Clonagem de serino proteases do veneno da cascavel Crotalus durissus terrificus e expressão da giroxina em célula de mamífero / Cloning of serine proteases from the venom of rattlesnake Crotalus durissus terrificus and expression of a gyroxin in mammalian cells

Camila Miyagui Yonamine

05 December 2007

As serino proteases participam de diversos processos fisiológicos (tal como o de coagulação) e patológicos. Essas enzimas estão amplamente distribuídas entre as espécies, são também toxinas dos venenos de serpentes, sendo denominadas SVSPs (snake venom serine proteases). Essas SVSPs são multifuncionais e contêm uma tríade catalítica formada pelos aminoácidos HDS. Algumas SVSPs são comercialmente disponíveis, sendo indicadas para o tratamento de infarto do miocárdio, tromboses e embolia pulmonar. No veneno de Crotalus durissus terrificus estão descritas até o momento, apenas duas SVSPs sendo que a mais estudada é a giroxina que representa cerca de 2,5% do veneno total. No presente estudo foi reportado a clonagem de sete serino proteases amplificadas a partir de uma biblioteca de cDNA de glândula de veneno de um único espécime adulto de Crotalus durissus terrificus. Estes clones foram analisados com relação à organização do cDNA, estrutura e prováveis funções. A construção do modelo tridimensional da giroxina permitiu verificar as similaridades com tripsina, trombina e outras SVSPs. A glicosilação e a presença de muitas pontes dissulfetos dificultam a obtenção das SVSP recombinantes na forma solúvel e com atividade, por expressão em E.coli. Assim, neste trabalho foi abordada a expressão em células de mamífero (que realiza as modificações pós-traducionais) com resultados promissores. Para tanto, o peptídeo sinal de Igk, a seqüência madura e a região 3 UTR da giroxina foram clonados no vetor pED, originando um novo vetor (pED-Giro). Este vetor carrega o peptídeo sinal de Igk, o que possibilitou a secreção da giroxina para o meio de cultura. O vetor pED-Giro foi transfectado em células CHO DXB11 dhfr e COS-7. A giroxina foi detectada no extrato total das células COS-7 por western blot e, em seguida, purificada do meio de cultura com coluna de afinidade (Benzamidina Sepharose) e demonstrado sua integridade pelo ensaio de atividade esterásica. / The serine proteases affect several physiological processes (such as the coagulation cascade) and pathological ones. These enzymes are widely distributed beyond the species; they are also toxins from snake venoms and are called SVSPs (snake venom serine proteases). These SVSPs are multifunctional and have a catalytic triad formed by HDS amino acids. Some of them are commercially available for use in clinical treatment for heart attack, tromboses and pulmonary embolism. So far, in Crotalus durissus terrificus venom only two SVSPs are described and gyroxin is considered the most studied SVSP which represents about 2,5% of the total venom. In the present study was reported the cloning of seven serine proteases amplified from a cDNA library of a venomous gland of a single adult specimen from Crotalus durissus terrificus venom. These clones have been analyzed in relation to the cDNA organization, structure and probable functions. The three-dimensional model of the gyroxin made possible the analysis of similarities with trypsin, thrombin and other SVSPs. The glycosylation and many disulfide bonds of the SVSPs make difficult the expression in E.coli to obtain the soluble recombinant toxin with activity. The expression in mammalian cells is very promising, because it is possible to make pos translation modification and to obtain the recombinant toxin secreted to the culture medium. The IgK signal peptide, the mature sequence and 3\'UTR region of gyroxin were cloned in the pED expression vector resulting in a new vector (pED-Giro). This vector carries the Igk signal peptide, which allows the secretion of the protein to the culture medium. The pED-Giro vector was transfected in CHO DXB11 dhfr and COS-7 cells. The gyroxin was detected in COS-7 total extract by western blot and after, purified from the medium culture and its integrity was confirmed by esterase activity assay.

clonagem

Crotalus

expressão

giroxina

serino proteases

animal cells

cloning

enzyme

escherica coli

mammary glands

serine proteinases

snakes

thrombin

trypsin

venoms

Caracterização proteômica comparativa da agregação plaquetária induzida pela trombina e pela PA-BJ, uma serinoproteinase do veneno da Bothrops jararaca / Comparative proteomic characterization of platelet aggregation induced by thrombin and PA-BJ, a serine proteinase from the venom of Bothrops jararaca

