Your search keyword '"Delpiano, Livia"' showing total 24 results

1. Airway succinate chemosensing induces CFTR-dependent anion secretion and mucus clearance which is impaired in cystic fibrosis.

Author

Apablaza, Tabata, primary, Barros-Poblete, Marisol, additional, Delpiano, Livia, additional, Villanueva, Sandra, additional, Guequen, Anita, additional, Tapia-Balladares, Barbara, additional, Haq, Iram J, additional, Tribinos, Felipe, additional, Hernandez-Rivas, Sebastian, additional, Verdon, Bernard, additional, Biggart, Matthew GS, additional, Sanchez, Yenniffer, additional, Ward, Christopher, additional, Baxter, B Dnate, additional, Restrepo, Diego, additional, Cornejo, Isabel, additional, Tarran, Robert, additional, Catalan, Marcelo A, additional, Gray, Mike, additional, and Flores, Carlos A, additional

Published

2024

2. Extracellular phosphate enhances the function of F508del-CFTR rescued by CFTR correctors

Author

Saint-Criq, Vinciane, Wang, Yiting, Delpiano, Livia, Lin, JinHeng, Sheppard, David N., and Gray, Michael A.

Published

2021

3. Small Molecule Anion Carriers Correct Abnormal Airway Surface Liquid Properties in Cystic Fibrosis Airway Epithelia

Author

Gianotti, Ambra, Capurro, Valeria, Delpiano, Livia, Mielczarek, Marcin, García Valverde, María, Carreira Barral, Israel, Ludovico, Alessandra, Fiore, Michele, Baroni, Debora, Moran, Óscar, Quesada Pato, Roberto, Caci, Emanuela, Gianotti, Ambra, Capurro, Valeria, Delpiano, Livia, Mielczarek, Marcin, García Valverde, María, Carreira Barral, Israel, Ludovico, Alessandra, Fiore, Michele, Baroni, Debora, Moran, Óscar, Quesada Pato, Roberto, and Caci, Emanuela

Abstract

Cystic fibrosis (CF) is a genetic disease characterized by the lack of cystic fibrosis transmembrane conductance regulator (CFTR) protein expressed in epithelial cells. The resulting defective chloride and bicarbonate secretion and imbalance of the transepithelial homeostasis lead to abnormal airway surface liquid (ASL) composition and properties. The reduced ASL volume impairs ciliary beating with the consequent accumulation of sticky mucus. This situation prevents the normal mucociliary clearance, favouring the survival and proliferation of bacteria and contributing to the genesis of CF lung disease. Here, we have explored the potential of small molecules capable of facilitating the transmembrane transport of chloride and bicarbonate in order to replace the defective transport activity elicited by CFTR in CF airway epithelia. Primary human bronchial epithelial cells obtained from CF and non-CF patients were differentiated into a mucociliated epithelia in order to assess the effects of our compounds on some key properties of ASL. The treatment of these functional models with non-toxic doses of the synthetic anionophores improved the periciliary fluid composition, reducing the fluid re-absorption, correcting the ASL pH and reducing the viscosity of the mucus, thus representing promising drug candidates for CF therapy., This work was financially supported by the European Union’s Horizon 2020 research and innovation programme under grant agreement no. 667079 and from the Italian Cystic Fibrosis Foundation (FFC no. CP/2012 with the contribution of ‘Delegazione FFC di Verona and Imola-Romagna’ and ‘Delegazione FFC di Roma’).

Published

2024

4. Dynamic regulation of airway surface liquid pH by TMEM16A and SLC26A4 in cystic fibrosis nasal epithelia with rare mutations

Author

Delpiano, Livia, primary, Rodenburg, Lisa W., additional, Burke, Matthew, additional, Nelson, Glyn, additional, Amatngalim, Gimano D., additional, Beekman, Jeffrey M., additional, and Gray, Michael A., additional

Published

2023

5. Dynamic regulation of airway surface liquid pH by TMEM16A and SLC26A4 in cystic fibrosis nasal epithelia with rare mutations

Author

Longziekten onderzoek 2, Child Health, Onderzoek, Regenerative Medicine and Stem Cells, Delpiano, Livia, Rodenburg, Lisa W., Burke, Matthew, Nelson, Glyn, Amatngalim, Gimano D., Beekman, Jeffrey M., Gray, Michael A., Longziekten onderzoek 2, Child Health, Onderzoek, Regenerative Medicine and Stem Cells, Delpiano, Livia, Rodenburg, Lisa W., Burke, Matthew, Nelson, Glyn, Amatngalim, Gimano D., Beekman, Jeffrey M., and Gray, Michael A.

