Your search keyword '"Strale PO"' showing total 17 results

1. Co-culture of Glioblastoma Stem-like Cells on Patterned Neurons to Study Migration and Cellular Interactions.

Author

Guyon J, Strale PO, Romero-Garmendia I, Bikfalvi A, Studer V, and Daubon T

Subjects

Animals, Cell Line, Tumor, Cell Tracking, Glioma pathology, Humans, Image Processing, Computer-Assisted, Laminin pharmacology, Neoplastic Stem Cells drug effects, Neurons drug effects, Rats, Spheroids, Cellular drug effects, Spheroids, Cellular pathology, Brain Neoplasms pathology, Cell Communication drug effects, Cell Movement drug effects, Coculture Techniques methods, Glioblastoma pathology, Neoplastic Stem Cells pathology, Neurons pathology

Abstract

Glioblastomas (GBMs), grade IV malignant gliomas, are one of the deadliest types of human cancer because of their aggressive characteristics. Despite significant advances in the genetics of these tumors, how GBM cells invade the healthy brain parenchyma is not well understood. Notably, it has been shown that GBM cells invade the peritumoral space via different routes; the main interest of this paper is the route along white matter tracts (WMTs). The interactions of tumor cells with the peritumoral nervous cell components are not well characterized. Herein, a method has been described that evaluates the impact of neurons on GBM cell invasion. This paper presents an advanced co-culture in vitro assay that mimics WMT invasion by analyzing the migration of GBM stem-like cells on neurons. The behavior of GBM cells in the presence of neurons is monitored by using an automated tracking procedure with open-source and free-access software. This method is useful for many applications, in particular, for functional and mechanistic studies as well as for analyzing the effects of pharmacological agents that can block GBM cell migration on neurons.

Published

2021

2. Tailoring Common Hydrogels into 3D Cell Culture Templates.

Author

Pasturel A, Strale PO, and Studer V

Subjects

Cell Culture Techniques, Hydrogels

Abstract

Physiologically relevant cell-based models require engineered microenvironments which recapitulate the topographical, biochemical, and mechanical properties encountered in vivo. In this context, hydrogels are the materials of choice. Here a light-based toolbox is able to craft such microniches out of common place materials. Extensive use of benzophenone photoinitiators and their interaction with oxygen achieves this. First, the oxygen inhibition of radicals is harnessed to photoprint hydrogel topographies. Then the chemical properties of benzophenone are exploited to crosslink and functionalize native hydrogels lacking photosensitive moieties. At last, photoscission is introduced: an oxygen-driven, benzophenone-enabled reaction that photoliquefies Matrigel and other common gels. Using these tools, soft hydrogel templates are tailored for cells to grow or self-organize into standardized structures. The described workflow emerges as an effective microniche manufacturing toolset for 3D cell culture., (© 2020 Wiley-VCH GmbH.)

Published

2020

3. Lymphocytes perform reverse adhesive haptotaxis mediated by LFA-1 integrins.

Author

Luo X, Seveau de Noray V, Aoun L, Biarnes-Pelicot M, Strale PO, Studer V, Valignat MP, and Theodoly O

Subjects

Adhesives, Cell Adhesion, Chemotaxis, Humans, Lymphocytes, Vascular Cell Adhesion Molecule-1, Integrins, Lymphocyte Function-Associated Antigen-1