Ana Karina de Oliveira

11 June 2015

Plaquetas são fragmentos celulares anucleados, derivados de megacariócitos, que estão envolvidos em diversos processos fisiológicos e patológicos, como coagulação, inflamação, trombose, aterosclerose, e metástase e angiogênese tumorais. Para executar estas funções, plaquetas ativadas secretam uma fração solúvel de moléculas presentes em seus conteúdos granulares, que passam a interagir com outras moléculas e células adjacentes ao local da injúria, e com os próprios receptores plaquetários. No entanto, os mecanismos que regem a secreção em plaquetas ainda são pouco conhecidos. Neste sentido, o objetivo deste estudo foi analisar comparativamente a agregação de plaquetas ativadas por dois diferentes agonistas enzimáticos: a trombina, um dos mais importantes agonistas plaquetários, e a PA-BJ, uma serinoproteinase do veneno da Bothrops jararaca, que assim como a trombina, ativa plaquetas através dos receptores PAR-1 e PAR-4. Neste estudo foram utilizadas abordagens de espectrometria de massas e de bioinformática para caracterizar alterações nos proteomas do sedimento de plaquetas não ativadas e ativadas, e também, para em paralelo analisar as frações proteicas e peptídicas presentes no sobrenadante (secretoma). Nas análises do sedimento de plaquetas ativadas tanto por PA-BJ quanto por trombina, foi verificada a menor abundância das proteínas PBP, PF4, proteína S, fibronectina, fator V e alfa-1 antitripsina, entre outras, e que também foram identificadas no sobrenadante (secretadas), e o aumento de abundância das proteínas ADAM-10, tromboxano A2 sintase, integrina αlIb, miosina-9 e fosforilase b, que estão diretamente envolvidas na ativação/agregação. Por outro lado, verificamos que na secreção plaquetária induzida por trombina ocorreu o aumento de abundância de proteínas envolvidas na regulação da formação do coágulo, como a proteína S, PAI1 e antitrombina III, sugerindo que nos eventos disparados pela trombina, exista uma regulação rigorosa de sua ação no local da injúria vascular. Já na secreção induzida por PA-BJ, verificamos o aumento significativo das proteínas amiloide beta A4 e do fibrinogênio, envolvidas na ativação/agregação plaquetária, além da liberação e ativação de MMP1, indicando que esta metaloproteinase atue sinergicamente com a PA-BJ para a formação e estabilização do agregado plaquetário. Nas análises do secretoma de plaquetas não ativadas, identificamos pela primeira vez, a presença das proteínas catalase, anidrase carbônica, inibidor de elastase leucocitária e a glicoproteína rica em histidina, que estão envolvidas na inibição e regulação da ativação plaquetária. A análise da fração peptídica do sobrenadante plaquetário permitiu avaliar pela primeira vez o degradoma gerado no processo de agregação por PA-BJ e trombina. O conjunto de peptídeos resultante da ativação plaquetária pela PA-BJ é maior e mais complexo do que aquele gerado pela ação da trombina, sugerindo que as vias ativadas por ambas sejam diferenciais e sujeitas a diferentes controles de regulação da proteólise. Além disso, a degradação seletiva de algumas proteínas, e o conjunto de peptídeos gerados, poderiam ter um papel no controle da ativação e agregação plaquetárias. Em conjunto, nossos resultados demostram que, embora a PA-BJ e a trombina induzam a agregação plaquetária mediada pelos receptores PAR-1 e PAR-4, estas enzimas induzem vias diferentes, alterando a secreção plaquetária para levar à agregação. / Platelets are anucleated cell fragments derived from megakaryocytes which are involved in many physiological and pathological processes, such as coagulation, inflammation, thrombosis, atherosclerosis, and tumor angiogenesis and metastasis. To perform these functions, activated platelets secrete a soluble fraction of molecules present in their granules, which then interact with other molecules and cells adjacent to the site of injury, and with platelet receptors. However, the mechanisms governing secretion in platelets are still poorly understood. Therefore, the objective of this study was to comparatively analyze the aggregation of platelets activated by two different enzyme agonists: thrombin, one of the most important platelet agonists, and PA-BJ, a serine proteinase from Bothrops jararaca venom, which, like thrombin, causes platelet aggregation mediated by the receptors PAR-1 and PAR-4. For this purpose, approaches of mass spectrometry and bioinformatics were used to characterize changes in the proteome of non-activated and activated platelets, and also to analyze proteins and peptides present in the supernatant of aggregated platelets (secretome). In the analysis of the sediment of platelets activated by PA-BJ and thrombin, various proteins, such as PBP, PF4, protein S, fibronectin, factor V, and alpha-1 antitrypsin, were detected in lower abundance while they were also identified as secreted, in the supernatant; likewise, proteins that are directly involved in the activation/aggregation, such as ADAM-10, thromboxane A2 synthase, integrin αIIb, myosin-9 and phosphorylase b were identified in higher abundance in platelets activated by PA-BJ and thrombin. Moreover, we found that in the thrombin-induced platelet secretion there was increased abundance of proteins involved in the regulation of blood clot formation, such as protein S, and antithrombin III PAI1, suggesting that in the events triggered by thrombin, there is strict regulation of its action at the site of vascular injury. In the analysis of the secretion induced by PA-BJ, we found a significant increase in amyloid beta A4 protein and fibrinogen, which are involved in the platelet activation/aggregation, in addition to the release and activation of MMP-1, indicating that this metalloproteinase acts synergistically with PA-BJ in the formation and stabilization of the platelet thrombus. In the analysis of the non-activated platelet secretome, we identified for the first time the presence of catalase, carbonic anhydrase, leukocyte elastase inhibitor and histidine-rich glycoprotein, which are involved in the inhibition and regulation of platelet activation. The analysis of the peptide fraction of the supernatant of activated platelets enabled the characterization, for the first time, of the degradome generated in the process of aggregation by thrombin and PA-BJ. The resulting set of peptides generated upon platelet activation by PA-BJ is larger and more complex than that generated by the action of thrombin, suggesting that the pathways activated by both are differential and are subject to different controls of proteolysis. Furthermore, the selective degradation of some proteins, and the set of generated peptides could play a role in the control of platelet activation and aggregation. Taken together, our findings demonstrate that although both PA-BJ and thrombin induce platelet aggregation via PAR-1 and PAR-4, these enzymes activate different pathways to cause platelet secretion and aggregation.

