A possible mechanism of low molecular weight protein tyrosine phosphatase (LMW-PTP) activity modulation by glutathione action during human osteoblast differentiation

Objective: Low molecular weight protein tyrosine phosphatases (LMW-PTPs) are a family of enzymes strongly involved in the regulation of cell growth and differentiation. Since there is no information concerning the relationship between osteoblastic differentiation and LMW-PTP expression/activity, we investigated its involvement during human osteoblast-like cells (hFOB 1.19) differentiation. It is known that LMW-PTP is regulated by an elegant redox mechanism, so we also observed how the osteoblastic differentiation affected the reduced glutathione levels. Design: hFOB 1.19 cells were cultured in DMEM/F12 up to 35 days. The osteoblast phenotype acquisition was monitored by measuring alkaline phosphatase activity and mineralized nodule formation by Von Kossa staining. LMW-PTP activity and expression were measured using the p-nitrophenylphosphate as substrate and Western blotting respectively. Crystal violet assay determined the cell number in each experimental point. Glutathione level was determined by both HPLC and DNTB assays. Results: LMW-PTP modulation was coincident with the osteoblastic differentiation biomarkers, such as alkaline phosphatase activity and presence of nodules of mineralization in Vitro. Likewise LMW-PTP, the reduced glutathione-dependent microenvironment was modulated during osteoblastic differentiation. During this process, LMW-PTP expression/activity, as well as alkaline phosphatase and glutathione increased progressively up to the 21st day (p < 0.001) of culturing, decreasing thereafter. Conclusions: Our results clearly suggest that LMW-PTP expression/activity was rigorously modulated during osteoblastic differentiation, possibly in response to the redox status of the cells, since it seems to depend on suitable levels of reduced glutathione. in this way, we pointed out LMW-PTP as an important signaling molecule in osteoblast biology and bone formation. (C) 2009 Elsevier Ltd. All rights reserved.

Osteoblast Adhesion Dynamics: A Possible Role for ROS and LMW-PTP

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Tartrate-resistant acid phosphatase activity and glutathione levels are modulated during hFOB 1.19 osteoblastic differentiation

Tartrate-resistant acid phosphatase (TRAP) is a well-known marker of osteoclasts and bone resorption. Here we have investigated whether osteoblast-like cells (hFOB 1.19) present TRAP activity and how would be its pattern of expression during osteoblastic differentiation. We also observed how the osteoblastic differentiation affected the reduced glutathione levels. TRAP activity was measured using the p-nitrophenylphosphate substrate. The osteogenic potential of hFOB 1.19 cells was studied by measuring alkaline phosphatase activity and mineralized nodule formation. Oxidative stress was determined by HPLC and DNTB assays. TRAP activity and the reduced glutathione-dependent microenvironment were modulated during osteoblastic differentiation. During this phase, TRAP activity, as well as alkaline phosphatase and glutathione increased progressively up to the 21st day, decreasing thereafter. We demonstrate that TRAP activity is modulated during osteoblastic differentiation, possibly in response to the redox state of the cell, since it seemed to depend on suitable levels of reduced glutathione.

Estudo das fosfatases ácidas e fosfatase alcalina na saliva e no soro de crianças

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Protein phosphatase activities in the serum and saliva of healthy children

The purpose of this study was to investigate the activities of the total acid phosphatase (TAP), tartrate-resistant acid phosphatase (TRAP), low molecular weight protein tyrosine phosphatase (LMW-PTP) and alkaline phosphatase (ALP) enzymes, as well as the possible correlation in the serum and in unstimulated whole saliva of children. Enzymatic activities were measured in pairs of concurrently obtained serum and salivary samples from 32 children in good oral and systemic health (16 of each sex) with a median age of 6.4 ± 3.3 years (range 1.08 – 12.92 years). All collections were made between the hours of 08:00 – 10:00 a.m. We used p-nitrophenyl phosphate as the substrate in the enzymatic assay for TAP, TRAP and LMW-PTP, and thymolphthalein monophosphate as the substrate for ALP. The enzymatic activities of all the studied enzymes were higher in serum than in saliva. The mean of enzymatic activities of serum TAP, TRAP, LMW-PTP and ALP were 36.51 ± 8.21, 23.99 ± 5.73, 11.16 ± 5.65 and 76.50 ± 17.32 U/L, respectively, while the mean salivary TAP, TRAP, LMW-PTP and ALP enzymatic activities were 9.60 ± 5.04, 1.36 ± 0.87, 5.65 ± 3.07 and 4.08 ± 1.83 U/L in this order. The TRAP revealed a positive linear correlation between its activity in the serum and saliva (Spearman r = 0,4685, p < 0,05). We concluded that the salivary TRAP has a potential to be use as biomarkers of pathologies and states that modify its activity in the serum.