Published

2023

6. Different reactivity of primary fibroblasts and endothelial cells towards crystalline silica: A surface radical matter

Author

Pozzolini, Marina, Vergani, Laura, Ragazzoni, Milena, Delpiano, Livia, Grasselli, Elena, Voci, Adriana, Giovine, Marco, and Scarfì, Sonia

Published

2016

7. The SLC26A9 inhibitor S9‐A13 provides no evidence for a role of SLC26A9 in airway chloride secretion but suggests a contribution to regulation of ASL pH and gastric proton secretion

Author

Jo, Sungwoo, Centeio, Raquel, Park, Jinhong, Ousingsawat, Jiraporn, Jeon, Dong‐kyu, Talbi, Khaoula, Schreiber, Rainer, Ryu, Kunhi, Kahlenberg, Kristin, Somoza, Veronika, Delpiano, Livia, Gray, Michael A., Amaral, Margarida D., Railean, Violeta, Beekman, Jeffrey M., Rodenburg, Lisa W., Namkung, Wan, and Kunzelmann, Karl

Subjects

airways, asthma, Cl− secretion, cystic fibrosis, pH regulation, S9-A13, SLC26A9, 570 Biowissenschaften, Biologie, ddc:570

Abstract

The solute carrier 26 family member A9 (SLC26A9) is an epithelial anion transporter that is assumed to contribute to airway chloride secretion and surface hydration. Whether SLC26A9 or CFTR is responsible for airway Cl− transport under basal conditions is still unclear, due to the lack of a specific inhibitor for SLC26A9. In the present study, we report a novel potent and specific inhibitor for SLC26A9, identified by screening of a drug-like molecule library and subsequent chemical modifications. The most potent compound S9-A13 inhibited SLC26A9 with an IC50 of 90.9 ± 13.4 nM. S9-A13 did not inhibit other members of the SLC26 family and had no effects on Cl− channels such as CFTR, TMEM16A, or VRAC. S9-A13 inhibited SLC26A9 Cl− currents in cells that lack expression of CFTR. It also inhibited proton secretion by HGT-1 human gastric cells. In contrast, S9-A13 had minimal effects on ion transport in human airway epithelia and mouse trachea, despite clear expression of SLC26A9 in the apical membrane of ciliated cells. In both tissues, basal and stimulated Cl− secretion was due to CFTR, while acidification of airway surface liquid by S9-A13 suggests a role of SLC26A9 for airway bicarbonate secretion.

Published

2022

8. Drug Repurposing for Cystic Fibrosis: Identification of Drugs That Induce CFTR-Independent Fluid Secretion in Nasal Organoids

Author

Rodenburg, Lisa W., primary, Delpiano, Livia, additional, Railean, Violeta, additional, Centeio, Raquel, additional, Pinto, Madalena C., additional, Smits, Shannon M. A., additional, van der Windt, Isabelle S., additional, van Hugten, Casper F. J., additional, van Beuningen, Sam F. B., additional, Rodenburg, Remco N. P., additional, van der Ent, Cornelis K., additional, Amaral, Margarida D., additional, Kunzelmann, Karl, additional, Gray, Michael A., additional, Beekman, Jeffrey M., additional, and Amatngalim, Gimano D., additional

Published

2022

9. The SLC26A9 inhibitor S9‐A13 provides no evidence for a role of SLC26A9 in airway chloride secretion but suggests a contribution to regulation of ASL pH and gastric proton secretion