Abstract

Cell guidance by anchored molecules, or haptotaxis, is crucial in development, immunology and cancer. Adhesive haptotaxis, or guidance by adhesion molecules, is well established for mesenchymal cells such as fibroblasts, whereas its existence remains unreported for amoeboid cells that require less or no adhesion in order to migrate. We show that, in vitro , amoeboid human T lymphocytes develop adhesive haptotaxis mediated by densities of integrin ligands expressed by high endothelial venules. Moreover, lymphocytes orient towards increasing adhesion with VLA-4 integrins (also known as integrin α 4 β 1 ), like all mesenchymal cells, but towards decreasing adhesion with LFA-1 integrins (also known as integrin α L β 4 ), which has not previously been observed. This counterintuitive 'reverse haptotaxis' cannot be explained by existing mechanisms of mesenchymal haptotaxis involving either competitive anchoring of cell edges under tension or differential integrin-activated growth of lamellipodia, because they both favor orientation towards increasing adhesion. The mechanisms and functions of amoeboid adhesive haptotaxis remain unclear; however, multidirectional integrin-mediated haptotaxis might operate around transmigration ports on endothelia, stromal cells in lymph nodes, and inflamed tissue where integrin ligands are spatially modulated., Competing Interests: Competing interestsV.S. is a shareholder of Alvéole. P.-O.S. is an employee of Alvéole., (© 2020. Published by The Company of Biologists Ltd.)

Published

2020

4. Cx43-Associated Secretome and Interactome Reveal Synergistic Mechanisms for Glioma Migration and MMP3 Activation.

Author

Aftab Q, Mesnil M, Ojefua E, Poole A, Noordenbos J, Strale PO, Sitko C, Le C, Stoynov N, Foster LJ, Sin WC, Naus CC, and Chen VC

Abstract

Extracellular matrix (ECM) remodeling, degradation and glioma cell motility are critical aspects of glioblastoma multiforme (GBM). Despite being a rich source of potential biomarkers and targets for therapeutic advance, the dynamic changes occurring within the extracellular environment that are specific to GBM motility have yet to be fully resolved. The gap junction protein connexin43 (Cx43) increases glioma migration and invasion in a variety of in vitro and in vivo models. In this study, the upregulation of Cx43 in C6 glioma cells induced morphological changes and the secretion of proteins associated with cell motility. Demonstrating the selective engagement of ECM remodeling networks, secretome analysis revealed the near-binary increase of osteopontin and matrix metalloproteinase-3 (MMP3), with gelatinase and NFF-3 assays confirming the proteolytic activities. Informatic analysis of interactome and secretome downstream of Cx43 identifies networks of glioma motility that appear to be synergistically engaged. The data presented here implicate ECM remodeling and matrikine signals downstream of Cx43/MMP3/osteopontin and ARK1B10 inhibition as possible avenues to inhibit GBM.

Published

2019

5. Force-dependent binding of vinculin to α-catenin regulates cell-cell contact stability and collective cell behavior.

Author

Seddiki R, Narayana GHNS, Strale PO, Balcioglu HE, Peyret G, Yao M, Le AP, Teck Lim C, Yan J, Ladoux B, and Mège RM

Subjects

Animals, Cell Adhesion, Cells, Cultured, Dogs, Fluorescent Antibody Technique, Humans, Madin Darby Canine Kidney Cells, Mechanical Phenomena, Mechanotransduction, Cellular, Protein Binding, Actins metabolism, Adherens Junctions metabolism, Vinculin metabolism, alpha Catenin metabolism

Abstract

The shaping of a multicellular body and repair of adult tissues require fine--tuning of cell adhesion, cell mechanics, and intercellular transmission of mechanical load. Adherens junctions (AJs) are the major intercellular junctions by which cells sense and exert mechanical force on each other. However, how AJs adapt to mechanical stress and how this adaptation contributes to cell-cell cohesion and eventually to tissue-scale dynamics and mechanics remains largely unknown. Here, by analyzing the tension-dependent recruitment of vinculin, α-catenin, and F-actin as a function of stiffness, as well as the dynamics of GFP-tagged wild-type and mutated α-catenins, altered for their binding capability to vinculin, we demonstrate that the force-dependent binding of vinculin stabilizes α-catenin and is responsible for AJ adaptation to force. Challenging cadherin complexes mechanical coupling with magnetic tweezers, and cell-cell cohesion during collective cell movements, further highlight that tension-dependent adaptation of AJs regulates cell-cell contact dynamics and coordinated collective cell migration. Altogether, these data demonstrate that the force-dependent α-catenin/vinculin interaction, manipulated here by mutagenesis and mechanical control, is a core regulator of AJ mechanics and long-range cell-cell interactions., (© 2018 Seddiki et al. This article is distributed by The American Society for Cell Biology under license from the author(s). Two months after publication it is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).)

