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3. The ellagitannin metabolite urolithin C is a glucose-dependent regulator of insulin secretion through activation of L-type calcium channels

Author

Bayle, M., Neasta, J., Dall'Asta, M., Gautheron, G., Virsolvy, A., Quignard, J. -F., Youl, E., Magous, R., Guichou, J. -F., Crozier, A., Del Rio, D., Cros, G., Oiry, C., Dall'Asta M. (ORCID:0000-0002-0558-0337), Bayle, M., Neasta, J., Dall'Asta, M., Gautheron, G., Virsolvy, A., Quignard, J. -F., Youl, E., Magous, R., Guichou, J. -F., Crozier, A., Del Rio, D., Cros, G., Oiry, C., and Dall'Asta M. (ORCID:0000-0002-0558-0337)

Abstract

Background and PurposeThe pharmacology of polyphenol metabolites on beta-cell function is largely undetermined. We sought to identify polyphenol metabolites that enhance the insulin-secreting function of beta-cells and to explore the underlying mechanisms.Experimental ApproachINS-1 beta-cells and rat isolated islets of Langerhans or perfused pancreas preparations were used for insulin secretion experiments. Molecular modelling, intracellular Ca2+ monitoring, and whole-cell patch-clamp recordings were used for mechanistic studies.Key ResultsAmong a set of polyphenol metabolites, we found that exposure of INS-1 beta-cells to urolithins A and C enhanced glucose-stimulated insulin secretion. We further characterized the activity of urolithin C and its pharmacological mechanism. Urolithin C glucose-dependently enhanced insulin secretion in isolated islets of Langerhans and perfused pancreas preparations. In the latter, enhancement was reversible when glucose was lowered from a stimulating to a non-stimulating concentration. Molecular modelling suggested that urolithin C could dock into the Ca(v)1.2 L-type Ca2+ channel. Calcium monitoring indicated that urolithin C had no effect on basal intracellular Ca2+ but enhanced depolarization-induced increase in intracellular Ca2+ in INS-1 cells and dispersed cells isolated from islets. Electrophysiology studies indicated that urolithin C dose-dependently enhanced the L-type Ca2+ current for levels of depolarization above threshold and shifted its voltage-dependent activation towards more negative potentials in INS-1 cells.Conclusion and ImplicationsUrolithin C is a glucose-dependent activator of insulin secretion acting by facilitating L-type Ca2+ channel opening and Ca2+ influx into pancreatic beta-cells. Our work paves the way for the design of polyphenol metabolite-inspired compounds aimed at ameliorating beta-cell function.

Published
2019

4. Effet protecteur de Moringa oleifera Lam. (Moringaceae) et de Sclerocarya birrea [(A. Rich.)Hochst.] (Asclepiadaceae) sur les cellules β pancréatiques INS-1

Author

Youl, E.N.H., Ouedraogo, Mo., Ouedraogo, Mu., Gnoula, C, Guissou, I.P., Magous, R, Cros, G, and Oiry, C

Subjects
Moringa oleifera, Sclerocarya birrea, cellules bêta pancréatiques, stress oxydant, diabète, Moringa oleifera, Sclerocarya birrea, pancreatic b-cells, oxidative stress, diabetes
Abstract

Moringa oleifera Lam.(Moringaceae) et Sclerocarya birrea [(A. Rich.) Hochst.] (Asclepiadaceae) sont deux plantes utilisées en médecine traditionnelle au Burkina Faso dans le traitement du diabète. L’objectif de notre travail a été d’étudier les effets protecteurs des extraits hydro-éthanoliques (80 %) de fruits de Moringa oleifera (MO) et d’écorces de tronc de Sclerocarya birrea (SB), sur la viabilité et la fonctionnalité de la cellule bêta pancréatique, lors d’un stress oxydant induit par H2O2. La viabilité a été évaluée par la technique du [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazoliumbromide] (MTT) et la fonctionnalité par la mesure de la sécrétion d’insuline induite par le glucose (8,3 mM). Nous avons montré que MO et SB à 10 μg/mL et au bout de deux heures prévenaient partiellement l’altération de la viabilité induite par H2O2. L’altération de la fonctionnalité était prévenue totalement par 10 μg/mL de MO au bout d’une heure et 1 μg/mL de SB au bout de deux heures. Ces résultats indiquent le potentiel de ces deux plantes dans la prévention du dysfonctionnement β cellulaire.Mots-clés: Moringa oleifera, Sclerocarya birrea, cellules bêta pancréatiques, stress oxydant, diabèteEnglish Title: Protective effect of Moringa oleifera Lam. (Moringaceae) and Sclerocarya birrea [(A. Rich.) Hochst.] (Asclepiadaceae) on INS-1 pancreatic β-cellsEnglish AbstractMoringa oleifera (Moringaceae) and Sclerocarya birrea (Asclepiadaceae) are two plants used in traditional medicine in Burkina Faso in the treatment of diabetes. The aim of our study was to investigate the protective effects of ethanol (80 %) extract of Moringa oleifera (MO) fruits and stem barks of Sclerocarya birrea (SB) on the viability and functionality of the pancreatic β-cells, during oxidative stress induced by H2O2. Viability was evaluated by the [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide] (MTT) colorimetric assay and functionality by the measurement of insulin secretion induced by glucose (8.3 mM). We showed that MO and SB(10 μg/mL) after two hours partially prevented the alteration of viability induced by H2O2 (50 μM). The alteration of the functionality is completely prevented by 10 μg/mL of MO after one hour, and 1 μg/mL of SB after two hours. Moringa oleifera and Sclerocarya birrea protected β cell viability and functionality against oxidative stress induced exogenously. These results indicate the potential of these two plants in preventing β-cells dysfunction.Keywords: Moringa oleifera, Sclerocarya birrea, pancreatic b-cells, oxidative stress, diabetes