Construction of bovine adenovirus type 3 E1 and E3, substitution plasmids and the sequencing analysis of DNA pol and pTP /

The relative ease to concentrate and purify adenoviruses, their well characterized mid-sized genome, and the ability to delete non-essential regions from their genome to accommodate foreign gene, made adenoviruses a suitable candidate for the construction of vectors. The use of adenoviral vectors in gene therapy, vaccination, and as a general vector system for expressing foreign genes have been documented for some time. In this study, the objective was to rescue a BAV3 E1 or E3 recombinant vector carrying the kanamycin resistant gene, a dominant selectable marker with useful applications in studying vectored gene expression in mammalian cells. To accomplish the objective of this study, more information about BAV3 DNA sequences was required in order to make the manipulation of the virus genome accessible. Therefore, sequencing of the BAV3 genome from 1 1 .7% to 30.8% was carried out. Analysis of the determined sequences revealed the primary structure of important viral gene products coded by E2 including BAV3 DNA pol and precursor to terminal protein. Comparative analysis of these proteins with their counterparts from human and non human adenoviruses revealed important insights as to the evolutionary lineage of BAV3. In order to insert the kanamycin resistance gene in either E1 or E3, it was necessary to delete BAV3 sequences to accommodate the foreign gene so as not to exceed the limit of the packaging capacity of the virus. To construct a recombinant BAV3 in which a foreign gene was inserted in the deleted E1 region, an E1 shuttle vector was constructed. This involved the deletion from the viral sequences a region between 1.3% to 9% and inserting the kanamycin resistance gene to replace the deletion. The E1 shuttle vector contained the left (0%- 53.9%) segment of the genome and was expected to generate BAV3 recombinants that can be grown and propagated in cells that can complement the missing E1 functions. To construct a similar shuttle vector for E3 deletion, DNA sequences extending from 78.9% to 82.5% (1281 bp) were deleted from within the E3 region that had been cloned into a plasmid vector. The deleted region corresponds to those that have been shown to be non-essential for viral replication in cell culture. The resulting plasmid was used to construct another recombinant plasmid with BAV3 DNA sequences extending from 37.1% to 100% and with a deletion of E3 sequences that were replaced by kanamycin resistance gene. This shuttle plasmid was used in cotransfections with digested viral DNA in an attempt to rescue a recombinant BAV3 carrying the kanamycin resistance gene to replace the deleted E3. In spite of repeated attempts of transfection, El or E3 recombinant BAV3 were not isolated. It seems that other approaches should be applied to make a final conclusion on BAV3 infectivity.

Vulnérabilité cardiaque au stress au cours du remodelage ventriculaire pathologique : rôle de la mitochondrie et du pore de perméabilité transitionnelle (PTP)

L’objectif central de cette thèse de Doctorat était d’investiguer les dysfonctions mitochondriales qui surviennent précocement au cours de la phase compensée du remodelage ventriculaire pathologique et qui pourraient jouer un rôle causal dans la progression vers l’insuffisance cardiaque. Nos travaux antérieurs, réalisés à l’aide d’un modèle de surcharge volumique chronique induite par une fistule aorto-cavale (ACF) chez le Rat WKHA, ont montré qu’au cours du remodelage ventriculaire, les mitochondries développaient une vulnérabilité à l’ouverture du pore de perméabilité transitionnelle (PTP : un élément clé de la signalisation de la mort cellulaire) [1]. Ceci était observable au stade compensé du remodelage en absence des dysfonctions mitochondriales majeures typiquement observées dans le cœur insuffisant. Ces résultats nous ont amenés à suggérer que la vulnérabilité à l’ouverture du PTP pourrait constituer un mécanisme précoce favorisant la progression de la cardiopathie. Dans l’étude 1 de cette thèse, nous avons tenté de tester cette hypothèse en induisant une ACF chez deux souches de rats affichant de très nettes différences au niveau de la propension à développer l’insuffisance cardiaque : les souches WKHA et Sprague Dawley (SD). Nos études in vitro sur organelles isolées et in situ sur l’organe entier ont permis de confirmer que, dans le cœur ACF, les mitochondries développent une vulnérabilité à l’ouverture du PTP et à l’activation de la voie mitochondriale de la mort cellulaire lorsqu’exposées à des stress pertinents à la pathologie (surcharge calcique, ischémie-reperfusion [I-R]). Cependant, bien que comparativement aux animaux WKHA, les animaux SD démontraient un remodelage ventriculaire plus rapide et prononcé et une progression précoce vers l’insuffisance cardiaque, aucune différence n’était observable entre les deux groupes au niveau des dysfonctions mitochondriales, suggérant quelles ne sont pas à l’origine de la progression plus rapide de la pathologie chez la souche SD, à tout le moins en réponse à la surcharge volumique. Nous avons par la suite déterminé, à l’aide des mêmes approches expérimentales, si cette vulnérabilité mitochondriale était observable dans une cardiopathie d’étiologie différente, plus spécifiquement celle qui est associée à la dystrophie musculaire de Duchenne (DMD), une maladie génétique causée par une mutation de la protéine dystrophine. Nos études menées (études 2-4) sur de jeunes souris mdx (le modèle murin de la DMD) exemptes de tout signe clinique de cardiopathie n’ont révélé aucune différence au niveau des fonctions mitochondriales de base. Cependant, tout comme dans le modèle d’ACF, les mitochondries dans le cœur de souris mdx étaient significativement plus vulnérables à l’ouverture du PTP lorsque soumises à une I-R (étude 2). Par ailleurs, nous avons démontré que l’administration aiguë de sildénafil aux souris mdx induisait une abolition de l’ouverture du PTP et de ses conséquences signalétiques, une diminution marquée du dommage tissulaire et une meilleure récupération fonctionnelle à la suite de l’I-R (étude 3). Nous avons ensuite testé chez la souris mdx l’administration aiguë de SS31, un peptide anti-oxydant ciblé aux mitochondries, cependant aucun effet protecteur n’a été observé, suggérant que le tamponnement des radicaux libres est d’une utilité limitée si les perturbations de l’homéostasie calcique typiques à cette pathologie ne sont pas traitées simultanément (étude 4). Globalement, les travaux effectués au cours de cette thèse démontrent que la vulnérabilité à l’ouverture du PTP constitue une dysfonction précoce et commune qui survient au cours de remodelages ventriculaires pathologiques d’étiologies différentes. Par ailleurs, ces travaux suggèrent des stratégies d’intervention pharmacologiques ciblant ce processus, dont l’efficacité pour la prévention de l’insuffisance cardiaque demande à être établie.

