22 research outputs found
Fréquentation des passages fauniques par la petite faune
La présence des réseaux routiers peut entraîner plusieurs conséquences sur les mammifères terrestres. En effet, la circulation routière est responsable de la mortalité d’individus suite à des collisions avec les véhicules. Les réseaux routiers agissent comme un filtre aux déplacements, ils induisent une diminution de la qualité et de la quantité d’habitats disponibles et ils contribuent au phénomène de fragmentation du paysage. Pour réduire les impacts des routes sur la faune et assurer la perméabilité entre les habitats, l’utilisation de passages fauniques s’est développée au cours des dernières années. Plusieurs facteurs sont responsables de la fréquentation de ces passages par les espèces. Certains d’entre eux sont liés aux caractéristiques des structures (couvert, longueur, largeur, aménagement, etc.) alors que d’autres dépendent de l’écologie des espèces présentes. Dès l’été 2009, une analyse de la fréquentation des passages fauniques par les mammifères de petite et moyenne taille fut amorcée le long de la route 175. Au Québec, la considération des problématiques engendrées par les routes sur la faune terrestre n’en est encore qu’à ses débuts et ces aménagements représentent une progression pour leur prise en compte future
Differential effects of cyclic and constant stress on ATP release and mucociliary transport by human airway epithelia: Role of cyclic stress in airway mucociliary transport
In the lungs, the first line of defence against bacterial infection is the thin layer of airway surface liquid (ASL) lining the airway surface. The superficial airway epithelium exhibits complex regulatory pathways that blend ion transport to adjust ASL volume to maintain proper mucociliary clearance (MCC). We hypothesized that stresses generated by airflow and transmural pressures during breathing govern ASL volume by regulating the rate of epithelial ATP release. Luminal ATP, via interactions with apical membrane P2-purinoceptors, regulates the balance of active ion secretion versus absorption to maintain ASL volume at optimal levels for MCC. In this study we tested the hypothesis that cyclic compressive stress (CCS), mimicking normal tidal breathing, regulates ASL volume in airway epithelia. Polarized tracheobronchial epithelial cultures from normal and cystic fibrosis (CF) subjects responded to a range of CCS by increasing the rate of ATP release. In normal airway epithelia, the CCS-induced increase in ASL ATP concentration was sufficient to induce purinoceptor-mediated increases in ASL height and MCC, via inhibition of epithelial Na+-channel-mediated Na+ absorption and stimulation of Cl− secretion through CFTR and the Ca2+-activated chloride channels. In contrast, static, non-oscillatory stress did not stimulate ATP release, ion transport or MCC, emphasizing the importance of rhythmic mechanical stress for airway defence. In CF airway cultures, which exhibit basal ASL depletion, CCS was partially effective, producing less ASL volume secretion than in normal cultures, but a level sufficient to restore MCC. The present data suggest that CCS may (1) regulate ASL volume in the normal lung and (2) improve clearance in the lungs of CF patients, potentially explaining the beneficial role of exercise in lung defence
Human Airway Ecto-adenylate Kinase: A MECHANISM TO PROPAGATE ATP SIGNALING ON AIRWAY SURFACES
Mechanically induced ATP release from human airway epithelial cells regulates mucociliary clearance through cell surface nucleotide receptors. Ectoenzymes detected on these cells were recently shown to terminate ATP-mediated responses by sequential dephosphorylation of extracellular ATP into ADP, AMP, and adenosine. We now demonstrate that an ecto-adenylate kinase (ecto-AK) contributes to the metabolism of adenine nucleotides on human airway epithelial surfaces by the reversible reaction: ATP + AMP 2ADP. This phosphotransferase exhibited a bilateral distribution on polarized primary cultures of human bronchial epithelial cells with a 4-fold higher activity on the mucosal surface. Ecto-AK presented an absolute requirement for magnesium and adenine-based nucleotides. UMP, GMP, and CMP could not substitute for AMP as gamma-phosphate acceptor, and UDP could not replace ADP. Apparent K(m) and V(max) values were 23 +/- 5 microM and 1.1 +/- 0.1 nmol x min(-1) x cm(-2) for ATP and 43 +/- 6 microM and 0.5 +/- 0.1 nmol x min(-1) x cm(-2) for ADP. Ecto-AK accounted for 20% of [gamma-(32)P]ATP dephosphorylation, and the impermeant AK inhibitor, diadenosine pentaphosphate, reduced ADPase activity by more than 70% on both epithelial surfaces. Time course experiments on ATP metabolism demonstrated that ecto-AK significantly prolongs effective ATP and ADP concentrations on airway epithelial surfaces for P2 receptor signaling and reduces by 6-fold adenosine production. Our data suggest a role for this nucleotide entrapment cycle in the propagation of purine-mediated mucociliary clearance on human airway epithelial surfaces
MMP-2 expression in uveal melanoma : differential activation status dictated by the cellular environment
Purpose: MMPs are recognized to play a major role in tumor progression and metastasis of many forms of cancers. The
purpose of this study was to compare the expression and activity of MMP-2 in uveal melanoma cell lines grown either in
vitro on plastic culture plates or in vivo as tumors produced in chick embryos.
