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3. Fibroblast growth factor-21 potentiates the stimulatory effects of 1,25-dihydroxyvitamin D3 on transepithelial calcium transport and TRPV6 Ca2+ channel expression

Author

Chankamngoen, Wasutorn, Thammayon, Nithipak, Suntornsaratoon, Panan, Nammultriputtar, Ketsaraporn, Kitiyanant, Narisorn, Donpromma, Natthida, Chaichanan, Jirapan, Supcharoen, Promsup, Teerapo, Kittitat, Teerapornpuntakit, Jarinthorn, Rodrat, Mayuree, Panupinthu, Nattapon, Svasti, Saovaros, Wongdee, Kannikar, and Charoenphandhu, Narattaphol

Published
2024
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7. Vasoactive intestinal peptide and cystic fibrosis transmembrane conductance regulator contribute to the transepithelial calcium transport across intestinal epithelium-like Caco-2 monolayer

Author

Rodrat, Mayuree, primary, Wongdee, Kannikar, additional, Teerapornpuntakit, Jarinthorn, additional, Thongbunchoo, Jirawan, additional, Tanramluk, Duangrudee, additional, Aeimlapa, Ratchaneevan, additional, Thammayon, Nithipak, additional, Thonapan, Natchayaporn, additional, Wattano, Pathnaree, additional, and Charoenphandhu, Narattaphol, additional

Published
2022
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8. Correlating genotype with phenotype using CFTR‐mediated whole‐cell Cl − currents in human nasal epithelial cells

Author

Noel, Sabrina, primary, Servel, Nathalie, additional, Hatton, Aurélie, additional, Golec, Anita, additional, Rodrat, Mayuree, additional, Ng, Demi R. S., additional, Li, Hongyu, additional, Pranke, Iwona, additional, Hinzpeter, Alexandre, additional, Edelman, Aleksander, additional, Sheppard, David N., additional, and Sermet‐Gaudelus, Isabelle, additional

Published
2021
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10. Correlating genotype with phenotype using CFTR‐mediated whole‐cell Cl− currents in human nasal epithelial cells.

Author

Noel, Sabrina, Servel, Nathalie, Hatton, Aurélie, Golec, Anita, Rodrat, Mayuree, Ng, Demi R. S., Li, Hongyu, Pranke, Iwona, Hinzpeter, Alexandre, Edelman, Aleksander, Sheppard, David N., and Sermet‐Gaudelus, Isabelle

Subjects
CYSTIC fibrosis transmembrane conductance regulator, EPITHELIAL cells, ION channels, VOLTAGE-gated ion channels, NASAL mucosa
Abstract

Dysfunction of the epithelial anion channel cystic fibrosis transmembrane conductance regulator (CFTR) causes a wide spectrum of disease, including cystic fibrosis (CF) and CFTR‐related diseases (CFTR‐RDs). Here, we investigate genotype–phenotype–CFTR function relationships using human nasal epithelial (hNE) cells from a small cohort of non‐CF subjects and individuals with CF and CFTR‐RDs and genotypes associated with either residual or minimal CFTR function using electrophysiological techniques. Collected hNE cells were either studied directly with the whole‐cell patch‐clamp technique or grown as primary cultures at an air–liquid interface after conditional reprogramming. The properties of cAMP‐activated whole‐cell Cl− currents in freshly isolated hNE cells identified them as CFTR‐mediated. Their magnitude varied between hNE cells from individuals within the same genotype and decreased in the rank order: non‐CF > CFTR residual function > CFTR minimal function. CFTR‐mediated whole‐cell Cl− currents in hNE cells isolated from fully differentiated primary cultures were identical to those in freshly isolated hNE cells in both magnitude and behaviour, demonstrating that conditional reprogramming culture is without effect on CFTR expression and function. For the cohort of subjects studied, CFTR‐mediated whole‐cell Cl− currents in hNE cells correlated well with CFTR‐mediated transepithelial Cl− currents measured in vitro with the Ussing chamber technique, but not with those determined in vivo with the nasal potential difference assay. Nevertheless, they did correlate with the sweat Cl− concentration of study subjects. Thus, this study highlights the complexity of genotype–phenotype–CFTR function relationships, but emphasises the value of conditionally reprogrammed hNE cells in CFTR research and therapeutic testing. Key points: The genetic disease cystic fibrosis is caused by pathogenic variants in the cystic fibrosis transmembrane conductance regulator (CFTR), an ion channel, which controls anion flow across epithelia lining ducts and tubes in the body.This study investigated CFTR function in nasal epithelial cells from people with cystic fibrosis and CFTR variants with a range of disease severity.CFTR function varied widely in nasal epithelial cells depending on the identity of CFTR variants, but was unaffected by conditional reprogramming culture, a cell culture technique used to grow large numbers of patient‐derived cells.Assessment of CFTR function in vitro in nasal epithelial cells and epithelia, and in vivo in the nasal epithelium and sweat gland highlights the complexity of genotype–phenotype–CFTR function relationships. [ABSTRACT FROM AUTHOR]