Published

2018

6. A phenomenological model of cell-cell adhesion mediated by cadherins.

Author

Mancini S, Mège RM, Sarels B, and Strale PO

Subjects

Diffusion, Intercellular Junctions, Cadherins metabolism, Cell Adhesion physiology, Models, Biological

Abstract

We present a phenomenological model intended to describe at the protein population level the formation of cell-cell junctions by the local recruitment of homophilic cadherin adhesion receptors. This modeling may have a much wider implication in biological processes since many adhesion receptors, channel proteins and other membrane-born proteins associate in clusters or oligomers at the cell surface. Mathematically, it consists in a degenerate reaction-diffusion system of two partial differential equations modeling the time-space evolution of two cadherin populations over a surface: the first one represents the diffusing cadherins and the second one concerns the fixed ones. After discussing the stability of the solutions of the model, we perform numerical simulations and show relevant analogies with experimental results. In particular, we show patterns or aggregates formation for a certain set of parameters. Moreover, perturbing the stationary solution, both density populations converge in large times to some saturation level. Finally, an exponential rate of convergence is numerically obtained and is shown to be in agreement, for a suitable set of parameters, with the one obtained in some in vitro experiments.

Published

2017

7. How cells respond to environmental cues - insights from bio-functionalized substrates.

Author

Ruprecht V, Monzo P, Ravasio A, Yue Z, Makhija E, Strale PO, Gauthier N, Shivashankar GV, Studer V, Albiges-Rizo C, and Viasnoff V

Subjects

Animals, Cell Communication drug effects, Cell Movement drug effects, Extracellular Matrix drug effects, Extracellular Matrix metabolism, Humans, Biomimetic Materials pharmacology, Cues, Environment

Abstract

Biomimetic materials have long been the (he)art of bioengineering. They usually aim at mimicking in vivo conditions to allow in vitro culture, differentiation and expansion of cells. The past decade has witnessed a considerable amount of progress in soft lithography, bio-inspired micro-fabrication and biochemistry, allowing the design of sophisticated and physiologically relevant micro- and nano-environments. These systems now provide an exquisite toolbox with which we can control a large set of physicochemical environmental parameters that determine cell behavior. Bio-functionalized surfaces have evolved from simple protein-coated solid surfaces or cellular extracts into nano-textured 3D surfaces with controlled rheological and topographical properties. The mechanobiological molecular processes by which cells interact and sense their environment can now be unambiguously understood down to the single-molecule level. This Commentary highlights recent successful examples where bio-functionalized substrates have contributed in raising and answering new questions in the area of extracellular matrix sensing by cells, cell-cell adhesion and cell migration. The use, the availability, the impact and the challenges of such approaches in the field of biology are discussed., (© 2017. Published by The Company of Biologists Ltd.)

Published

2017

8. Multiprotein Printing by Light-Induced Molecular Adsorption.

Author

Strale PO, Azioune A, Bugnicourt G, Lecomte Y, Chahid M, and Studer V

Subjects

Adsorption, Animals, Cell Adhesion, Cell Line, Fibronectins chemistry, Fibronectins metabolism, Green Fluorescent Proteins chemistry, Green Fluorescent Proteins metabolism, Mice, Microscopy, Atomic Force, Microscopy, Fluorescence, Molecular Imprinting, Proteins metabolism, Surface Properties, Tissue Engineering, Light, Proteins chemistry

Abstract

Light-induced molecular adsorption of proteins (LIMAP) allows for quantitative sub-micrometer-resolution printing of multiple biomolecules. Surface-bound gradients are patterned within minutes over an entire glass cover-slip. LIMAP is used to perform selective immuno-assays, to dynamically control the adhesion of individual cells, and to achieve hierarchical co-cultures instrumental for tissue engineering., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2016