Published
2016

5. Chicoric acid is an anti-oxidant molecule stimulating AMP Kinase, PGC-1alpha expression and mitochondrial activity in a model of skeletal muscular cells

Author

Schlernitzauer, A., Oiry, C., Casas, Francois, Chabi, Béatrice, Cros, G., Magous, R., Cabello, Gerard, Wrutniak Cabello, Chantal, Institut des Biomolécules Max Mousseron [Pôle Chimie Balard] (IBMM), Ecole Nationale Supérieure de Chimie de Montpellier (ENSCM)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Dynamique Musculaire et Métabolisme (DMEM), Institut National de la Recherche Agronomique (INRA)-Université de Montpellier (UM), Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)-Université de Montpellier (UM)-Ecole Nationale Supérieure de Chimie de Montpellier (ENSCM), Société Française de Pharmacology et de Thérapeutique (SFPT). Tours, FRA., ProdInra, Archive Ouverte, and Université de Montpellier (UM)-Institut National de la Recherche Agronomique (INRA)

Subjects
[SDV] Life Sciences [q-bio], mitochondria, AMPK, chicoric acid, myotubes, anti-oxidant, [SDV]Life Sciences [q-bio], free radicals
Abstract

Chicoric acid is an anti-oxidant molecule stimulating AMP Kinase, PGC-1alpha expression and mitochondrial activity in a model of skeletal muscular cells. 8. Congrès de Physiologie, de Pharmacologie et de Thérapeutique

Published
2013

6. Altération précoce de la contractilité des cardiomyocytes lors du syndrome métabolique expérimental d’origine nutritionnelle. Effet préventif d’un extrait polyphénolique de vin rouge

Author

Oiry, C., Le Scanf, E., Andre, L., Zalvidea, S., Cassan, C., Cazorla, O., Magous, R., Richard, S., Teissedre, Pierre Louis, Cros, G., Centre de pharmacologie et innovation dans le diabète (CPID), Université Montpellier 1 (UM1)-Centre Hospitalier Régional Universitaire [Montpellier] (CHRU Montpellier)-Centre National de la Recherche Scientifique (CNRS), Physiopathologie cardiovasculaire, Université Montpellier 1 (UM1)-IFR3, Université Montpellier 1 (UM1)-Institut National de la Santé et de la Recherche Médicale (INSERM), Oenologie (UMRO), Université Bordeaux Segalen - Bordeaux 2-Institut National de la Recherche Agronomique (INRA)-École Nationale d'Ingénieurs des Travaux Agricoles - Bordeaux (ENITAB), and ProdInra, Migration

Subjects
syndrome métabolique, [SPI.GPROC] Engineering Sciences [physics]/Chemical and Process Engineering, fraction de raccourcissement cellulaire, [SDV.IDA]Life Sciences [q-bio]/Food engineering, cardiomyocytes, [SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering, [SDV.IDA] Life Sciences [q-bio]/Food engineering, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2011

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Author

Dall'Asta, Margherita, Bayle, M., Neasta, J., Scazzina, F., Bruni, R., Cros, G., Del Rio, D., Oiry, C., Dall'Asta M. (ORCID:0000-0002-0558-0337), Dall'Asta, Margherita, Bayle, M., Neasta, J., Scazzina, F., Bruni, R., Cros, G., Del Rio, D., Oiry, C., and Dall'Asta M. (ORCID:0000-0002-0558-0337)

Published
2015

8. Quercetin potentiates insulin secretion and protects INS-1 pancreatic b-cells against oxidative damage via the ERK1/2 pathway

Author

Youl, E., Bardy, G., Magous, R., Cros, G., Sejalon, F., Virsolvy, Anne, Richard, Sylvain, Quignard, J, Gross, R., Petit, P., Bataille, D., Oiry, C., Centre de pharmacologie et innovation dans le diabète (CPID), Université Montpellier 1 (UM1)-Centre Hospitalier Régional Universitaire [Montpellier] (CHRU Montpellier)-Centre National de la Recherche Scientifique (CNRS), CHU Necker - Enfants Malades [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Physiologie & médecine expérimentale du Cœur et des Muscles [U 1046] (PhyMedExp), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Laboratoire Matériaux Optiques, Photonique et Systèmes (LMOPS), CentraleSupélec-Université de Lorraine (UL), Institut de biologie et chimie des protéines [Lyon] (IBCP), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), Passerieux, Emilie, Université de Montpellier (UM)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), and Université de Lorraine (UL)-CentraleSupélec

Subjects
insulin secretion, ERK1/2, diabetes, [SDV.MHEP.PHY] Life Sciences [q-bio]/Human health and pathology/Tissues and Organs [q-bio.TO], pancreatic b-cells, [SDV.MHEP.PHY]Life Sciences [q-bio]/Human health and pathology/Tissues and Organs [q-bio.TO], oxidative stress, ComputingMilieux_MISCELLANEOUS, cell viability, quercetin
Abstract

International audience

Published
2010
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12. P39 - Altération précoce de la contractilité des cardiomyocytes lors du syndrome métabolique expérimental d’origine nutritionnelle. Effet préventif d’un extrait polyphénolique de vin rouge

Author

Oiry, C., primary, Le Scanf, E., additional, André, L., additional, Zalvidea, S., additional, Cassan, C., additional, Cazorla, O., additional, Magous, R., additional, Richard, S., additional, Teissèdre, P.-L., additional, and Cros, G., additional