Published
2022
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12. Carbon monoxide-releasing molecules inhibit the cystic fibrosis transmembrane conductance regulator Cl - channel.

Author

Rodrat, Mayuree, Jantarajit, Walailak, R. S. N. g., Demi, Harvey, Bartholomew S. J., Jia Liu, Wilkinson, William J., Charoenphandhu, Narattaphol, and Sheppard, David N.

Abstract

The gasotransmitter carbon monoxide (CO) regulates fluid and electrolyte movements across epithelial tissues. However, its action on anion channels is incompletely understood. Here, we investigate the direct action of CO on the cystic fibrosis transmembrane conductance regulator (CFTR) by applying CO-releasing molecules (CO-RMs) to the intracellular side of excised inside-out membrane patches from cells heterologously expressing wild-type human CFTR. Addition of increasing concentrations of tricarbonyldichlororuthenium(II) dimer (CORM-2) (1–300 μM) inhibited CFTR channel activity, whereas the control RuCl3 (100 μM) was without effect. CORM-2 predominantly inhibited CFTR by decreasing the frequency of channel openings and, hence, open probability (Po). But, it also reduced current flow through open channels with very fast kinetics, particularly at elevated concentrations. By contrast, the chemically distinct CO-releasing molecule CORM-3 inhibited CFTR by decreasing Po without altering current flow through open channels. Neither depolarizing the membrane voltage nor raising the ATP concentration on the intracellular side of the membrane affected CFTR inhibition by CORM-2. Interestingly, CFTR inhibition by CORM-2, but not by CFTRinh-172, was prevented by prior enhancement of channel activity by the clinically approved CFTR potentiator ivacaftor. Similarly, when added after CORM-2, ivacaftor completely relieved CFTR inhibition. In conclusion, CORM-2 has complex effects on wild-type human CFTR consistent with allosteric inhibition and open-channel blockade. Inhibition of CFTR by CO-releasing molecules suggests that CO regulates CFTR activity and that the gasotransmitter has tissue-specific effects on epithelial ion transport. The action of ivacaftor on CFTR Cl− channels inhibited by CO potentially expands the drug’s clinical utility. [ABSTRACT FROM AUTHOR]

Published
2020
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13. Activation of calcium-sensing receptor by allosteric agonists cinacalcet and AC-265347 abolishes the 1,25(OH)2D3-induced Ca2+ transport: Evidence that explains how the intestine prevents excessive Ca2+ absorption

Author

Wongdee, Kannikar, primary, Rodrat, Mayuree, additional, Keadsai, Chutiya, additional, Jantarajit, Walailak, additional, Teerapornpuntakit, Jarinthorn, additional, Thongbunchoo, Jirawan, additional, and Charoenphandhu, Narattaphol, additional

Published
2018
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14. Prolonged exposure to 1,25(OH)2D3 and high ionized calcium induces FGF-23 production in intestinal epithelium-like Caco-2 monolayer: A local negative feedback for preventing excessive calcium transport

Author

Rodrat, Mayuree, primary, Wongdee, Kannikar, additional, Panupinthu, Nattapon, additional, Thongbunchoo, Jirawan, additional, Teerapornpuntakit, Jarinthorn, additional, Krishnamra, Nateetip, additional, and Charoenphandhu, Narattaphol, additional

Published
2018
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15. Correlating genotype with phenotype using CFTR-mediated whole-cell Cl - currents in human nasal epithelial cells.