9. The formation of ordered nanoclusters controls cadherin anchoring to actin and cell-cell contact fluidity.

Author

Strale PO, Duchesne L, Peyret G, Montel L, Nguyen T, Png E, Tampé R, Troyanovsky S, Hénon S, Ladoux B, and Mège RM

Published

2015

10. The formation of ordered nanoclusters controls cadherin anchoring to actin and cell-cell contact fluidity.

Author

Strale PO, Duchesne L, Peyret G, Montel L, Nguyen T, Png E, Tampé R, Troyanovsky S, Hénon S, Ladoux B, and Mège RM

Subjects

Adherens Junctions metabolism, Antigens, CD, Cell Adhesion, Cell Line, Tumor, Cell Movement, Humans, Protein Binding, Protein Multimerization, Protein Stability, Actin Cytoskeleton metabolism, Cadherins metabolism

Abstract

Oligomerization of cadherins could provide the stability to ensure tissue cohesion. Cadherins mediate cell-cell adhesion by forming trans-interactions. They form cis-interactions whose role could be essential to stabilize intercellular junctions by shifting cadherin clusters from a fluid to an ordered phase. However, no evidence has been provided so far for cadherin oligomerization in cellulo and for its impact on cell-cell contact stability. Visualizing single cadherins within cell membrane at a nanometric resolution, we show that E-cadherins arrange in ordered clusters, providing the first demonstration of the existence of oligomeric cadherins at cell-cell contacts. Studying the consequences of the disruption of the cis-interface, we show that it is not essential for adherens junction formation. Its disruption, however, increased the mobility of junctional E-cadherin. This destabilization strongly affected E-cadherin anchoring to actin and cell-cell rearrangement during collective cell migration, indicating that the formation of oligomeric clusters controls the anchoring of cadherin to actin and cell-cell contact fluidity., (© 2015 Strale et al.)

Published

2015

11. Adhesive interactions of N-cadherin limit the recruitment of microtubules to cell-cell contacts through organization of actomyosin.

Author

Plestant C, Strale PO, Seddiki R, Nguyen E, Ladoux B, and Mège RM

Subjects

Animals, Dogs, Madin Darby Canine Kidney Cells, Mice, Microtubule-Associated Proteins metabolism, Protein Stability, Protein Transport, Actomyosin metabolism, Cadherins metabolism, Cell Adhesion, Microtubules metabolism

Abstract

Adhesive interactions of cadherins induce crosstalk between adhesion complexes and the actin cytoskeleton, allowing strengthening of adhesions and cytoskeletal organization. The underlying mechanisms are not completely understood, and microtubules (MTs) might be involved, as for integrin-mediated cell-extracellular-matrix adhesions. Therefore, we investigated the relationship between N-cadherin and MTs by analyzing the influence of N-cadherin engagement on MT distribution and dynamics. MTs progressed less, with a lower elongation rate, towards cadherin adhesions than towards focal adhesions. Increased actin treadmilling and the presence of an actomyosin contractile belt, suggested that actin relays inhibitory signals from cadherin adhesions to MTs. The reduced rate of MT elongation, associated with reduced recruitment of end-binding (EB) proteins to plus ends, was alleviated by expression of truncated N-cadherin, but was only moderately affected when actomyosin was disrupted. By contrast, destabilizing actomyosin fibers allowed MTs to enter the adhesion area, suggesting that tangential actin bundles impede MT growth independently of MT dynamics. Blocking MT penetration into the adhesion area strengthened cadherin adhesions. Taken together, these results establish a crosstalk between N-cadherin, F-actin and MTs. The opposing effects of cadherin and integrin engagement on actin organization and MT distribution might induce bias of the MT network during cell polarization.

Published

2014

12. Down-regulation of Connexin43 expression reveals the involvement of caveolin-1 containing lipid rafts in human U251 glioblastoma cell invasion.