Author

Jo, Sungwoo, primary, Centeio, Raquel, additional, Park, Jinhong, additional, Ousingsawat, Jiraporn, additional, Jeon, Dong‐kyu, additional, Talbi, Khaoula, additional, Schreiber, Rainer, additional, Ryu, Kunhi, additional, Kahlenberg, Kristin, additional, Somoza, Veronika, additional, Delpiano, Livia, additional, Gray, Michael A., additional, Amaral, Margarida D., additional, Railean, Violeta, additional, Beekman, Jeffrey M., additional, Rodenburg, Lisa W., additional, Namkung, Wan, additional, and Kunzelmann, Karl, additional

Published

2022

10. The SLC26A9 inhibitor S9-A13 provides no evidence for a role of SLC26A9 in airway chloride secretion but suggests a contribution to regulation of ASL pH and gastric proton secretion

Author

Longziekten onderzoek 2, Onderzoek, Child Health, Regenerative Medicine and Stem Cells, Jo, Sungwoo, Centeio, Raquel, Park, Jinhong, Ousingsawat, Jiraporn, Jeon, Dong kyu, Talbi, Khaoula, Schreiber, Rainer, Ryu, Kunhi, Kahlenberg, Kristin, Somoza, Veronika, Delpiano, Livia, Gray, Michael A., Amaral, Margarida D., Railean, Violeta, Beekman, Jeffrey M., Rodenburg, Lisa W., Namkung, Wan, Kunzelmann, Karl, Longziekten onderzoek 2, Onderzoek, Child Health, Regenerative Medicine and Stem Cells, Jo, Sungwoo, Centeio, Raquel, Park, Jinhong, Ousingsawat, Jiraporn, Jeon, Dong kyu, Talbi, Khaoula, Schreiber, Rainer, Ryu, Kunhi, Kahlenberg, Kristin, Somoza, Veronika, Delpiano, Livia, Gray, Michael A., Amaral, Margarida D., Railean, Violeta, Beekman, Jeffrey M., Rodenburg, Lisa W., Namkung, Wan, and Kunzelmann, Karl

Published

2022

11. Drug Repurposing for Cystic Fibrosis: Identification of Drugs That Induce CFTR-Independent Fluid Secretion in Nasal Organoids

Author

Longziekten onderzoek 2, Regenerative Medicine and Stem Cells, Longziekten patientenzorg, Speerpunt Child Health, Child Health, Infection & Immunity, Onderzoek, Rodenburg, Lisa W., Delpiano, Livia, Railean, Violeta, Centeio, Raquel, Pinto, Madalena C., Smits, Shannon M.A., van der Windt, Isabelle S., van Hugten, Casper F.J., van Beuningen, Sam F.B., Rodenburg, Remco N.P., van der Ent, Cornelis K., Amaral, Margarida D., Kunzelmann, Karl, Gray, Michael A., Beekman, Jeffrey M., Amatngalim, Gimano D., Longziekten onderzoek 2, Regenerative Medicine and Stem Cells, Longziekten patientenzorg, Speerpunt Child Health, Child Health, Infection & Immunity, Onderzoek, Rodenburg, Lisa W., Delpiano, Livia, Railean, Violeta, Centeio, Raquel, Pinto, Madalena C., Smits, Shannon M.A., van der Windt, Isabelle S., van Hugten, Casper F.J., van Beuningen, Sam F.B., Rodenburg, Remco N.P., van der Ent, Cornelis K., Amaral, Margarida D., Kunzelmann, Karl, Gray, Michael A., Beekman, Jeffrey M., and Amatngalim, Gimano D.

Published

2022

12. Inhibition of the sodium-dependent HCO3- transporter SLC4A4, produces a cystic fibrosis-like airway disease phenotype

Author

Saint-Criq, Vinciane, primary, Guequén, Anita, additional, Philp, Amber R, additional, Villanueva, Sandra, additional, Apablaza, Tábata, additional, Fernández-Moncada, Ignacio, additional, Mansilla, Agustín, additional, Delpiano, Livia, additional, Ruminot, Iván, additional, Carrasco, Cristian, additional, Gray, Michael A, additional, and Flores, Carlos A, additional

Published

2022

13. Author response: Inhibition of the sodium-dependent HCO3- transporter SLC4A4, produces a cystic fibrosis-like airway disease phenotype