Methods: The chick chorioallantoic membrane (CAM) model was used to evaluate the tumorigenic potential of uveal
melanoma cell lines derived either from the primary uveal melanoma tumor isolated from three different patients (cell
lines SP6.5, SP8.0, and TP31) or from a metastatic lesion derived from the liver of a patient diagnosed with uveal melanoma
(cell line H79). The presence of MMP-2 in the vicinity of the tumor cells was determined by immunofluorescence
analyses. Gelatin zymography was used for the detection of latent and activated forms of MMP-2 in uveal melanoma cell
lines when grown in vitro on plastic, or in the solid tumors these cell lines produced in vivo on the CAM of the chick
embryo. The gelatinase activity was quantified by densitometric analyses and the active/(active+pro-form) ratio was
calculated as the MMP-2 activation ratio. Western blot analyses were performed to confirm the zymographic profile.
Results: Only the inactive form of MMP-2 was expressed and secreted in vitro by all uveal melanoma cell lines, higher
levels being found for the liver-derived H79 cell line whereas SP8.0 only expressed MMP-2 to a very low level. On the
other hand, all solid tumors produced in the CAM from these cell lines expressed and secreted, although to varying levels
(SP6.5 and SP8.0, TP31 and H79), primarily the active form of MMP-2. Gelatinolytic activities of active MMP-2 were
significantly higher in uveal melanoma tissues than in the non-neoplastic CAM, as revealed by the measurement of the
activation ratio. The immunolocalization of MMP-2 revealed that all cell lines were MMP-2-positive although a reduced
and more diffuse staining was observed for H79 and SP6.5 than in SP8.0 and TP31 cells.
Conclusions: These results suggest the activation of proMMP-2 as an important event in the process of uveal melanoma
progression. An elevated active to inactive MMP-2 ratio in the tumor environment of uveal melanoma suggests that a
potential MMP-2 activity could be related to the progression of this type of cancer
Metabolism of P2 Receptor Agonists in Human Airways: IMPLICATIONS FOR MUCOCILIARY CLEARANCE AND CYSTIC FIBROSIS
Extracellular nucleotides are among the most potent mediators of mucociliary clearance (MCC) in human lungs. However, clinical trials revealed that aerosolized nucleotides provide only a transient improvement of MCC to patients diagnosed with cystic fibrosis (CF). In this study, we identified the mechanism that eliminates extracellular nucleotides from human airways. Polarized primary cultures of human bronchial epithelial cells were impermeable to extracellular nucleotides but rapidly dephosphorylated ATP into ADP, AMP, and adenosine. The half-life of a therapeutic ATP concentration (0.1 mm) was approximately 20 s within the periciliary liquid layer. The mucosal epithelial surface eliminated P2 receptor agonists (ATP = UTP > ADP > UDP) at 3-fold higher rates than the serosal surface. We also showed that mucosal (not serosal) ectoATPase activity increases toward areas most susceptible to airway obstruction (nose < bronchi << bronchioles). Bronchial cultures from patients with CF, primary ciliary dyskinesia, or alpha1-antitrypsin deficiency exhibited 3-fold higher mucosal (not serosal) ectoATPase activity than normal cultures. Time course experiments indicated that CF enhances ATP elimination and adenosine accumulation on the mucosal surface. Furthermore, nonspecific alkaline phosphatase was identified as the major regulator of airway nucleotide concentrations in CF, primary ciliary dyskinesia, and alpha1-antitrypsin deficiency. The ectoAT-Pase activity and mRNA expression of mucosally restricted nonspecific alkaline phosphatase were 3-fold higher on bronchial cultures from these patients than from healthy subjects. This study demonstrates that the duration of nucleotide-mediated MCC is limited by epithelial ectonucleotidases throughout human airways, with the efficiency of this mechanism enhanced in chronic inflammatory lung diseases, including CF
