.L’exercice intermittent semble être de plus en plus utilisé dans la pratique. Plusieurs arguments sont mis en avant pour préconiser cette modalité : 1) le temps passé à haute consommation d’oxygène, 2) la haute intensité et 3) les perturbations métaboliques induites par les variations d’intensité au cours de l’exercice. Cependant, l’influence des perturbations métaboliques sur les capacités oxydatives musculaires n’a pas encore été clairement démontrée. L’objet des mes travaux de thèse s’est donc focalisé sur ces perturbations métaboliques et leurs effets sur les voies de signalisation impliquées dans la biogenèse mitochondriale. Afin de caractériser l’implication des perturbations métaboliques dans la stimulation des voies de signalisation de la biogenèse mitochondriale, nous avons comparé l’influence d’exercices aigus sur ces voies de signalisation. Deux protocoles nous ont permis d’investiguer l’influence des variations métaboliques. Le premier a consisté, lors d’un exercice de intermittent, à identifier la durée du cycle induisant les plus grandes perturbations métaboliques et à caractériser les effets de la modalité d’exercice sur un exercice de 30 minutes de pédalage à 70%WRpic. Le second protocole visait à déterminer l’influence de la répétition des perturbations métaboliques sur les voies de signalisation régulant la biogenèse mitochondriale.Afin d’identifier la durée de cycle produisant le plus de variations métaboliques, nous avons analysé l’évolution de la consommation d’oxygène et quantifié les variations métaboliques. Pour cela nous avons utilisé trois paramètres : 1) un paramètre quantitatif, 2) un paramètre qualitatif et 3) un index associant les paramètres quantitatif et qualitatif. La comparaison de trois durées de cycle différentes (30s d’effort:30s de récupération passive ; 60s:60s et 120s:120s) nous a permis de mettre en évidence que la modalité 60s:60s est celle qui induit le plus de variations métaboliques et cela pour une dépense énergétique identique pour les trois modalités.Notre seconde étude a consisté à comparer 30 minutes de pédalage à 70%WRpic sous deux modalités différentes : continue (1 bloc de 30min) et intermittente (30 bloc de 1min entrecoupés de 1min). La répétition de phase d’exercice et de repos lors de l’exercice intermittent créée plus de perturbation du métabolisme et entraîne une phosphorylation supérieure de l'AMPK, CaMKII et p38 MAPK. Ces kinases sont situées en amont de PGC-1α, un important régulateur de la biogenèse mitochondriale dans le muscle squelettique. Ces résultats mettent donc en évidence un effet spécifique des perturbations métaboliques sur les voies de signalisation contrôlant la biogenèse mitochondriale.Ces travaux ouvrent de nouvelles perspectives sur les méthodes de réentraînement de personnes sédentaires ou atteintes de pathologie chronique. Les futurs travaux viseront à confirmer nos résultats lors d’interventions chroniques et d’explorer ces effets chez différentes populations. / Western life evolution is associated with an increase in sedentary behaviours and metabolic diseases leading to health alteration. This evolution affects the skeletal muscle, which is characterized by a decrease in its ability to produce aerobic energy. However, skeletal muscle is a highly malleable tissue, capable of considerable metabolic adaptations in response to physical activity. Mitochondria produce the aerobic energy within the skeletal muscle. Understanding the molecular mechanisms that regulate mitochondrial biogenesis and its function is necessary to improve physical activity prescription.The intermittent exercise is currently used in rehabilitation programs. Several arguments are put forward to utilizing this method: 1) the time spent at high oxygen consumption, 2) the high intensity of exercise and 3) the metabolic disturbances induced by variations of intensity during exercise. However, the influence of metabolic disturbances on muscle oxidative capacity has not been clearly demonstrated. The purpose of my thesis work has therefore focused on these metabolic perturbations and their effects on signalling pathways involved in mitochondrial biogenesis. In order to characterize the influence of metabolic disturbances on the signalling pathways involved in mitochondrial biogenesis, we compared the influence of acute exercises. We realized two protocols to investigate the influence of metabolic disturbances. The first study compared three intermittent exercises in order to identify the optimal duty-cycle duration to induce the biggest metabolic disturbances and to compare metabolic responses of intermittent and continuous exercise performed at 70%WRpic. The second protocol evaluated the influence of the repetition of metabolic disturbances on signalling pathways involved in mitochondrial biogenesis.In order to identify the duty-cycle duration producing more metabolic fluctuations, we analysed the changes of oxygen consumption and quantified metabolic variations. We used three parameters: 1) a quantitative parameter, 2) a qualitative parameter, and 3) an index combining quantitative and qualitative parameters. Comparison of three different duty-cycle durations (30s work:30s passive recovery; 60s:60s, and 120s:120s) revealed that the 60s:60s modality induces more metabolic fluctuations for a same energy expenditure.Our second study compared 30 minutes of pedalling at 70%WRpic realized by two different modalities: continuous (30min 1 block) and intermittent (30 1min block interspersed by 1min of passive recovery). Repetition of transitions from rest to exercise during the intermittent exercise creates higher metabolic disturbances and leads to a higher phosphorylation of AMPK, p38 MAPK and CaMKII. These kinases are upstream of PGC-1α, an important regulator of mitochondrial biogenesis in skeletal muscle. All together, these results demonstrate that metabolic disturbances are involved in mitochondrial signalling pathways activation.This work opens up new perspectives on exercise training prescription for sedentary or chronic pathology people. Future work will aim to confirm our results in chronic interventions and explore these effects in different populations.