Author

Saint-Criq, Vinciane, primary, Guequén, Anita, additional, Philp, Amber R, additional, Villanueva, Sandra, additional, Apablaza, Tábata, additional, Fernández-Moncada, Ignacio, additional, Mansilla, Agustín, additional, Delpiano, Livia, additional, Ruminot, Iván, additional, Carrasco, Cristian, additional, Gray, Michael A, additional, and Flores, Carlos A, additional

Published

2022

14. Inhibition of the sodium-dependent HCO3- transporter SLC4A4, produces a cystic fibrosis-like airway disease phenotype

Author

Saint-Criq, Vinciane, primary, Guequén, Anita, additional, Philp, Amber, additional, Villanueva, Sandra, additional, Apablaza, Tábata, additional, Fernández-Moncada, Ignacio, additional, Mansilla, Agustín, additional, Delpiano, Livia, additional, Ruminot, Iván, additional, Carrasco, Cristian, additional, Gray, Michael A., additional, and Flores, Carlos A., additional

Published

2021

15. The SLC26A9 inhibitor S9-A13 provides no evidence for a role of SLC26A9 in airway chloride secretion but suggests a contribution to regulation of ASL pH and gastric proton secretion

Author

Jo, Sungwoo, Centeio, Raquel, Park, Jinhong, Ousingsawat, Jiraporn, Jeon, Dong-kyu, Talbi, Khaoula, Schreiber, Rainer, Ryu, Kunhi, Kahlenberg, Kristin, Somoza, Veronika, Delpiano, Livia, Gray, Michael A., Amaral, Margarida D., Railean, Violeta, Beekman, Jeffrey M., Rodenburg, Lisa W., Namkung, Wan, and Kunzelmann, Karl

Subjects

RESEARCH ARTICLE, RESEARCH ARTICLES, airways, asthma, Cl, cystic fibrosis, pH regulation, S9-A13, SLC26A9, ddc

Published

2021

16. Development of a physiological model of human middle ear epithelium

Author

Mather, Michael William, primary, Verdon, Bernard, additional, Botting, Rachel Anne, additional, Engelbert, Justin, additional, Delpiano, Livia, additional, Xu, Xin, additional, Hatton, Catherine, additional, Davey, Tracey, additional, Lisgo, Steven, additional, Yates, Philip, additional, Dawe, Nicholas, additional, Bingle, Colin D., additional, Haniffa, Muzlifah, additional, Powell, Jason, additional, and Ward, Chris, additional

Published

2021

17. The Application of Bicarbonate Recovers the Chemical-Physical Properties of Airway Surface Liquid in Cystic Fibrosis Epithelia Models

Author

Ferrera, Loretta, primary, Capurro, Valeria, additional, Delpiano, Livia, additional, Gianotti, Ambra, additional, and Moran, Oscar, additional

Published

2021

18. Choice of Differentiation Media Significantly Impacts Cell Lineage and Response to CFTR Modulators in Fully Differentiated Primary Cultures of Cystic Fibrosis Human Airway Epithelial Cells

Author

Saint-Criq, Vinciane, primary, Delpiano, Livia, additional, Casement, John, additional, Onuora, Jennifer C., additional, Lin, JinHeng, additional, and Gray, Michael A., additional

Published

2020

19. Small Molecule Anion Carriers Correct Abnormal Airway Surface Liquid Properties in Cystic Fibrosis Airway Epithelia

Author

Gianotti, Ambra, primary, Capurro, Valeria, additional, Delpiano, Livia, additional, Mielczarek, Marcin, additional, García-Valverde, María, additional, Carreira-Barral, Israel, additional, Ludovico, Alessandra, additional, Fiore, Michele, additional, Baroni, Debora, additional, Moran, Oscar, additional, Quesada, Roberto, additional, and Caci, Emanuela, additional