Ecto 5′-Nucleotidase and Nonspecific Alkaline Phosphatase: TWO AMP-HYDROLYZING ECTOENZYMES WITH DISTINCT ROLES IN HUMAN AIRWAYS
In human airways, extracellular adenosine regulates epithelial functions supporting mucociliary clearance, an important airway defense mechanism against bacterial infection. Thus, defining the mechanisms of adenosine generation is critical for elucidating the role of this nucleoside in airway homeostasis. In this study, we identified the source of adenosine on the mucosal surface of human airway epithelia. Polarized primary cultures of human nasal or bronchial epithelial cells were assayed for transepithelial transport, cytosolic and cell surface adenosine production. Ussing chamber experiments indicated that serosal 1 microM [(3)H]adenosine was not transported to the mucosal compartment. Messenger RNA for the cytosolic AMP-specific 5'-nucleotidase (CN-I) was not detected in human bronchial epithelial cells, suggesting that mucosal adenosine did not originate from intracellular pools. In contrast, extracellular 0.1 mm ATP was rapidly dephosphorylated into adenosine on the mucosal epithelial surface. We identified two ectonucleotidases that mediated the conversion of AMP to adenosine: ecto 5'-nucleotidase (ecto 5'-NT, CD73) and alkaline phosphatase (AP). Both mucosal and serosal epithelial surfaces displayed ecto 5'-NT activity (K(m) = 14 microM, V(max) = 0.5 nmol x min(-1) x cm(-2)), whereas AP activity was restricted to the mucosal surface (K(m,)(high) = 36 microM, V(max) = 1.2 nmol x min(-1) x cm(-2); K(m,)(low) = 717 microM, V(max) = 2.8 nmol x min(-1) x cm(-2)). In bronchial cultures and tissues, ecto 5'-NT accounted for >80% of total activity toward 0.01 mm AMP, compared with <15% for 5 mm AMP. The proximal airway AP isoform was identified as nonspecific AP (NS AP) by levamisole sensitivity and mRNA expression. The two ectoenzymes presented opposite airway distributions, ecto 5'-NT and NS AP mRNA dominating in higher and lower airways, respectively. Collectively, these experiments support a major role for extracellular nucleotide catalysis and for ecto 5'-NT and NS AP in the regulation of adenosine concentrations on airway surfaces
Mathematical Model of Nucleotide Regulation on Airway Epithelia: IMPLICATIONS FOR AIRWAY HOMEOSTASIS
In the airways, adenine nucleotides support a complex signaling network mediating host defenses. Released by the epithelium into the airway surface liquid (ASL) layer, they regulate mucus clearance through P2 (ATP) receptors, and following surface metabolism through P1 (adenosine; Ado) receptors. The complexity of ASL nucleotide regulation provides an ideal subject for biochemical network modeling. A mathematical model was developed to integrate nucleotide release, the ectoenzymes supporting the dephosphorylation of ATP into Ado, Ado deamination into inosine (Ino), and nucleoside uptake. The model also includes ecto-adenylate kinase activity and feed-forward inhibition of Ado production by ATP and ADP. The parameters were optimized by fitting the model to experimental data for the steady-state and transient concentration profiles generated by adding ATP to polarized primary cultures of human bronchial epithelial (HBE) cells. The model captures major aspects of ATP and Ado regulation, including their >4-fold increase in concentration induced by mechanical stress mimicking normal breathing. The model also confirmed the independence of steady-state nucleotide concentrations on the ASL volume, an important regulator of airway clearance. An interactive approach between simulations and assays revealed that feed-forward inhibition is mediated by selective inhibition of ecto-5′-nucleotidase. Importantly, the model identifies ecto-adenylate kinase as a key regulator of ASL ATP and proposes novel strategies for the treatment of airway diseases characterized by impaired nucleotide-mediated clearance. These new insights into the biochemical processes supporting ASL nucleotide regulation illustrate the potential of this mathematical model for fundamental and clinical research