Exercices intermittents

Consommation d'oxygène

VO2

Biogenèse mitochondriale

AMP-activated protein kinase

P38-MAPK

Metabolic stress

Modality

Training prescription

Développement d’un nouveau couple de protéines fluorescentes pour le FRET : Validation et application à un biosenseur d’activité kinase A / Development of a new FRET fluorescent protein couple : Validation and application to a A-Kinase activity biosensor

Betolngar, Dahdjim-Benoît

22 May 2015

Les protéines kinases A (PKA) sont des enzymes qui catalysent la phosphorylation de résidus sérine ou thréonine. L’activité des PKA peut être mesurée in cellulo grâce aux biosenseurs AKAR (A-Kinase Activity Reporter). AKAR est composé de 4 modules: la séquence substrat des PKA, un domaine de liaison aux acides aminés, et 2 protéines fluorescentes pouvant interagir par FRET (Förster Resonant Energy Transfer). La phosphorylation de la séquence consensus par la PKA et l’interaction de l’acide aminé phosphorylé avec le module senseur provoque une modification de la conformation d’AKAR et une augmentation du FRET entre les 2 protéines fluorescentes.L’objectif initial de ce travail était de produire un biosenseur AKAR basé sur un nouveau couple de protéines fluorescentes plus performantes, et insensibles au pH. Ce biosenseur devant à terme être utilisable en imagerie ratiométrique, et en FLIM (Fluorescence Lifetime Imaging Microscopy). Ainsi nous avons mis au point une nouvelle version d’AKAR: AqAKARCit. Cette version exploite la protéine Aquamarine, l'une des meilleures protéines cyan disponibles aujourd'hui, avec un rendement quantique de 89%, un déclin de fluorescence mono-exponentiel, et une insensibilité au pH dans tout le domaine physiologique. Les résultats obtenus en FLIM avec cet AqAKARCit ont permis des améliorations notables en stabilité et sensibilité.Une version baptisée AqAKARTagRFP a été construite, dans laquelle l’accepteur est une protéine fluorescente orange permettant une meilleure séparation spectrale entre donneur et accepteur et insensible aux variations de pH. Les étapes de caractérisations de AqAKARTagRFP ont été accomplies en FLIM, et en ratiométrie. AqAKARTagRFP permet d'obtenir de bonnes réponses en FRET par ratiométrie, mais reste difficilement utilisable en FLIM en raison d'une dynamique de réponse limitée. La sensibilité du biosenseur a été améliorée par une modification de l'ancrage de l'Aquamarine. Les modifications apportées à cette version nommée AqEAKARTagRFP la place au niveau des biosenseurs AKAR les plus performants actuellement disponibles.Les mesures de sensibilité au pH d’ AqEAKARTagRFP réalisées en FLIM ont révélé une insensibilité au pH du biosenseur sur une étendue de pH jamais atteinte jusqu’à présent. Cependant, en ratiométrie, on note malgré tout une sensibilité détectable aux pHs fortement acides (pH ≤ 6), ce qui ne permettra pas de l'utiliser pour l'imagerie ratiométrique de compartiments cellulaires acides. Un contrôle négatif non phosphorylable AqEAKARmutTagRFP a été étudié. Ce contrôle présente les mêmes variations de signal en réponse à des changements imposés de pH intracellulaire, révélant que ces variations sont indépendantes de l’activité PKA.L'étude de tandems CFP-Cit et Aq-Cit dépourvus de la partie senseur nous à permis d'analyser le comportement de FRET des couples cyan/jaune en fonction du pH. Un modèle décrivant ce comportement a été créé et appliqué à AKAR.Les expériences complémentaires faites sur CFPAKARCit sont en accord avec nos simulations mais la construction AqAKARCit révèle du FRET résiduel à pH acide que notre modèle numérique ne prévoit pas. Une sensibilité aux pH acides de la partie senseur d’AKAR qui provoquerait un changement de conformation du biosenseur et une augmentation de FRET pourrait expliquer ce phénomène.Ce travail de thèse a permis la mise au point d’un nouveau couple de protéines fluorescentes par le FRET insensibles au pH. Ce