Author

Noel S, Servel N, Hatton A, Golec A, Rodrat M, Ng DRS, Li H, Pranke I, Hinzpeter A, Edelman A, Sheppard DN, and Sermet-Gaudelus I

Subjects
Chlorides metabolism, Epithelial Cells metabolism, Genotype, Humans, Nasal Mucosa metabolism, Nasal Mucosa pathology, Phenotype, Cystic Fibrosis genetics, Cystic Fibrosis pathology, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Cystic Fibrosis Transmembrane Conductance Regulator metabolism
Abstract

Dysfunction of the epithelial anion channel cystic fibrosis transmembrane conductance regulator (CFTR) causes a wide spectrum of disease, including cystic fibrosis (CF) and CFTR-related diseases (CFTR-RDs). Here, we investigate genotype-phenotype-CFTR function relationships using human nasal epithelial (hNE) cells from a small cohort of non-CF subjects and individuals with CF and CFTR-RDs and genotypes associated with either residual or minimal CFTR function using electrophysiological techniques. Collected hNE cells were either studied directly with the whole-cell patch-clamp technique or grown as primary cultures at an air-liquid interface after conditional reprogramming. The properties of cAMP-activated whole-cell Cl - currents in freshly isolated hNE cells identified them as CFTR-mediated. Their magnitude varied between hNE cells from individuals within the same genotype and decreased in the rank order: non-CF > CFTR residual function > CFTR minimal function. CFTR-mediated whole-cell Cl - currents in hNE cells isolated from fully differentiated primary cultures were identical to those in freshly isolated hNE cells in both magnitude and behaviour, demonstrating that conditional reprogramming culture is without effect on CFTR expression and function. For the cohort of subjects studied, CFTR-mediated whole-cell Cl - currents in hNE cells correlated well with CFTR-mediated transepithelial Cl - currents measured in vitro with the Ussing chamber technique, but not with those determined in vivo with the nasal potential difference assay. Nevertheless, they did correlate with the sweat Cl - concentration of study subjects. Thus, this study highlights the complexity of genotype-phenotype-CFTR function relationships, but emphasises the value of conditionally reprogrammed hNE cells in CFTR research and therapeutic testing. KEY POINTS: The genetic disease cystic fibrosis is caused by pathogenic variants in the cystic fibrosis transmembrane conductance regulator (CFTR), an ion channel, which controls anion flow across epithelia lining ducts and tubes in the body. This study investigated CFTR function in nasal epithelial cells from people with cystic fibrosis and CFTR variants with a range of disease severity. CFTR function varied widely in nasal epithelial cells depending on the identity of CFTR variants, but was unaffected by conditional reprogramming culture, a cell culture technique used to grow large numbers of patient-derived cells. Assessment of CFTR function in vitro in nasal epithelial cells and epithelia, and in vivo in the nasal epithelium and sweat gland highlights the complexity of genotype-phenotype-CFTR function relationships., (© 2021 The Authors. The Journal of Physiology © 2021 The Physiological Society.)

Published
2022
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16. Activation of calcium-sensing receptor by allosteric agonists cinacalcet and AC-265347 abolishes the 1,25(OH) 2 D 3 -induced Ca 2+ transport: Evidence that explains how the intestine prevents excessive Ca 2+ absorption.