Espectrometria de massas

PA-BJ

Plaquetas

Proteômica

Serinoproteinases

Trombina

Mass spectrometry

PA-BJ

Platelets

Proteomics

Serine proteinases

Thrombin

Study of light dependent Arabidopsis phytochrome A signal transduction through FHY1 and its downstream gene expression regulation

Zhou, Zhenzhen.

January 2009

Thesis (Ph. D.)--State University of New York at Binghamton, Department of Biological Sciences, 2009. / Includes bibliographical references.

Les sérines protéases de la coagulation et leurs récepteurs "proteases-activated receptors": étude analytique de leur signalisation calcium dans une lignée endothéliale et les ostéoblastes

Daubie, Valéry

10 January 2008

Des résultats d’expériences cliniques de reconstruction de l’os maxillaire faites à partir de la greffe d’une "pâte osseuse" gélifiée par l’ajout de facteur tissulaire ont été le primum movens de ce travail. Cette "pâte osseuse", faite d’os en poudre et de plasma enrichi en plaquette (PRP) à laquelle on ajoute du facteur tissulaire, est un modèle à la fois de la coagulation et de la régénération osseuse.<p>Pour analyser des effets de la coagulation, nous avons utilisé un modèle connu :la culture primaire de cellules endothéliales (HUVEC). Les effets in vitro des facteurs de coagulation, dénommés protéases de la coagulation, pris séparément, ont été bien étudiés dans ces cellules, néanmoins aucune information sur l’effet combiné de ces protéases ou du plasma en coagulation n’était connue. Nous avons mesuré la "signalisation calcium" comme réponse cellulaire aux différents agents et ces mesures de la signalisation calcium ont été complétées par la mesure d’une autre réponse biologique, à savoir la sécrétion de cytokines pro-inflammatoires (IL-6 et IL-8). Pour l’étude de la régénération osseuse, la signalisation calcium a été mesurée sur une lignée d’ostéosarcomes humains (SaOS-2), stimulée par des protéases de la voie extrinsèque de la coagulation (facteur VIIa, facteur Xa et thrombine). Comme réponse biologique complémentaire, nous avons évalué l’effet des protéases d’intérêt sur l’apoptose induite par l’absence de sérum dans le milieu de culture.<p>\ / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished

Médecine pathologie humaine

Serine proteinases

Bone regeneration

Bone cells

Osseointegration

Peptidases à sérine

Os -- Régénération

Cellules osseuses

Ostéo-intégration

osteoblast

endothelial cell

Tissue factor

coagulation factor

protease-activated receptor

CaMKII regulation of astrocytic glutamate uptake

Chawla, Aarti R.