couple va permettre une meilleure caractérisation des sensibilités des biosenseurs existants comme nous l’avons montré avec AKAR. Ce couple de protéines fluorescentes pourra également être utilisé dans des compartiments cellulaires acides, par exemple pour étudier des interactions protéine/protéine. Enfin, grâce à une meilleure séparation spectrale en excitation et en émission, ce couple peut être utilisé dans des applications plus exigeantes comme la microscopie biphotonique. / Protein kinase A (PKA) are enzymes which catalyze the phosphorylation of serine or threonine residues. The activity of PKA can be measured in cellulo through AKAR biosensors (A-Kinase Activity Reporter). AKAR consists of 4 modules: the PKA substrate sequence, a phospho-amino binding domain, and two fluorescent proteins that can interact by FRET (Förster Resonant Energy Transfer). After action of the PKA, the interaction between the phophorylated amino acid and the phospho-amino binding domain causes a change in the conformation of AKAR and an increase in FRET between the two fluorescent proteins.The initial objective of this work was to produce an AKAR biosensor based on a new pair of improved fluorescent proteins, and insensitive to pH. This biosensor to eventually be used in ratiometric imaging and FLIM (Fluorescence Lifetime Imaging Microscopy). So we developed a new version of AKAR: AqAKARCit. This version uses the Aquamarine protein, one of the best cyan proteins available today, with a quantum yield of 89%, a near mono-exponential fluorescence decay, and insensitive to pH throughout the physiological range. The results obtained with this AqAKARCit allowed significant improvements in stability and sensitivity.A version called AqAKARTagRFP was built, in which the acceptor is an orange fluorescent protein allowing better spectral separation between donor and acceptor and insensitive to pH variations. The characterization of AqAKARTagRFP was performed in FLIM, and ratiometry. AqAKARTagRFP provides good answers in FRET by ratiometry but remains difficult to use in FLIM due to limited dynamic responses. The sensitivity of the biosensor has been improved by modification of the anchoring of Aquamarine. Changes to this version named AqEAKARTagRFP place it at the most efficient AKAR biosensors currently available.The pH-responsive measures of AqEAKARTagRFP made in FLIM showed insensitivity to pH on a range never reached so far. However, in ratiometry, there is still a detectable sensitivity to highly acidic pHs (pH ≤ 6), which will not allow to use it for ratiometric imaging of cellular acidic compartments. A negative unphosphorylatable control AqEAKARmutTagRFP was studied. This control presents the same signal variations in response to changes imposed on intracellular pH, revealing that these variations are independent of PKA activity.The study of the CFP-Cit and Aq-Cit tandems devoid of the sensor part allowed us to analyze the behavior of cyan / yellow FRET pairs regarding the pH. A model describing this behavior was created and applied to AKAR. Additional experiments on CFPAKARCit are in agreement with our simulations but AqAKARCit reveals residual FRET at acidic pHs that our numerical model does not predict. A sensitivity to acidic pH of the sensor module of AKAR which would cause a conformational change in the biosensor and an increase in FRET could explain this phenomenon.This thesis has allowed the development of a new pair of fluorescent proteins for FRET imaging insensitive to pH. This couple will allow better characterization of existing biosensors sensibilities as we have shown with AKAR. This pair of fluorescent proteins may also be used in acidic cellular compartments, for example to study protein / protein interactions. Finally, through improved spectral separation in excitation and in emission, this pair can be used in more demanding applications such as biphoton microscopy.