Published
2011
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14. New active series of growth hormone secretagogues

Author

Guerlavais, V, Boeglin, D, Mousseaux, D, Oiry, C, Heitz, A, Deghenghi, R, Locatelli, V, Torsello, A, Ghé, C, Catapano, F, Muccioli, G, Galleyrand, J, Fehrentz, J, Martinez, J, Martinez, J., LOCATELLI, VITTORIO, TORSELLO, ANTONIO BIAGIO, Guerlavais, V, Boeglin, D, Mousseaux, D, Oiry, C, Heitz, A, Deghenghi, R, Locatelli, V, Torsello, A, Ghé, C, Catapano, F, Muccioli, G, Galleyrand, J, Fehrentz, J, Martinez, J, Martinez, J., LOCATELLI, VITTORIO, and TORSELLO, ANTONIO BIAGIO

Abstract

New growth hormone secretagogue (GHS) analogues were synthesized and evaluated for growth hormone releasing activity. This series derived from EP-51389 is based on a gem-diamino structure. Compounds that exhibited higher in vivo GH-releasing potency than hexarelin in rat (subcutaneous administration) were then tested per os in beagle dogs and for their binding affinity to human pituitary GHS receptors and to hGHS-R 1a. Compound 7 (JMV 1843, H-Aib-(d)-Trp-(d)-gTrp-formyl) showed high potency in these tests and was selected for clinical studies.(1)

Published
2003

21. New Active Series of Growth Hormone Secretagogues

Author

Guerlavais, V., Boeglin, D., Mousseaux, D., Oiry, C., Heitz, A., Deghenghi, R., Locatelli, V., Torsello, A., Ghe, C., Catapano, F., Muccioli, G., Galleyrand, J.-C., Fehrentz, J.-A., and Martinez, J.

Abstract

New growth hormone secretagogue (GHS) analogues were synthesized and evaluated for growth hormone releasing activity. This series derived from EP-51389 is based on a gem-diamino structure. Compounds that exhibited higher in vivo GH-releasing potency than hexarelin in rat (subcutaneous administration) were then tested per os in beagle dogs and for their binding affinity to human pituitary GHS receptors and to hGHS−R 1a. Compound 7 (JMV 1843, H-Aib-(d)-Trp-(d)-gTrp-formyl) showed high potency in these tests and was selected for clinical studies.1

Published
2003

22. Synthesis and Biological Evaluation of Bombesin Constrained Analogues

Author

Cristau, M., Devin, C., Oiry, C., Chaloin, O., Amblard, M., Bernad, N., Heitz, A., Fehrentz, J.-A., and Martinez, J.

Abstract

Analogues of bombesin which incorporate dipeptide or turn mimetics have been synthesized. One of them (compound 11) containing a seven-membered lactam ring revealed a good affinity for GRP/BN receptors on rat pancreatic acini (Ki value of 1.7 ± 0.4 nM) and on Swiss 3T3 cells (Ki value of 1.0 ± 0.2 nM). On the basis of this observation, antagonists containing the same dipeptide mimic were obtained by modification of the C-terminal part of the bombesin analogues. The most potent constrained compounds (15 and 17) were able to antagonize 1 nM bombesin-stimulated amylase secretion from rat pancreatic acini with high potency (Ki = 21 ± 3 and 3.3 ± 1.0 nM, respectively) and 10-7 M bombesin-stimulated [3H]thymidine incorporation into Swiss 3T3 cells (Ki = 7.8 ± 2.0 and 0.5 ± 0.1 nM, respectively).

Published
2000

25. The flavonoid resokaempferol improves insulin secretion from healthy and dysfunctional pancreatic β-cells.

Author

Gautheron G, Péraldi-Roux S, Vaillé J, Belhadj S, Patyra A, Bayle M, Youl E, Omhmmed S, Guyot M, Cros G, Guichou JF, Uzan B, Movassat J, Quignard JF, Neasta J, and Oiry C

Subjects
Animals, Male, Rats, Glucose metabolism, Diabetes Mellitus, Experimental drug therapy, Diabetes Mellitus, Experimental metabolism, Flavonoids pharmacology, Rats, Wistar, Dose-Response Relationship, Drug, Cells, Cultured, Rats, Sprague-Dawley, Flavones pharmacology, Insulin-Secreting Cells drug effects, Insulin-Secreting Cells metabolism, Insulin Secretion drug effects, Insulin metabolism
Abstract

Background and Purpose: The pharmacology of flavonoids on β-cell function is largely undefined especially in the context of defective secretion of insulin. We sought to identify flavonoids that increased the insulin-secreting function of β-cells and to explore the underlying mechanisms., Experimental Approach: INS-1 β-cells in culture and islets of Langerhans isolated from control and diabetic male rats were used for insulin secretion experiments. Pharmacological and electrophysiological approaches were used for mechanistic studies., Key Results: Among a set of flavonoids, exposure of INS-1 β-cells to resokaempferol (ResoK) enhanced glucose-stimulated insulin secretion and therefore we further characterised its activity and its pharmacological mechanism. ResoK glucose-dependently enhanced insulin secretion in INS-1 β-cells and pancreatic islets isolated from rats. Mechanistically, whole cell patch clamp recordings in INS-1 cells showed that ResoK rapidly and dose-dependently enhanced the L-type Ca 2+ current whereas it was inactive towards T-type Ca 2+ current. Accordingly, pharmacological inhibition of L-type Ca 2+ current but not T-type Ca 2+ current blocked the effects of ResoK on glucose-stimulated insulin secretion. ResoK was still active on dysfunctional β-cells as it ameliorated glucose-stimulated insulin secretion in glucotoxicity-induced dysfunctional INS-1 cells and in pancreatic islets isolated from diabetic rats., Conclusion and Implications: ResoK is a glucose-dependent activator of insulin secretion. Our results indicated that the effects of ResoK on insulin secretion involved its capacity to stimulate L-type Ca 2+ currents in cultured β-cells. As ResoK was also effective on dysfunctional β-cells, our work provides a new approach to stimulating insulin secretion, using compounds based on the structure of ResoK., (© 2024 The Author(s). British Journal of Pharmacology published by John Wiley & Sons Ltd on behalf of British Pharmacological Society.)