Vulnérabilité cardiaque au stress au cours du remodelage ventriculaire pathologique induit par surcharge volumique : rôle du pore de perméabilité transitionnelle (PTP)

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.

Expression of epitope-tagged LMW glutenin subunits in the starchy endosperm of transgenic wheat and their incorporation into glutenin polymers

The low-molecular-weight (LMW) glutenin subunits are components of the highly cross-linked glutenin polymers that confer viscoelastic properties to gluten and dough. They have both quantitative and qualitative effects on dough quality that may relate to differences in their ability to form the inter-chain disulphide bonds that stabilise the polymers. In order to determine the relationship between dough quality and the amounts and properties of the LMW subunits, we have transformed the pasta wheat cultivars Svevo and Ofanto with three genes encoding proteins, which differ in their numbers or positions of cysteine residues. The transgenes were delivered under control of the high-molecular-weight (HMW) subunit 1Dx5 gene promoter and terminator regions, and the encoded proteins were C-terminally tagged by the introduction of the c-myc epitope. Stable transformants were obtained with both cultivars, and the use of a specific antibody to the c-myc epitope tag allowed the transgene products to be readily detected in the complex mixture of LMW subunits. A range of transgene expression levels was observed. The addition of the epitope tag did not compromise the correct folding of the trangenic subunits and their incorporation into the glutenin polymers. Our results demonstrate that the ability to specifically epitope-tag LMW glutenin transgenes can greatly assist in the elucidation of their individual contributions to the functionality of the complex gluten system.

Acute exercise decreases PTP-1B protein level and improves insulin signaling in the liver of old rats

It is now commonly accepted that chronic inflammation associated with obesity during aging induces insulin resistance in the liver. In the present study, we investigated whether the improvement in insulin sensitivity and insulin signaling, mediated by acute exercise, could be associated with modulation of protein-tyrosine phosphatase 1B (PTP-1B) in the liver of old rats. Aging rats were subjected to swimming for two 1.5-h long bouts, separated by a 45 min rest period. Sixteen hours after the exercise, the rats were sacrificed and proteins from the insulin signaling pathway were analyzed by immunoblotting. Our results show that the fat mass was increased in old rats. The reduction in glucose disappearance rate (Kitt) observed in aged rats was restored 16 h after exercise. Aging increased the content of PTP-1B and attenuated insulin signaling in the liver of rats, a phenomenon that was reversed by exercise. Aging rats also increased the IRβ/PTP-1B and IRS-1/PTP-1B association in the liver when compared with young rats. Conversely, in the liver of exercised old rats, IRβ/PTP-1B and IRS-1/PTP-1B association was markedly decreased. Moreover, in the hepatic tissue of old rats, the insulin signalling was decreased and PEPCK and G6Pase levels were increased when compared with young rats. Interestingly, 16 h after acute exercise, the PEPCK and G6Pase protein level were decreased in the old exercised group. These results provide new insights into the mechanisms by which exercise restores insulin signalling in liver during aging. © 2013 Moura et al; licensee BioMed Central Ltd.