Protéines fluorescentes

Aquamarine

TagRFP

FRET

FLIM

Biosenseur

AKAR

Protéine kinase A

Fluorescent proteins

Aquamarine

TagRFP

FRET

FLIM

Biosensor

AKAR

Protein kinase A

Clonagem e caracterização da proteína 80K-H, possível substrato de proteína quinase C / Cloning and characterization of the protein 80K-H, a possible substrate for protein kinase C

Malnic, Bettina

10 December 1991

Plaquetas apresentam um papel importante no desenvolvimento de metastases tumorais. Os eventos que levam à ativação plaquetária, como agragação e secreção de proteínas, podem significar etapas importantes neste papel. O agonista plaquetário trombospondina está envolvido no processo de agragação plaquetária. Com o intuito de clonar o receptor de trombospondina GpIIIb, produziu-se um soro policlonal contra uma banda eluída de SDS PAGE de extrato proteico de plaquetas, que apresentava peso molecular igual ao de GpIIIb (denominada banda 80kD). Uma biblioteca de cDNA de endotélio de cordão umbilical humano construída em lambda gt11 foi varrida com este soro anti-80kD. Dois clones diferentes foram isolados, seus insertos foram subclonados no vetor pGEM-3Z e sequenciados. Através de consulta ao Genbank observou-se que um dos clones não apresentou homologia significativa com nenhuma proteína até então clonada. O outro clone, por sua vez, apresentou 100% de homologia com a proteína 80K-H, substrato de proteína quinase C. Levando em consideração o fato de que as vias detransdução de sinal que utilizam PKC apresentam extrema importância nos processos de ativação plaquetária decidiu-se prosseguir com a caracterização de 80K-H. Para isto foi produzido um soro policlonal contra a proteína de fusão 80K-H, que foi utilizado em ensaios bioquímicos e imunoquímicos que permitiram caracterizar a proteína 80K-H quanto a alguns aspectos como distribuição em diferentes tipos celulares, localização celular e fosforilação. Além de estar presente em plaquetas, a proteína 80K-H foi encontrada em todas as linhagens celulares testadas, parecendo portanto ser uma proteína ubíqua. Os dados obtidos indicaram que, apesar de apresentar uma sequência N-terminal que é clivada \"in vivo\" muito semelhante a um peptídeo sinal, 80K-H não é secretada nem é de membrana plasmática, mas sim citoplasmática. Em ensaios de fosforilação \"in vivo\" não se detectou fosforilação de 80K-H. Portanto, apesar de 80K-H ser um bom substrato para PKC \"in vitro\", ela não o é \"in vivo\", ao menos nas células analisadas, ou é fosforilada de uma forma extremamente rápida e transiente. / Abstract not available.

Biochemistry

Bioquímica

Clonagem

Cloning

Fosforilação de proteínas

Protein kinase C

Protein phosphorylation

Proteína quinase C

Proteínas

Proteins

Substrato

Receptor A2a de adenosina: estudo da modulação da liberação de neurotransmissores em modelo in vitro / Adenosine A2a receptor: a in vitro study of neurotransmitter release modulation