Author

Strale PO, Clarhaut J, Lamiche C, Cronier L, Mesnil M, and Defamie N

Subjects

Animals, Caveolin 1 analysis, Cell Adhesion, Cell Communication, Cell Line, Tumor, Cell Movement, Cell Proliferation, Cells, Cultured, Chickens, Connexin 43 analysis, Gap Junctions genetics, Gap Junctions metabolism, Gap Junctions pathology, Gene Expression Regulation, Neoplastic, Glioblastoma metabolism, Glioblastoma pathology, Humans, Membrane Microdomains genetics, Membrane Microdomains metabolism, Membrane Microdomains pathology, Mice, Neoplasm Invasiveness pathology, Caveolin 1 metabolism, Connexin 43 genetics, Connexin 43 metabolism, Down-Regulation, Glioblastoma genetics, Neoplasm Invasiveness genetics

Abstract

Glioblastoma cells are characterized by high proliferation and invasive capacities. Tumor development has been associated with a decrease of gap-junctional intercellular communication, but the concrete involvement of gap junction proteins, connexins, remains elusive since they are also suspected to promote cell invasion. In order to better understand how connexins control the glioma cell phenotype, we studied the consequences of inhibiting the intrinsic expression of the major astrocytic connexin, Connexin43, in human U251 glioblastoma cells by the shRNA strategy. The induced down-regulation of Cx43 expression has various effects on the U251 cells such as increased clonogenicity, angiogenesis and decreased adhesion on specific extracellular matrix proteins. We demonstrate that the invasion capacity measured in vitro and ex vivo correlates with Cx43 expression level. For the first time in a cancer cell context, our work demonstrates that Cx43 cofractionates, colocalizes and coimmunoprecipitates with a lipid raft marker, caveolin-1 and that this interaction is inversely correlated to the level of Cx43. This localization of Cx43 in these lipid raft microdomains regulates both homo- and heterocellular gap junctional communications (respectively between U251 cells, or between U251 cells and astrocytes). Moreover, the adhesive and invasive capacities are not dependent, in our model, on Cav-1 expression level. Our results tend to show that heterocellular gap junctional communication between cancer and stroma cells may affect the behavior of the tumor cells. Altogether, our data demonstrate that Cx43 controls the tumor phenotype of glioblastoma U251 cells and in particular, invasion capacity, through its localization in lipid rafts containing Cav-1., (Copyright © 2011 Wiley Periodicals, Inc.)

Published

2012

13. The gap junction protein Cx43 is involved in the bone-targeted metastatic behaviour of human prostate cancer cells.

Author

Lamiche C, Clarhaut J, Strale PO, Crespin S, Pedretti N, Bernard FX, Naus CC, Chen VC, Foster LJ, Defamie N, Mesnil M, Debiais F, and Cronier L

Subjects

Blotting, Western, Bone Neoplasms physiopathology, Cell Adhesion, Cell Line, Tumor, Cell Proliferation, Coculture Techniques, Humans, Immunohistochemistry, Male, Prostatic Neoplasms physiopathology, Real-Time Polymerase Chain Reaction, Bone Neoplasms secondary, Connexin 43 physiology, Gap Junctions physiology, Prostatic Neoplasms pathology

Abstract

For decades, cancer was associated with gap-junction defects. However, more recently it appeared that the gap junction proteins (connexins) could be re-expressed and participate to cancer cell dissemination during the late stages of tumor progression. Since primary tumors of prostate cancer (PCa) are known to be connexin deficient, it was interesting to verify whether their bone-targeted metastatic behaviour could be influenced by the re-expression of the connexin type (connexin43) which is originally present in prostate tissue and highly expressed in bone where it participates to the differentiation of osteoblastic cells. Thus, we investigated the effect of the increased Cx43 expression, by retroviral infection, on the metastatic behaviour of two well-characterized cell lines (PC-3 and LNCaP) representing different stages of PCa progression. It appeared that Cx43 differently behaved in those cell lines and induced different phenotypes. In LNCaP, Cx43 was functional, localized at the plasma membrane and its high expression was correlated with a more aggressive phenotype both in vitro and in vivo. In particular, those Cx43-expressing LNCaP cells exhibited a high incidence of osteolytic metastases generated by bone xenografts in mice. Interestingly, LNCaP cells were also able to decrease the proliferation of cocultured osteoblastic cells. In contrast, the increased expression of Cx43 in PC-3 cells led to an unfunctional, cytoplasmic localization of the protein and was correlated with a reduction of proliferation, adhesion and invasion of the cells. In conclusion, the localization and the functionality of Cx43 may govern the ability of PCa cells to metastasize in bones.