Normal and Cystic Fibrosis Airway Surface Liquid Homeostasis: THE EFFECTS OF PHASIC SHEAR STRESS AND VIRAL INFECTIONS
Mammalian airways normally regulate the volume of a thin liquid layer, the periciliary liquid (PCL), to facilitate the mucus clearance component of lung defense. Studies under standard (static) culture conditions revealed that normal airway epithelia possess an adenosine-regulated pathway that blends Na+ absorption and Cl− secretion to optimize PCL volume. In cystic fibrosis (CF), the absence of CF transmembrane conductance regulator results in a failure of adenosine regulation of PCL volume, which is predicted to initiate mucus stasis and infection. However, under conditions that mimic the phasic motion of the lung in vivo, ATP release into PCL was increased, CF ion transport was rebalanced, and PCL volume was restored to levels adequate for lung defense. This ATP signaling system was vulnerable, however, to insults that trigger CF bacterial infections, such as viral (respiratory syncitial virus) infections, which up-regulated extracellular ATPase activity and abolished motion-dependent ATP regulation of CF PCL height. These studies demonstrate (i) how the normal coordination of opposing ion transport pathways to maintain PCL volume is disrupted in CF, (ii) the hitherto unknown role of phasic motion in regulating key aspects of normal and CF innate airways defense, and (iii) that maneuvers directed at increasing motion-induced nucleotide release may be therapeutic in CF patients
E-NTPDases in human airways: Regulation and relevance for chronic lung diseases
Chronic obstructive lung diseases are characterized by the inability to prevent bacterial infection and a gradual loss of lung function caused by recurrent inflammatory responses. In the past decade, numerous studies have demonstrated the importance of nucleotide-mediated bacterial clearance. Their interaction with P2 receptors on airway epithelia provides a rapid ‘on-and-off’ signal stimulating mucus secretion, cilia beating activity and surface hydration. On the other hand, abnormally high ATP levels resulting from damaged epithelia and bacterial lysis may cause lung edema and exacerbate inflammatory responses. Airway ATP concentrations are regulated by ecto nucleoside triphosphate diphosphohydrolases (E-NTPDases) which are expressed on the mucosal surface and catalyze the sequential dephosphorylation of nucleoside triphosphates to nucleoside monophosphates (ATP → ADP → AMP). The common bacterial product, Pseudomonas aeruginosa lipopolysaccharide (LPS), induces an acute reduction in azide-sensitive E-NTPDase activities, followed by a sustained increase in activity as well as NTPDase 1 and NTPDase 3 expression. Accordingly, chronic lung diseases, including cystic fibrosis (CF) and primary ciliary dyskinesia, are characterized by higher rates of nucleotide elimination, azide-sensitive E-NTPDase activities and expression. This review integrates the biphasic regulation of airway E-NTPDases with the function of purine signaling in lung diseases. During acute insults, a transient reduction in E-NTPDase activities may be beneficial to stimulate ATP-mediated bacterial clearance. In chronic lung diseases, elevating E-NTPDase activities may represent an attempt to prevent P2 receptor desensitization and nucleotide-mediated lung damage
Le musée, un lieu éducatif
This anthology contains essays on various aspects of museum education, by 35 members of the Special Interest Group on Education and Museums (SIGEM). Originally presented at a conference held in Montreal in 1995, the essays in this book address a wide range of issues related to the educational function of museums. Topics discussed include: educational, scientific and museological research; the value of guided tours and visual arts workshops; the question of evaluation; and relationships between museums and schools. 21 diagrams and 19 charts. 4 texts in English 31 texts in French. Circa 480 bibl. ref