Matsumoto, João Paulo de Pontes

11 December 2012

A transmissão sináptica é essencial para o funcionamento do sistema nervoso. A neuromodulação permite regular esse processo de forma precisa. Um desses mecanismos modulatórios é a regulação da liberação de neurotransmissores. A adenosina é um importante modulador da transmissão sináptica. Além disso, a ativação do subtipo A2a dos receptores para adenosina está envolvida com a facilitação da liberação de neurotransmissores no sistema nervoso central. O presente trabalho teve como objetivo avaliar os efeitos modulatórios da ativação do receptor A2a de adenosina sobre a liberação de neurotransmissores e sua via de sinalização intracelular em modelo in vitro. Além disso, a tese contempla a construção histórica dos conceitos abordados no trabalho permitindo uma visão clara de sua evolução. Esse projeto foi o pioneiro no Brasil a utilizar o sensor biossintético fluorescente de liberação de vesículas sinápticas (supereclipse sinapto-pHluorina), o qual foi gentilmente cedido pelo professor Gero Miensenboeck do Sloan-Kettering Institute for Cancer Research. Nossos resultados demonstraram que o tratamento com o agonista do receptor A A2a de adenosina aumentou a fluorescência do supereclipse sinapto-pHluorina, assim como os níveis de glutamato e noradrenalina. Além disso, foi demonstrado que o inibidor da proteína cinase dependente de AMPc aboliu o aumento nos níveis do glutamato e noradrenalina, tal como a fosforilação da proteína sináptica sinapsina I evocado pelo agonista do receptor A2a de adenosina. Desta forma, nossos dados sugerem que a ativação do receptor A2a de adenosina em cultura de células do bulbo de ratos Wistar modula a liberação de neurotransmissores e a fosforilação da sinapsina I, assim como a proteína cinase dependente do AMPc pode ser o modus operandi desse fenômeno modulatório / Synaptic transmission is a sine qua non process for nervous system physiology. Such precise process is accomplished in part due to modulation of neurotransmitter release. Adenosine is a putative synaptic transmission modulator. Moreover, adenosine A2a receptor facilitates neurotransmitter release in the Central Nervous System. The present study focuses on the modulation of neurotransmission by adenosine A2a receptor and its intracellular signaling pathway in in vitro model. Here, we provided evidence that adenosine A2a receptor agonist increases an optical biosynthetic sensor of synaptic vesicle release (supereclipct synapto-pHluorin), as well as glutamate and noradrenaline. Furthermore, it was demonstrated that cAMP-dependent protein kinase inhibitor abolished glutamate and norepinephrin increase, as well as synapsin I phosphorylation evoked by adenosine A2a receptor agonist. Therefore, our data suggest that adenosine A2a receptor activation modulates neurotransmitter release and synapsin I phosphorylation in cultured cells from medulla oblongata of Wistar rats, as well as cAMP-dependent protein kinase might be the modus operandi of this modulatory phenomenon

Adenosine A2a receptor

Neuromodulação

Neuromodulation

Neurotransmissão

Neurotransmission

Protein kinase A

Proteína cinase dependente de AMPc

Receptor A2a de adenosina

Sinapsina I

Synapsin I

Papel da O-glicosilação com N-acetil-glucosamina (O-GlcNAc) no influxo e recaptação de cálcio pelo retículo sarcoplasmático em aorta de ratos: análise funcional / Effects of augmented O-GlcNAcylation on calcium influx and calcium uptake by the sarcoplasmic reticulum in the rat aorta: functional analysis.