Published
2025
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26. Pharmacological and phytochemical insights on the pancreatic β-cell modulation by Angelica L. roots.

Author

Patyra A, Vaillé J, Omhmmed S, Dudek MK, Neasta J, Kiss AK, and Oiry C

Subjects
Animals, Rats, Insulin metabolism, Insulin Secretion drug effects, Coumarins pharmacology, Coumarins isolation & purification, Hypoglycemic Agents pharmacology, Hypoglycemic Agents isolation & purification, Hypoglycemic Agents chemistry, Plant Roots, Angelica chemistry, Insulin-Secreting Cells drug effects, Insulin-Secreting Cells metabolism, Plant Extracts pharmacology, Plant Extracts chemistry, Phytochemicals pharmacology, Phytochemicals isolation & purification, Phytochemicals analysis
Abstract

Ethnopharmacological Relevance: Angelica roots are a significant source of traditional medicines for various cultures around the northern hemisphere, from indigenous communities in North America to Japan. Among its many applications, the roots are used to treat type 2 diabetes mellitus; however, this application is not mentioned often. Ethnopharmacological studies have reported the use of A. japonica var. hirsutiflora, A. furcijuga, A. shikokiana, and A. keiskei to treat diabetes symptoms, and further reports have demonstrated the three angelica roots, i.e., A. japonica var. hirsutiflora, A. reflexa, and A. dahurica, exhibit insulin secretagogue activity., Aim of the Study: This study aimed to phytochemically characterize and compare angelica roots monographed in the European Pharmacopeia 11th, isolate major plant metabolites, and assess extracts and isolates' capability to modulate pancreatic β-cell function., Materials and Methods: Root extracts of Angelica archangelica, Angelica dahurica, Angelica biserrata, and Angelica sinensis were phytochemically profiled using liquid chromatography method coupled with mass spectrometry. Based on this analysis, simple and furanocoumarins were isolated using chromatography techniques. Extracts (1.6-50 μg/mL) and isolated compounds (5-40 μmol/L) were studied for their ability to modulate insulin secretion in the rat insulinoma INS-1 pancreatic β-cell model. Insulin was quantified by the homogeneous time-resolved fluorescence method., Results: Forty-one secondary metabolites, mostly coumarins, were identified in angelica root extracts. A. archangelica, A. dahurica, and A. biserrata root extracts at concentration of 12.5-50 μg/mL potentiated glucose-induced insulin secretion, which correlated with their high coumarin content. Subsequently, 23 coumarins were isolated from these roots and screened using the same protocol. Coumarins substituted with the isoprenyl group were found to be responsible for the extracts' insulinotropic effect., Conclusions: Insulinotropic effects of three pharmacopeial angelica roots were found, the metabolite profiles and pharmacological activities of the roots were correlated, and key structures responsible for the modulation of pancreatic β-cell function were identified. These findings may have implications for the traditional use of angelica roots in treating diabetes. Active plant metabolites may also become lead structures in the search for new antidiabetic treatments., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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27. Heptafluoroisobutyronitrile (C 4 F 7 N), a gas used for insulating and arc quenching in electrical switchgear, is neurotoxic in the mouse brain.

Author

Carles A, Schlernitzauer A, Vignes M, Cros G, Magous R, Maurice T, and Oiry C

Subjects
Animals, Brain pathology, Caspase 9, Female, Hippocampus pathology, Male, Memory Disorders pathology, Mice, Neuronal Plasticity physiology, Cytochromes c, Neurotoxicity Syndromes pathology
Abstract

Fluoronitrile gas (C 4 F 7 N, CAS number 42532-60-5) is one of the most promising candidates as insulating and/or breaking medium in high and medium voltage electrical equipment. Besides its promising properties, C 4 F 7 N gas is however not devoid of acute toxicity when used pure or in gas mixtures. The toxicity was not extensively analyzed and reported. The aim of the present study was to analyze in mice the consequences of a single exposure to C 4 F 7 N gas, at different concentrations and different timepoints after exposure. Male and female Swiss mice were exposed to breathable air or C 4 F 7 N gas, at 800 ppmv or 1500 ppmv, for 4 h on day 0. Behavioral tests (spontaneous alternation in the Y-maze and object recognition) were performed on days 1, 7 and 14 to assess memory alterations. The animals were then sacrificed and their brains dissected for biochemical analyses or fixed with paraformaldehyde for histology and immunohistochemistry. Results showed behavioral impairments and memory deficits, with impairments of alternation at days 1 and 7 and object recognition at day 14. Histological alterations of pyramidal neuronal layer in the hippocampus, neuroinflammatory astroglial reaction, and microglial alterations were observed, more marked in female than male mice. Moreover, the biochemical analyses done in the brain of 1500 ppmv exposed female mice showed a reductive stress with decreased lipid peroxidation and release of cytochrome c, leading to apoptosis with increases in caspase-9 cleavage and γ-H2AX/H2AX ratio. Finally, electrophysiological analyses using a multi-electrode array allowed the measure of the extracellular activity of pyramidal neurons in the CA2 area and revealed that exposure to the gas not only prevented the induction of long-term potentiation but even provoked an epileptoid-like activity in some neurons suggesting major alterations of synaptic plasticity. This study therefore showed that an acute exposure of mice to C 4 F 7 N gas provoked, particularly in female animals, memory alterations and brain toxicity characterized by a reductive stress, microglial toxicity, loss of synaptic plasticity and apoptosis. Its use in industrial installations must be done with extreme caution., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. https://www.elsevier.com/declaration-of-competing-interests Declaration of Competing Interest The sponsor had no role in study design, data collection and analyses, or manuscript preparation. The authors declare no conflict of interest related to the present study., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published
2022
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28. Design and characterization of a triazole-based growth hormone secretagogue receptor modulator inhibiting the glucoregulatory and feeding actions of ghrelin.