19 May 2016

Indiana University-Purdue University Indianapolis (IUPUI) / Glutamate clearance by astrocytes is an essential part of physiological excitatory neurotransmission. Failure to adapt or maintain low levels of glutamate in the central nervous system is associated with multiple acute and chronic neurodegenerative diseases. The primary excitatory amino acid transporters (EAATs) in human astrocytes are EAAT1 and EAAT2 (GLAST and GLT-1 respectively in rodents). While the inhibition of a ubiquitously-expressed serine/threonine protein kinase, the calcium/calmodulindependent kinase (CaMKII) results in diminished glutamate uptake in cultured primary rodent astrocytes, the molecular mechanism underlying this regulation is unknown. In order to delineate this mechanism, we use a heterologous expression model to explore CaMKII regulation of EAAT1 and EAAT2. In transiently transfected HEK293T cells, pharmacological inhibition of CaMKII and overexpression of a dominant-negative version of CaMKII (Asp136Asn) reduces [3H]-glutamate uptake by EAAT1, without altering EAAT2 mediated glutamate uptake. Surprisingly, overexpression of a constitutively active autophosphorylation mutant (Thr287Asp) to increase autonomous CaMKII activity and a mutant incapable of autophosphorylation (Thr287Val) had no effect on either EAAT1 or EAAT2 mediated glutamate uptake. Pulldown of FLAGtagged glutamate transporters suggests CaMKII does not interact with EAAT1 or EAAT2. SPOTS peptide arrays and recombinant GST-fusion proteins of the intracellular N- and C-termini of EAAT1 identified two potential phosphorylation sites at residues Thr26 and Thr37 in the N-terminus. Introducing an Ala (a non-phospho mimetic) but not an Asp (phosphomimetic) at Thr37 diminished EAAT1-mediated glutamate uptake, suggesting that the phosphorylation state of this residue is important for constitutive EAAT1 function. In sum, this is the first report of a glutamate transporter being identified as a direct CaMKII substrate. These findings indicate that CaMKII signaling is a critical driver of homeostatic glutamate uptake by EAAT1. Aberrations in basal CaMKII activity disrupt glutamate uptake, which can perpetuate glutamate-mediated excitotoxicity and result in cellular death.

EAAT1

EAAT2

Calcium signaling

Excitatory amino acid transporters

Excitotoxicity

Glutamate clearance

Glutamic acid -- Diseases

Excitatory amino acids

Astrocytes -- Diseases

Serine proteinases -- Inhibitors

Protein kinases

Neurotoxicology

mTOR regulates Aurora A via enhancing protein stability

Fan, Li

11 July 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Mammalian target of rapamycin (mTOR) is a key regulator of protein synthesis. Dysregulation of mTOR signaling occurs in many human cancers and its inhibition causes arrest at the G1 cell cycle stage. However, mTOR’s impact on mitosis (M-phase) is less clear. Here, suppressing mTOR activity impacted the G2-M transition and reduced levels of M-phase kinase, Aurora A. mTOR inhibitors did not affect Aurora A mRNA levels. However, translational reporter constructs showed that mRNA containing a short, simple 5’-untranslated region (UTR), rather than a complex structure, is more responsive to mTOR inhibition. mTOR inhibitors decreased Aurora A protein amount whereas blocking proteasomal degradation rescues this phenomenon, revealing that mTOR affects Aurora A protein stability. Inhibition of protein phosphatase, PP2A, a known mTOR substrate and Aurora A partner, restored mTOR-mediated Aurora A abundance. Finally, a non-phosphorylatable Aurora A mutant was more sensitive to destruction in the presence of mTOR inhibitor. These data strongly support the notion that mTOR controls Aurora A destruction by inactivating PP2A and elevating the phosphorylation level of Ser51 in the “activation-box” of Aurora A, which dictates its sensitivity to proteasomal degradation. In summary, this study is the first to demonstrate that mTOR signaling regulates Aurora-A protein expression and stability and provides a better understanding of how mTOR regulates mitotic kinase expression and coordinates cell cycle progression. The involvement of mTOR signaling in the regulation of cell migration by its upstream activator, Rheb, was also examined. Knockdown of Rheb was found to promote F-actin reorganization and was associated with Rac1 activation and increased migration of glioma cells. Suppression of Rheb promoted platelet-derived growth factor receptor (PDGFR) expression. Pharmacological inhibition of PDGFR blocked these events. Therefore, Rheb appears to suppress tumor cell migration by inhibiting expression of growth factor receptors that in turn drive Rac1-mediate actin polymerization.

mTOR, Aurora A, protein stability

Proteins -- Stability

Proteins -- Conformation

Proteins -- Research -- Methodology

Cell cycle -- Regulation

Mitosis -- Regulation

Serine proteinases -- Inhibitors

Rho GTPases

Neuroglia

Enzymes -- Regulation

G proteins

Cell division

Proteins -- Metabolism -- Regulation

Proteins -- Synthesis

Rapamycin

Transcription factors -- Research

Cellular signal transduction

Messenger RNA -- Research