O PTP e as limitações para a efetivação de políticas públicas: participação popular no governo de Ana Júlia Carepa (2007-2010)

Este trabalho apresenta o modelo de gestão participativa implementado pelo governo Ana Júlia, que esteve a frente do executivo estadual paraense no período de 2007 a 2010. Por meio de análise deste mecanismo de participação popular, o presente trabalho discute a relação entre o governo e os conselheiros do PTP, focando na captura dos representantes de organizações e movimentos sociais, bem como nas limitações que impediram a Administração Pública a implementar as ações e obras do PTP. Apesar de utilizar a Internet para vencer as barreiras territoriais, absorvendo o conceito do e-Governo para o avanço na descentralização da gestão pública, mais de 60% das demandas populares não saíram do papel. Conclui-se que uma série de fatores, como a consolidação da cultura política nas estruturas de governo, os próprios limites da tecnologia informacional e problemas de planejamento para a implementação do PTP e efetivação das demandas se impuseram como entraves para o pleno desenvolvimento do mecanismo de participação.

Vascular endothelial cell-specific phosphotyrosine phosphatase (VE-PTP) activity is required for blood vessel development

VE-PTP, a receptor-type phosphotyrosine phosphatase, associates with the tyrosine kinase receptor Tie-2 and VE-cadherin and enhances the adhesive function of the latter. Here, VE-PTP was found to be restricted to endothelial cells, with a preference for arterial endothelium. Mutant mice expressing a truncated, secreted form of VE-PTP lacking the cytoplasmic and transmembrane domains and the most membrane-proximal extracellular fibronectin type III repeat, showed severe vascular malformations causing lethality at 10 days of gestation. Although blood vessels were initially formed, the intraembryonic vascular system soon deteriorated. Blood vessels in the yolk sac developed into dramatically enlarged cavities. In explant cultures of mutant allantoides, endothelial cells were found next to vessel structures growing as cell layers. No signs for enhanced endothelial apoptosis or proliferation were observed. Thus, the activity of VE-PTP is not required for the initial formation of blood vessels, yet it is essential for their maintenance and remodeling.

VE-PTP and VE-cadherin ectodomains interact to facilitate regulation of phosphorylation and cell contacts

VE-cadherin is the essential adhesion molecule in endothelial adherens junctions, and the regulation of protein tyrosine phosphorylation is thought to be important for the control of adherens junction integrity. We show here that VE-PTP (vascular endothelial protein tyrosine phosphatase), an endothelial receptor-type phosphatase, co-precipitates with VE-cadherin, but not with beta-catenin, from cell lysates of transfected COS-7 cells and of endothelial cells. Co-precipitation of VE-cadherin and VE-PTP required the most membrane-proximal extracellular domains of each protein. Expression of VE-PTP in triple-transfected COS-7 cells and in CHO cells reversed the tyrosine phosphorylation of VE-cadherin elicited by vascular endothelial growth factor receptor 2 (VEGFR-2). Expression of VE-PTP under an inducible promotor in CHO cells transfected with VE-cadherin and VEGFR-2 increased the VE-cadherin-mediated barrier integrity of a cellular monolayer. Surprisingly, a catalytically inactive mutant form of VE-PTP had the same effect on VE-cadherin phosphorylation and cell layer permeability. Thus, VE-PTP is a transmembrane binding partner of VE-cadherin that associates through an extracellular domain and reduces the tyrosine phosphorylation of VE-cadherin and cell layer permeability independently of its enzymatic activity.

EphrinB phosphorylation and reverse signaling: regulation by Src kinases and PTP-BL phosphatase

Ephrins are cell surface-associated ligands for Eph receptors and are important regulators of morphogenic processes such as axon guidance and angiogenesis. Transmembrane ephrinB ligands act as "receptor-like" signaling molecules, in part mediated by tyrosine phosphorylation and by engagement with PDZ domain proteins. However, the underlying cell biology and signaling mechanisms are poorly understood. Here we show that Src family kinases (SFKs) are positive regulators of ephrinB phosphorylation and phosphotyrosine-mediated reverse signaling. EphB receptor engagement of ephrinB causes rapid recruitment of SFKs to ephrinB expression domains and transient SFK activation. With delayed kinetics, ephrinB ligands recruit the cytoplasmic PDZ domain containing protein tyrosine phosphatase PTP-BL and are dephosphorylated. Our data suggest the presence of a switch mechanism that allows a shift from phosphotyrosine/SFK-dependent signaling to PDZ-dependent signaling.