Author

Péraldi-Roux S, Bayle M, M'Kadmi C, Damian M, Vaillé J, Fernandez G, Cornejo MP, Marie J, Banères JL, Ben Haj Salah K, Fehrentz JA, Cantel S, Perello M, Denoyelle S, Oiry C, and Neasta J

Subjects
Animals, Blood Glucose, HEK293 Cells, Humans, Mice, Triazoles pharmacology, Ghrelin metabolism, Ghrelin pharmacology, Receptors, Ghrelin
Abstract

The growth hormone secretagogue receptor (GHSR) is a G protein-coupled receptor that regulates essential physiological functions. In particular, activation of GHSR in response to its endogenous agonist ghrelin promotes food intake and blood glucose increase. Therefore, compounds aimed at blocking GHSR signaling constitute potential options against obesity-related metabolic disorders. We have previously developed potent ligands of GHSR based on a triazole scaffold. Here, we report a new 3,4,5-trisubstituted 1,2,4-triazole compound, named JMV 6616, that potently blocks GHSR activity in vitro and in vivo. Specifically, in HEK293T cells JMV 6616 behaves as an inverse agonist since it binds to GHSR and inhibits its ghrelin-independent signaling. Accordingly, using purified labeled GHSR assembled into lipid nanodiscs we found that JMV 6616 decreases GHSR-catalyzed G protein activation and stabilizes an inactive receptor conformation. Importantly, JMV 6616 also acts on native GHSR since it blocks the insulinostatic effect of ghrelin in pancreatic islets. In mice, JMV 6616 inhibits blood glucose-raising effects of ghrelin treatment and the orexigenic actions of acute ghrelin administration. Together, our data suggest that this triazole-derived modulator of GHSR holds promise to mitigate several pathological features associated with eating and metabolic disorders., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2022
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29. Liver-Expressed Antimicrobial Peptide 2 antagonizes the insulinostatic effect of ghrelin in rat isolated pancreatic islets.

Author

Bayle M, Péraldi-Roux S, Gautheron G, Cros G, Oiry C, and Neasta J

Subjects
Animals, Liver, Rats, Receptors, Ghrelin metabolism, Antimicrobial Cationic Peptides metabolism, Antimicrobial Cationic Peptides pharmacology, Ghrelin metabolism, Ghrelin pharmacology, Insulin metabolism, Islets of Langerhans drug effects, Islets of Langerhans metabolism
Abstract

The hormone ghrelin is the endogenous agonist of the G protein-coupled receptor (GPCR) termed growth hormone secretagogue receptor (GHSR). Ghrelin inhibits glucose-stimulated insulin secretion by activating pancreatic GHSR. Recently, Liver-Expressed Antimicrobial Peptide 2 (LEAP2) was recognized as an endogenous GHSR ligand that blocks ghrelin-induced actions. Nonetheless, the effect of LEAP2 on glucose-stimulated insulin secretion from pancreatic islets is unknown. We aimed at exploring the activity of LEAP2 on glucose-stimulated insulin secretion. Islets of Langerhans isolated from rat pancreas were exposed to glucose in the presence or in the absence of LEAP2 and ghrelin and then insulin secretion was assayed. LEAP2 did not modulate glucose-stimulated insulin secretion. However, LEAP2 blocked the insulinostatic action of ghrelin. Our data show that LEAP2 behaves as an antagonist of pancreatic GHSR., (© 2021 Société Française de Pharmacologie et de Thérapeutique.)

Published
2022
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30. Development of Nonpeptidic Inverse Agonists of the Ghrelin Receptor (GHSR) Based on the 1,2,4-Triazole Scaffold.

Author

Haj Salah KB, Maingot M, Blayo AL, M'Kadmi C, Damian M, Mary S, Cantel S, Neasta J, Oiry C, Péraldi-Roux S, Fernandez G, Romero GG, Perello M, Marie J, Banères JL, Fehrentz JA, and Denoyelle S

Subjects
Animals, Drug Inverse Agonism, GTP-Binding Proteins metabolism, HEK293 Cells, Humans, Insulin Secretion drug effects, Islets of Langerhans drug effects, Islets of Langerhans metabolism, Ligands, Rats, Triazoles chemistry, Receptors, Ghrelin agonists, Triazoles pharmacology
Abstract

GHSR controls, among others, growth hormone and insulin secretion, adiposity, feeding, and glucose metabolism. Therefore, an inverse agonist ligand capable of selectively targeting GHSR and reducing its high constitutive activity appears to be a good candidate for the treatment of obesity-related metabolic diseases. In this context, we present a study that led to the development of several highly potent and selective inverse agonists of GHSR based on the 1,2,4-triazole scaffold. We demonstrate that, depending on the nature of the substituents on positions 3, 4, and 5, this scaffold leads to ligands that exert an intrinsic inverse agonist activity on GHSR-catalyzed G protein activation through the stabilization of a specific inactive receptor conformation. Thanks to an in vivo evaluation, we also show that one of the most promising ligands not only exerts an effect on insulin secretion in rat pancreatic islets but also affects the orexigenic effects of ghrelin in mice.