Published

2020

20. Esomeprazole Increases Airway Surface Liquid pH in Primary Cystic Fibrosis Epithelial Cells

Author

Delpiano, Livia, Thomas, Joseph J., Yates, Annabel R., Rice, Sarah J., Gray, Michael A., Saint-Criq, Vinciane, Institute for Cell and Molecular Biosciences, Newcastle University [Newcastle], Epithelial Research Group, Institute for Cell and Molecular Biosciences, Faculty of Medical Sciences, Skeletal Research Group, Institute of Genetic Medicine, International Centrefor Life, CF Trust Strategic Research Centre grants SRC003 SRC013, Medical Research Council (MRC) Confidence in Concept grant MC_PC_15030, Cystic Fibrosis Foundation BOUCHE15R0, United States Department of Health & Human Services National Institutes of Health (NIH) - USA P30DK065988, Versus Arthritis 20771, Medical Research Council UK (MRC), and Arthritis Research UK as part of the Centre for Integrated Research into Musculoskeletal Ageing (CIMA) JXR 10641 MR/P020941/1 MR/R502182/1

Subjects

Pharmacology, congenital, hereditary, and neonatal diseases and abnormalities, airway surface liquid pH, proton pump inhibitor, [SDV]Life Sciences [q-bio], lcsh:RM1-950, ouabain, respiratory system, ATP12A, respiratory tract diseases, cystic fibrosis, lcsh:Therapeutics. Pharmacology, esomeprazole, Original Research

Abstract

Respiratory failure, driven by airways mucus obstruction, chronic inflammation and bacterial infections, is the main cause of mortality and morbidity in people with cystic fibrosis (CF) due to defects in the Cl- and HCO3− transport activity of the CF Transmembrane conductance Regulator (CFTR). Most recent pre-clinical and clinical studies have focused on restoring CFTR function by enhancing its trafficking or transport activity and show promising results. However, there are a significant number of patients that will not benefit from these CFTR-targeted therapies and it is therefore important to identify new non-CFTR targets that will restore lung function, by-passing CFTR dysfunction. The H+/K+-ATPase, ATP12A, has recently been identified as a potential novel target for CF therapies, since its acute inhibition by ouabain was shown to help restore mucus viscosity, mucociliary transport, and antimicrobial activity using in vitro CF airway models, and this effect was linked to an increase in the pH of the airway surface liquid (ASL). Here, we have evaluated the potential therapeutic use of ouabain by investigating the effect of chronically treating fully differentiated CF primary human airway epithelial cells (hAECs) with ouabain, under thin film conditions, resembling the in vivo situation. Our results show that although chronic treatment increased ASL pH, this correlated with a deleterious effect on epithelial integrity as assessed by LDH release, transepithelial electrical resistance, fluorescein flux, and ion transport. Since ATP12A shares approximately 65% identity with the gastric H+/K+-ATPase (ATP4A), we investigated the potential of using clinically approved ATP4A proton pump inhibitors (PPIs) for their ability to restore ASL pH in CF hAECs. We show that, despite not expressing ATP4A transcripts, acute exposure to the PPI esomeprezole, produced changes in intracellular pH that were consistent with the inhibition of H+ secretion, but this response was independent of ATP12A. More importantly, chronic exposure of CF hAECs to esomeprazole alkalinized the ASL without disrupting the epithelial barrier integrity, but this increase in ASL pH was consistent with a decrease in mRNA expression of ATP12A. We conclude that PPIs may offer a new approach to restore ASL pH in CF airways, which is independent of CFTR.

Published

2018

21. Location, location, location: lessons from airway epithelial anion channels

Author

Delpiano, Livia, primary and Gray, Michael A., additional

Published

2019

22. In vitro Methods for the Development and Analysis of Human Primary Airway Epithelia

Author

Gianotti, Ambra, primary, Delpiano, Livia, additional, and Caci, Emanuela, additional

Published

2018

23. Inhibition of the sodium-dependent HCO 3 - transporter SLC4A4, produces a cystic fibrosis-like airway disease phenotype.