Published

2012

14. A galactosidase-responsive "trojan horse" for the selective targeting of folate receptor-positive tumor cells.

Author

Thomas M, Clarhaut J, Strale PO, Tranoy-Opalinski I, Roche J, and Papot S

Subjects

Animals, Cell Line, Tumor, Cell Proliferation drug effects, Humans, Ligands, Neoplasms drug therapy, Antineoplastic Agents administration & dosage, Antineoplastic Agents pharmacology, Doxorubicin administration & dosage, Doxorubicin pharmacology, Drug Delivery Systems, Folate Receptors, GPI-Anchored metabolism, beta-Galactosidase metabolism

Published

2011

15. Effect of endothelin-1 on osteoblastic differentiation is modified by the level of connexin43: comparative study on calvarial osteoblastic cells isolated from Cx43+/- and Cx43+/+ mice.

Author

Geneau G, Lamiche C, Niger C, Strale PO, Clarhaut J, Defamie N, Debiais F, Mesnil M, and Cronier L

Subjects

Animals, Bone Diseases, Metabolic genetics, Bone Remodeling drug effects, Bone Remodeling genetics, Calcification, Physiologic genetics, Cell Communication drug effects, Cell Communication genetics, Cell Differentiation drug effects, Cell Division genetics, Cell Proliferation, Connexin 43 genetics, Endothelin-1 pharmacology, Gap Junctions drug effects, Gap Junctions genetics, Growth Inhibitors metabolism, Growth Inhibitors pharmacology, Mechanotransduction, Cellular drug effects, Mechanotransduction, Cellular physiology, Mice, Mice, Knockout, Mice, Transgenic, Organ Culture Techniques, Osteoblasts drug effects, Osteogenesis drug effects, Skull diagnostic imaging, Skull metabolism, Skull physiopathology, X-Ray Microtomography, Cell Differentiation genetics, Connexin 43 metabolism, Endothelin-1 metabolism, Gap Junctions metabolism, Osteoblasts metabolism, Osteogenesis genetics

Abstract

Bone is a dynamic tissue that undergoes a precise remodeling process involving resorptive osteoclastic cells and bone-forming osteoblastic (OB) cells. The functional imbalance of either of these cell types can lead to severe skeletal diseases. The proliferation and differentiation of OB cells play a major role in bone development and turnover. These cellular processes are coordinated by connexin43 (Cx43)-based gap-junctional intercellular communication (GJIC) and by soluble factors such as endothelin-1 (ET-1). We have used the Cx43 heterozygous (Cx43(+/-)) murine model to study the possible cross-talk between Cx43 and ET-1 in cultured calvarial OB cells. On microcomputed tomographic analysis of 3-day-old pups, Cx43(+/-) mice showed hypomineralized calvaria in comparison with their Cx43(+/+) littermates. Characterization of cultured OB cells clearly demonstrated the effect of the partial deletion of the Cx43 gene on its expression, on GJIC, and subsequently on OB differentiation. In this model, ET-1 (10(-8) M) lost its mitogenic action in Cx43(+/-) OB cells compared with Cx43(+/+) cells. Moreover, a correlation between the inhibition of cell differentiation by ET-1 and the decreased amount and function of Cx43 was found in Cx43(+/+) OB cells but not in their Cx43(+/-) counterparts. Thus, as Cx43 is linked to OB differentiation, our data indicate that this mitogenic ET-1 peptide has pronounced effects on fully differentiated OB cells. With respect to roles in mechanotransduction and OB differentiation, Cx43 might modulate osteoblastic sensitivity to soluble factors.