Published
2020
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31. Urolithin C increases glucose-induced ERK activation which contributes to insulin secretion.

Author

Toubal S, Oiry C, Bayle M, Cros G, and Neasta J

Subjects
Animals, Cell Line metabolism, Insulin Secretion drug effects, Insulin-Secreting Cells drug effects, Insulin-Secreting Cells metabolism, Rats, Glucose metabolism, Hydrolyzable Tannins pharmacology, Mitogen-Activated Protein Kinase 3 drug effects
Abstract

Polyphenols exert pharmacological actions through protein-mediated mechanisms and by modulating intracellular signalling pathways. We recently showed that a gut-microbial metabolite of ellagic acid named urolithin C is a glucose-dependent activator of insulin secretion acting by facilitating L-type Ca 2+ channel opening and Ca 2+ influx into pancreatic β-cells. However, it is still unknown whether urolithin C regulates key intracellular signalling proteins in β-cells. Here, we report that urolithin C enhanced glucose-induced extracellular signal-regulated kinases 1/2 (ERK1/2) activation as shown by higher phosphorylation levels in INS-1 β-cells. Interestingly, inhibition of ERK1/2 with two structurally distinct inhibitors led to a reduction in urolithin C effect on insulin secretion. Finally, we provide data to suggest that urolithin C-mediated ERK1/2 phosphorylation involved insulin signalling in INS-1 cells. Together, these data indicate that the pharmacological action of urolithin C on insulin secretion relies, in part, on its capacity to enhance glucose-induced ERK1/2 activation. Therefore, our study extends our understanding of the pharmacological action of urolithin C in β-cells. More generally, our findings revealed that urolithin C modulated the activation of key multifunctional intracellular signalling kinases which participate in the regulation of numerous biological processes., (© 2020 Société Française de Pharmacologie et de Thérapeutique.)

Published
2020
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32. The ellagitannin metabolite urolithin C is a glucose-dependent regulator of insulin secretion through activation of L-type calcium channels.

Author

Bayle M, Neasta J, Dall'Asta M, Gautheron G, Virsolvy A, Quignard JF, Youl E, Magous R, Guichou JF, Crozier A, Del Rio D, Cros G, and Oiry C

Subjects
Animals, Cell Line, Islets of Langerhans metabolism, Male, Rats, Rats, Wistar, Calcium Channels, L-Type metabolism, Glucose metabolism, Hydrolyzable Tannins metabolism, Insulin metabolism
Abstract

Background and Purpose: The pharmacology of polyphenol metabolites on beta-cell function is largely undetermined. We sought to identify polyphenol metabolites that enhance the insulin-secreting function of beta-cells and to explore the underlying mechanisms., Experimental Approach: INS-1 beta-cells and rat isolated islets of Langerhans or perfused pancreas preparations were used for insulin secretion experiments. Molecular modelling, intracellular Ca2+ monitoring, and whole-cell patch-clamp recordings were used for mechanistic studies., Key Results: Among a set of polyphenol metabolites, we found that exposure of INS-1 beta-cells to urolithins A and C enhanced glucose-stimulated insulin secretion. We further characterized the activity of urolithin C and its pharmacological mechanism. Urolithin C glucose-dependently enhanced insulin secretion in isolated islets of Langerhans and perfused pancreas preparations. In the latter, enhancement was reversible when glucose was lowered from a stimulating to a non-stimulating concentration. Molecular modelling suggested that urolithin C could dock into the Cav 1.2 L-type Ca2+ channel. Calcium monitoring indicated that urolithin C had no effect on basal intracellular Ca2+ but enhanced depolarization-induced increase in intracellular Ca2+ in INS-1 cells and dispersed cells isolated from islets. Electrophysiology studies indicated that urolithin C dose-dependently enhanced the L-type Ca2+ current for levels of depolarization above threshold and shifted its voltage-dependent activation towards more negative potentials in INS-1 cells., Conclusion and Implications: Urolithin C is a glucose-dependent activator of insulin secretion acting by facilitating L-type Ca2+ channel opening and Ca2+ influx into pancreatic beta-cells. Our work paves the way for the design of polyphenol metabolite-inspired compounds aimed at ameliorating beta-cell function.

Published
2019
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33. N-Terminal Liver-Expressed Antimicrobial Peptide 2 (LEAP2) Region Exhibits Inverse Agonist Activity toward the Ghrelin Receptor.

Author

M'Kadmi C, Cabral A, Barrile F, Giribaldi J, Cantel S, Damian M, Mary S, Denoyelle S, Dutertre S, Péraldi-Roux S, Neasta J, Oiry C, Banères JL, Marie J, Perello M, and Fehrentz JA

Subjects
Amino Acid Sequence, Animals, Antimicrobial Cationic Peptides metabolism, Antimicrobial Cationic Peptides pharmacology, Binding, Competitive, Drug Inverse Agonism, HEK293 Cells, Humans, Inositol Phosphates metabolism, Islets of Langerhans cytology, Islets of Langerhans drug effects, Islets of Langerhans metabolism, Male, Mice, Mice, Inbred C57BL, Protein Binding, Rats, Receptors, Ghrelin antagonists & inhibitors, Receptors, Ghrelin metabolism, Antimicrobial Cationic Peptides chemistry, Receptors, Ghrelin agonists
Abstract