Author

Saint-Criq V, Guequén A, Philp AR, Villanueva S, Apablaza T, Fernández-Moncada I, Mansilla A, Delpiano L, Ruminot I, Carrasco C, Gray MA, and Flores CA

Subjects

Animals, Bicarbonates metabolism, Chlorides metabolism, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Mammals metabolism, Mice, Phenotype, Sodium metabolism, Sodium-Bicarbonate Symporters genetics, Anion Exchange Protein 1, Erythrocyte metabolism, Cystic Fibrosis

Abstract

Bicarbonate secretion is a fundamental process involved in maintaining acid-base homeostasis. Disruption of bicarbonate entry into airway lumen, as has been observed in cystic fibrosis, produces several defects in lung function due to thick mucus accumulation. Bicarbonate is critical for correct mucin deployment and there is increasing interest in understanding its role in airway physiology, particularly in the initiation of lung disease in children affected by cystic fibrosis, in the absence of detectable bacterial infection. The current model of anion secretion in mammalian airways consists of CFTR and TMEM16A as apical anion exit channels, with limited capacity for bicarbonate transport compared to chloride. However, both channels can couple to SLC26A4 anion exchanger to maximise bicarbonate secretion. Nevertheless, current models lack any details about the identity of the basolateral protein(s) responsible for bicarbonate uptake into airway epithelial cells. We report herein that the electrogenic, sodium-dependent, bicarbonate cotransporter, SLC4A4, is expressed in the basolateral membrane of human and mouse airways, and that it's pharmacological inhibition or genetic silencing reduces bicarbonate secretion. In fully differentiated primary human airway cells cultures, SLC4A4 inhibition induced an acidification of the airways surface liquid and markedly reduced the capacity of cells to recover from an acid load. Studies in the Slc4a4 -null mice revealed a previously unreported lung phenotype, characterized by mucus accumulation and reduced mucociliary clearance. Collectively, our results demonstrate that the reduction of SLC4A4 function induced a CF-like phenotype, even when chloride secretion remained intact, highlighting the important role SLC4A4 plays in bicarbonate secretion and mammalian airway function., Competing Interests: VS, AG, AP, SV, TA, IF, AM, LD, IR, CC, MG, CF No competing interests declared, (© 2022, Saint-Criq et al.)

Published

2022

24. Esomeprazole Increases Airway Surface Liquid pH in Primary Cystic Fibrosis Epithelial Cells.

Author

Delpiano L, Thomas JJ, Yates AR, Rice SJ, Gray MA, and Saint-Criq V

Abstract

Respiratory failure, driven by airways mucus obstruction, chronic inflammation and bacterial infections, is the main cause of mortality and morbidity in people with cystic fibrosis (CF) due to defects in the Cl - and HCO 3 - transport activity of the CF Transmembrane conductance Regulator (CFTR). Most recent pre-clinical and clinical studies have focused on restoring CFTR function by enhancing its trafficking or transport activity and show promising results. However, there are a significant number of patients that will not benefit from these CFTR-targeted therapies and it is therefore important to identify new non-CFTR targets that will restore lung function, by-passing CFTR dysfunction. The H + /K + -ATPase, ATP12A, has recently been identified as a potential novel target for CF therapies, since its acute inhibition by ouabain was shown to help restore mucus viscosity, mucociliary transport, and antimicrobial activity using in vitro CF airway models, and this effect was linked to an increase in the pH of the airway surface liquid (ASL). Here, we have evaluated the potential therapeutic use of ouabain by investigating the effect of chronically treating fully differentiated CF primary human airway epithelial cells (hAECs) with ouabain, under thin film conditions, resembling the in vivo situation. Our results show that although chronic treatment increased ASL pH, this correlated with a deleterious effect on epithelial integrity as assessed by LDH release, transepithelial electrical resistance, fluorescein flux, and ion transport. Since ATP12A shares approximately 65% identity with the gastric H + /K + -ATPase (ATP4A), we investigated the potential of using clinically approved ATP4A proton pump inhibitors (PPIs) for their ability to restore ASL pH in CF hAECs. We show that, despite not expressing ATP4A transcripts, acute exposure to the PPI esomeprezole, produced changes in intracellular pH that were consistent with the inhibition of H + secretion, but this response was independent of ATP12A. More importantly, chronic exposure of CF hAECs to esomeprazole alkalinized the ASL without disrupting the epithelial barrier integrity, but this increase in ASL pH was consistent with a decrease in mRNA expression of ATP12A . We conclude that PPIs may offer a new approach to restore ASL pH in CF airways, which is independent of CFTR.

Published

2018