Zanotto, Camila Ziliotto

28 March 2013

A O-glicosilação com N-acetil-glucosamina (O-GlcNAc) é uma modificação pós-translacional altamente dinâmica que modula diversas vias de sinalização. O processo de O-GlcNAc é controlado por duas enzimas: a enzima OGT é responsável por catalisar a adição de N-acetil-glucosamina no grupo hidroxila dos resíduos de serina e treonina, enquanto a OGA catalisa a remoção de O-GlcNAc das proteínas modificadas. Proteínas com importante papel na função vascular são alvo de O-GlcNAc e o aumento da expressão de proteínas modificadas por O-GlcNAc promove aumento da reatividade vascular para estímulos contráteis. Um dos mecanismos de extrema importância no controle do tônus vascular está ligado à regulação da concentração de cálcio (Ca2+) intracelular, onde destacamos a participação do sistema STIM1/Orai1. As moléculas de interação estromal (STIM) atuam como sensores dos estoques intracelulares de Ca2+ e as proteínas Orai representam as subunidades que formam os canais de Ca2+ ativados pela liberação de Ca2+ (CRAC). Neste estudo investigamos a hipótese de que o aumento dos níveis vasculares de proteínas glicosiladas aumenta a resposta contrátil em aorta de ratos, por mecanismos relacionados ao controle da concentração intracelular de Ca2+.Em nossos experimentos, utilizamos aortas torácicas de ratos incubadas com PugNAc (inibidor seletivo da OGA, ), por 24h. Utilizando protocolo experimental que permite avaliar contrações induzidas pelo influxo de Ca2+ e liberação de Ca2+ intracelular, demonstramos que a incubação com PugNAc aumentou a resposta contrátil à PE bem como a contração durante o período de influxo de Ca2+, induzida pela reintrodução de solução fisiológica contendo Ca2+ (1,56 mM). O bloqueio dos canais CRAC com 2-APB (100 ) e gadolíneo (Gd3+, 100 ) diminuiu significativamente as contrações induzidas pelo influxo de Ca2+ em aortas incubadas com PugNAc. Além disso, estas aortas apresentaram aumento da expressão protéica de STIM1, o que resultaria em maior influxo de Ca2+. A contração induzida por cafeína (20 mM) e serotonina (10 ), a qual reflete a capacidade funcional do retículo sarcoplasmático (RS) em captar Ca2+, foi maior em aortas incubadas com PugNAc. O papel da Ca2+-ATPase (SERCA) foi avaliado com a utilização de tapsigargina, bloqueador da SERCA. O efeito da tapsigargina foi semelhante em artérias incubadas com PugNAc e veículo, apesar do aumento de expressão proteica da SERCA em aortas incubadas com PugNAc. Como a proteína cinase C (PKC) é ativada por aumentos de Ca2+ intracelular, determinamos se a atividade de proteínas alvo da PKC estavam aumentadas. A incubação com PugNAc aumentou a expressão das formas fosforiladas da CPI-17, MYPT-1 e MLC. Em conjunto, estes resultados sugerem que a ativação de STIM1/Orai1, aumento da liberação de Ca2+ intracelular e ativação da via de sinalização da PKC podem representar mecanismos que modulam as alterações vasculares em resposta ao aumento de proteínas glicosiladas por O-GlcNAc. / Glycosylation with O-linked -N-acetyl-glucosamine (O-GlcNAc) is a highly dynamic post-translational modification. The process of O-GlcNAc is controlled by two enzymes: the OGT enzyme catalyses the addition of N-acetyl-glucosamine to the hydroxyl group of serine and threonine residues of a target protein, while OGA catalyzes the cleavage of O-GlcNAc from post-translationally-modified proteins. Proteins with an important role in vascular function are targets of O-GlcNAc and increased levels of proteins modified by O-GlcNAc increase vascular reactivity to contractile stimuli. The regulation of intracellular calcium (Ca2+) concentration, including the activation of STIM1/Orai1, is key in the control of vascular tone. The stromal interaction molecules (STIM) act as sensors of intracellular Ca2+ stores whereas the Orai proteins represent subunits of the Ca2+ release-activated Ca2+ channels (CRAC). We hypothesized that increased levels of vascular O-GlcNAc proteins augment vascular contractile responses by altering mechanisms that regulate the intracellular Ca2+. Rat thoracic aortas were incubated with PugNAc (OGA selective inhibitor, ) for 24h. Using an experimental protocol that evaluates contractions induced by Ca2+ influx and release, we demonstrated that incubation with PugNAc increases contractile responses to phenylephrine (PE) as well as the contraction induced by Ca2+ influx, after depletion of intracellular Ca2+ stores. The CRAC channel blockers, 2-APB (100 ) and gadolinium (Gd3+, 100 ), significantly reduced the contractions induced by Ca2+ influx in aortas incubated with PugNAc. Furthermore, these aortas showed increased STIM1 protein expression, which could result in increased influx of Ca2+ and, in turn, increase vascular contraction. The contraction induced by the release of intracellular Ca2+ stores, stimulated by caffeine (20 mM) and serotonin (10 ), was increased in aortas incubated with PugNAc. The Ca2+-ATPase (SERCA) inhibitor thapsigargin produced similar effects in arteries incubated with PugNAc or vehicle, despite the increased SERCA protein expression in aortas incubated with PugNAc. Since PKC is activated by increases in intracellular Ca2+ and arteries incubated with PugNAc show activation of PKC, we determined whether the activity of proteins that are targets of PKC was increased in PugNAc-treated aortas. Incubation with PugNAc increased the expression of phosphorylated forms of CPI-17, MYPT-1 and MLC. Together, these results suggest that activation of STIM1/Orai1, increased release of intracellular Ca2+ and PKC activation may represent mechanisms that modulate vascular responses upon increased O-GlcNAc proteins.

Cálcio

Calcium

Glicosilação

Glycosylation

O-GlcNAc

O-GlcNAc

Protein kinase C

Proteína cinase C

PugNAc

PugNAc

STIM1/Orai1

STIM1/Orai1