The ghrelin receptor or growth hormone secretagogue receptor (GHSR) is a G-protein-coupled receptor that controls growth hormone and insulin secretion, food intake, and reward-seeking behaviors. Liver-expressed antimicrobial peptide 2 (LEAP2) was recently described as an endogenous antagonist of GHSR. Here, we present a study aimed at delineating the structural determinants required for LEAP2 activity toward GHSR. We demonstrate that the entire sequence of LEAP2 is not necessary for its actions. Indeed, the N-terminal part alone confers receptor binding and activity to LEAP2. We found that both LEAP2 and its N-terminal part behave as inverse agonists of GHSR and as competitive antagonists of ghrelin-induced inositol phosphate production and calcium mobilization. Accordingly, the N-terminal region of LEAP2 is able to inhibit ghrelin-induced food intake in mice. These data demonstrate an unexpected pharmacological activity for LEAP2 that is likely to have an important role in the control of ghrelin response under normal and pathological conditions.

Published
2019
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34. Development and validation of a liquid chromatography-electrospray ionization-tandem mass spectrometry method for the determination of urolithin C in rat plasma and its application to a pharmacokinetic study.

Author

Bayle M, Roques C, Marion B, Audran M, Oiry C, Bressolle-Gomeni FMM, and Cros G

Subjects
Animals, Chromatography, Liquid methods, Chromatography, Liquid standards, Male, Rats, Rats, Wistar, Spectrometry, Mass, Electrospray Ionization standards, Tandem Mass Spectrometry standards, Hydrolyzable Tannins blood, Hydrolyzable Tannins pharmacokinetics, Spectrometry, Mass, Electrospray Ionization methods, Tandem Mass Spectrometry methods
Abstract

Urolithins are microflora human metabolites of dietary ellagic acid derivatives. There is now a growing interest in the biological activities of these compounds. Several studies suggest that urolithins have potential antioxidant, anti-inflammatory, anticancer and anti-glycative activities. Recently, our group investigated the role of urolithins as potential anti-diabetic treatments; among the four urolithins, urolithin C was the most promising compound. The purpose of this paper was to develop a rapid, sensitive and specific liquid chromatography-electrospray ionization-tandem mass spectrometry (LC-ESI-MS/MS) method for the determination of urolithin C in rat plasma. To date, no method is reported for the quantification of urolithin C in any of the matrices. Plasma samples were extracted with ethyl acetate. Urolithin D was selected as the internal standard. The separation was carried out on a C18 Kinetex EVO column (2.1mm×150mm, 2.6μm) using a mobile phase of acetonitrile-1% aqueous formic acid solution (30:70, v/v). A triple quadrupole mass spectrometer in the negative ion mode was used for the determination of the target analyte. The monitored ion transitions were m/z 243→187 for urolithin C and m/z 259→213 for the internal standard. The calibration curve range was 4.95-1085μg/L (r 2 >0.994). The intra- and inter-day precisions were less than 10%; accuracies ranged from 96.6 to 109%. The mean extraction recovery of urolithins C and D was greater than 91%. No significant matrix effects and no carryover effects were observed. Small changes in LC-ESI-MS/MS conditions did not have significant effect on the determination of urolithin C. Stability tests under various conditions were also investigated. This highly specific and sensitive method was used to analyze samples collected during preclinical pharmacokinetic studies in rats. Glucuronyl and sulfate conjugates of urolithin C were the main metabolites detected in plasma., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published
2016
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35. MAP Kinase cross talks in oxidative stress-induced impairment of insulin secretion. Involvement in the protective activity of quercetin.

Author

Youl E, Magous R, Cros G, and Oiry C

Subjects
Animals, Calcium Channels, L-Type metabolism, Cell Line, Hydrogen Peroxide pharmacology, Insulin Secretion, Insulin-Secreting Cells drug effects, Insulin-Secreting Cells metabolism, JNK Mitogen-Activated Protein Kinases metabolism, Mitogen-Activated Protein Kinase 1 metabolism, Mitogen-Activated Protein Kinase 3 metabolism, Phosphorylation drug effects, Rats, Resveratrol, Stilbenes pharmacology, Insulin metabolism, Mitogen-Activated Protein Kinases metabolism, Oxidative Stress drug effects, Quercetin pharmacology
Abstract

Insulin secretion preservation is a major issue for the prevention or treatment of type 2 diabetes. We previously showed on β-cells that quercetin (Q), but not resveratrol (R) or N-acetyl cysteine (NAC), amplified glucose-induced insulin secretion in a calcium- and ERK1/2-dependent manner. Quercetin, but not resveratrol or NAC, also protected β-cell function and hyperamplified ERK1/2 phosphorylation in oxidative stress conditions. As quercetin may interfere with other stress-activated protein kinases (JNK and p38 MAPK), we further explored MAPK cross talks and their relationships with the mechanism of the protective effect of quercetin against oxidative stress. In INS-1 insulin-secreting β-cells, using pharmacological inhibitors of MAPK pathways, we found that under oxidative stress (50 μm H2O2) and glucose-stimulating insulin secretion conditions: (i) p38 MAPK phosphorylation was increased and regulated by ERK1/2 (positively) and JNK (negatively), although p38 MAPK activation did not seem to play any significant role in oxidative stress-induced insulin secretion impairment; (ii) the JNK pathway appeared to inhibit both ERK1/2 activation and insulin secretion, although JNK phosphorylation was not significantly changed in our experimental conditions; (iii) the functionality of β-cell in the presence of oxidative stress was closely linked to the level of ERK1/2 activation, (iv) quercetin, resveratrol, or NAC inhibited H2O2 -induced p38 MAPK phosphorylation. The preservation of β-cell function against oxidative stress appears dependent on the balance between ERK1/2 and JNK activation. The protecting effect of quercetin appears due to ERK1/2 hyperactivation, possibly induced by L-type calcium channel opening as we recently showed., (© 2014 Société Française de Pharmacologie et de Thérapeutique.)