Author

Wongdee K, Rodrat M, Keadsai C, Jantarajit W, Teerapornpuntakit J, Thongbunchoo J, and Charoenphandhu N

Subjects
Animals, Caco-2 Cells, Female, Fibroblast Growth Factor-23, Fibroblast Growth Factors metabolism, Humans, Intestinal Mucosa metabolism, Lactation metabolism, Pregnancy, Rats, Sprague-Dawley, Up-Regulation, Benzothiazoles pharmacology, Calcitriol metabolism, Calcium metabolism, Cinacalcet pharmacology, Intestinal Absorption drug effects, Receptors, Calcium-Sensing agonists
Abstract

Long-term high-calcium intake and intestinal calcium hyperabsorption are hazardous to the body. It is hypothesized that enterocytes possess mechanisms for preventing superfluous calcium absorption, including secretion of negative regulators of calcium absorption and utilization of calcium-sensing receptor (CaSR) to detect luminal calcium. Herein, Caco-2 monolayers were treated with high doses of 1,25(OH) 2 D 3 to induce calcium hyperabsorption or directly exposed to high apical calcium. The expression of counterregulatory factor of calcium absorption, fibroblast growth factor (FGF)-23, was also investigated in the intestine of lactating rats, which physiologically exhibit calcium hyperabsorption. We found that FGF-23 expression was enhanced in all intestinal segments of lactating rats. In Caco-2 monolayers, high apical calcium and 1,25(OH) 2 D 3 induced FGF-23 secretion into culture media. FGF-23 antagonized 1,25(OH) 2 D 3 -induced calcium transport and led to a significant, but small, change in paracellular permeability. Furthermore, high-dose 1,25(OH) 2 D 3 upregulated FGF-23 expression, which was prevented by CaSR inhibitors. Activation of apical CaSR by cinacalcet and AC-265347 abolished 1,25(OH) 2 D 3 -induced calcium transport in a dose-dependent manner. In conclusion, the intestinal FGF-23 expression was upregulated in conditions with calcium hyperabsorption, presumably to help protect against excessive calcium absorption, while CaSR probably monitored calcium in the lumen and induced FGF-23 production for preventing superfluous calcium uptake., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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17. Prolonged exposure to 1,25(OH) 2 D 3 and high ionized calcium induces FGF-23 production in intestinal epithelium-like Caco-2 monolayer: A local negative feedback for preventing excessive calcium transport.

Author

Rodrat M, Wongdee K, Panupinthu N, Thongbunchoo J, Teerapornpuntakit J, Krishnamra N, and Charoenphandhu N

Subjects
Caco-2 Cells, Fibroblast Growth Factor-23, Humans, Intestinal Absorption, Ion Transport, Receptors, Calcium-Sensing metabolism, Calcitriol metabolism, Calcium metabolism, Fibroblast Growth Factors biosynthesis, Intestinal Mucosa metabolism
Abstract

Overdose of oral calcium supplement and excessive intestinal calcium absorption can contribute pathophysiological conditions, e.g., nephrolithiasis, vascular calcification, dementia, and cardiovascular accident. Since our previous investigation has indicated that fibroblast growth factor (FGF)-23 could abolish the 1,25-dihydroxyvitamin D 3 [1,25(OH) 2 D 3 ]-enhanced calcium absorption, we further hypothesized that FGF-23 produced locally in the enterocytes might be part of a local negative feedback loop to regulate calcium absorption. Herein, 1,25(OH) 2 D 3 was found to enhance the transcellular calcium transport across the epithelium-like Caco-2 monolayer, and this stimulatory effect was diminished by preceding prolonged exposure to high-dose 1,25(OH) 2 D 3 or high concentration of apical ionized calcium. Pretreatment with a neutralizing antibody for FGF-23 prevented this negative feedback regulation of calcium hyperabsorption induced by 1,25(OH) 2 D 3 . FGF-23 exposure completely abolished the 1,25(OH) 2 D 3 -enhanced calcium transport. Western blot analysis revealed that FGF-23 expression was upregulated in a dose-dependent manner by 1,25(OH) 2 D 3 or apical calcium exposure. Finally, calcium-sensing receptor (CaSR) inhibitors were found to prevent the apical calcium-induced suppression of calcium transport. In conclusion, prolonged exposure to high apical calcium and calcium hyperabsorption were sensed by CaSR, which, in turn, increased FGF-23 expression to suppress calcium transport. This local negative feedback loop can help prevent unnecessary calcium uptake and its detrimental consequences., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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