Published

2010

16. Gap junctions and cancer: new functions for an old story.

Author

Cronier L, Crespin S, Strale PO, Defamie N, and Mesnil M

Subjects

Cell Communication physiology, Connexins metabolism, Connexins physiology, Gene Expression Regulation, Neoplastic physiology, Neoplasms physiopathology, Gap Junctions metabolism, Gap Junctions physiology, Neoplasms metabolism

Abstract

Cancer was one of the first pathologies to be associated with gap-junction defect. Despite the evidence accumulated over the last 40-year period, the molecular involvement of gap junctions and their structural proteins (connexins) in cancer has not been elucidated. The lack of a satisfying explanation may come from the complexity of the disease, evolving through various stages during tumor progression, with cancer cells exhibiting different phenotypes. Here, the question of the involvement of gap junctions has been readdressed by considering the connexin expression/function level at different fundamental stages of carcinogenesis (cell proliferation, cell invasion, and cancer cell dissemination). By performing this analysis, it becomes clear that gap junctions are probably differently involved, depending on the stage of the cancer progression considered. In particular, the most recent data suggest that connexins may act on cell growth by controlling gene expression through a variety of processes (independent of or dependent on the gap-junctional communication capacity). During invasion, connexins have been demonstrated to enhance adherence of cancer cells to the stroma, migration, and probably their dissemination by establishing communication with the endothelial barrier. All these data present a complex picture of connexins in various functions, depending on the cell phenotype.

Published

2009

17. Stimulation of salivary secretion in vivo by CFTR potentiators in Cftr+/+ and Cftr-/- mice.

Author

Noël S, Strale PO, Dannhoffer L, Wilke M, DeJonge H, Rogier C, Mettey Y, and Becq F

Subjects

Animals, Cystic Fibrosis drug therapy, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Disease Models, Animal, Female, Mice, Mice, Inbred CFTR, Mice, Knockout, Protein Kinase Inhibitors pharmacology, Saliva drug effects, Salivary Glands metabolism, Cystic Fibrosis metabolism, Cystic Fibrosis Transmembrane Conductance Regulator agonists, Genistein pharmacology, Quaternary Ammonium Compounds pharmacology, Quinolizines pharmacology, Saliva metabolism, Salivary Glands drug effects

Abstract

Background: Physiologically, salivary secretion is controlled by cholinergic and adrenergic pathways but the role of ionic channels in this process is not yet clearly understood. In cystic fibrosis (CF), most exocrine glands failed to response to beta-adrenergic agonists., Methods: To determine the implication of CFTR in this process, we measured in vivo the salivary secretion of Cftr(+/+) and Cftr(-/-) mice in the presence of 2 water-soluble benzo[c]quinolizinium derivatives; MPB-07 a potentiator of CFTR Cl(-) channel and MPB-05 an inactive analogue. We also used genistein and its vehicle ethanol to confirm the implication of CFTR in salivary secretion., Results: We showed that subcutaneous injection of MPB-07 in the mice cheek enhanced in a dose dependent manner the isoprenaline-induced salivary secretion in Cftr(+/+) but not in Cftr(-/-) mice. By contrast, MPB-05 did not activate the salivary secretion in Cftr(+/+) mice. The CFTR activator genistein (50 microM) significantly potentiated the secretory response of Cftr(+/+) mice whereas its vehicle, ethanol, had no effect., Conclusions: These results show for the first time in vivo pharmacological stimulation of salivary secretion by a water-soluble CFTR potentiator, MPB-07 and by the isoflavone, ethanol-soluble genistein and suggest that this chloride channel plays an important role in salivary gland physiology.

Published

2008