Published
2014
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36. Short-term intravenous insulin infusion is associated with reduced expression of NADPH oxidase p47(phox) subunit in monocytes from type 2 diabetes patients.

Author

Vaquer G, Magous R, Cros G, Wojtusciszyn A, Renard E, Chevassus H, Petit P, Lajoix AD, and Oiry C

Subjects
Blood Glucose drug effects, Case-Control Studies, Gene Expression Regulation drug effects, Humans, Hypoglycemic Agents administration & dosage, Infusions, Intravenous, Insulin administration & dosage, Middle Aged, Monocytes drug effects, Monocytes metabolism, RNA, Messenger metabolism, Time Factors, Diabetes Mellitus, Type 2 drug therapy, Hypoglycemic Agents pharmacology, Insulin pharmacology, NADPH Oxidases genetics
Abstract

Hyperglycemia is a well-known inducing factor of oxidative stress through activation of NADPH oxidase. In addition to its plasma glucose lowering effect, insulin may also have antioxidant activity and was shown to downregulate NADPH oxidase expression in vitro. In this study, we show that a short-term (3-day) intravenous insulin infusion in patients with type 2 diabetes induces normalization of both glycemia and mRNA expression of circulating monocyte p47(phox) subunit., (© 2012 The Authors Fundamental and Clinical Pharmacology © 2012 Société Française de Pharmacologie et de Thérapeutique.)

Published
2013
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37. Chicoric acid is an antioxidant molecule that stimulates AMP kinase pathway in L6 myotubes and extends lifespan in Caenorhabditis elegans.

Author

Schlernitzauer A, Oiry C, Hamad R, Galas S, Cortade F, Chabi B, Casas F, Pessemesse L, Fouret G, Feillet-Coudray C, Cros G, Cabello G, Magous R, and Wrutniak-Cabello C

Subjects
Adenylate Kinase genetics, Animals, Caenorhabditis elegans genetics, Caenorhabditis elegans Proteins biosynthesis, Caenorhabditis elegans Proteins genetics, Citrate (si)-Synthase biosynthesis, Citrate (si)-Synthase genetics, Gene Expression Regulation, Enzymologic drug effects, Gene Expression Regulation, Enzymologic genetics, Longevity physiology, Oxidoreductases biosynthesis, Oxidoreductases genetics, Transcription Factors biosynthesis, Transcription Factors genetics, Adenylate Kinase metabolism, Antioxidants pharmacology, Caenorhabditis elegans enzymology, Caffeic Acids pharmacology, Longevity drug effects, Muscle Fibers, Skeletal enzymology, Succinates pharmacology
Abstract

Chicoric acid (CA) is a caffeoyl derivative previously described as having potential anti-diabetic properties. As similarities in cellular mechanism similarities between diabetes and aging have been shown, we explored on L6 myotubes the effect of CA on the modulation of intracellular pathways involved in diabetes and aging. We also determined its influence on lifespan of Caenorhabditis elegans worm (C. elegans). In L6 myotubes, CA was a potent reactive oxygen species (ROS) scavenger, reducing ROS accumulation under basal as well as oxidative stress conditions. CA also stimulated the AMP-activated kinase (AMPK) pathway and displayed various features associated with AMPK activation: CA (a) enhanced oxidative enzymatic defences through increase in glutathion peroxidase (GPx) and superoxide dismutase (SOD) activities, (b) favoured mitochondria protection against oxidative damage through up-regulation of MnSOD protein expression, (c) increased mitochondrial biogenesis as suggested by increases in complex II and citrate synthase activities, along with up-regulation of PGC-1α mRNA expression and (d) inhibited the insulin/Akt/mTOR pathway. As AMPK stimulators (e.g. the anti-diabetic agent meformin or polyphenols such as epigallocatechingallate or quercetin) were shown to extend lifespan in C. elegans, we also determined the effect of CA on the same model. A concentration-dependant lifespan extension was observed with CA (5-100 μM). These data indicate that CA is a potent antioxidant compound activating the AMPK pathway in L6 myotubes. Similarly to other AMPK stimulators, CA is able to extend C. elegans lifespan, an effect measurable even at the micromolar range. Future studies will explore CA molecular targets and give new insights about its possible effects on metabolic and aging-related diseases.

Published
2013
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38. Preventive effects of nutritional doses of polyphenolic molecules on cardiac fibrosis associated with metabolic syndrome: involvement of osteopontin and oxidative stress.

Author

Sutra T, Oiry C, Azay-Milhau J, Youl E, Magous R, Teissèdre PL, Cristol JP, and Cros G

Subjects
Animals, Collagen Type I metabolism, Fibrosis metabolism, Heart Diseases metabolism, Humans, Insulin Resistance, Polyphenols, Rats, Rats, Sprague-Dawley, Reactive Oxygen Species metabolism, Fibrosis drug therapy, Flavonoids administration & dosage, Heart Diseases drug therapy, Osteopontin metabolism, Oxidative Stress, Phenols administration & dosage
Abstract

We previously showed that grape extracts enriched in different polyphenolic families were similarly able to prevent reactive oxygen species (ROS) production, although having differential effects on various features of metabolic syndrome when administered at a dose of 21 mg/kg to the fructose (60%)-fed rat (a model of metabolic syndrome). In the present work, we analyzed on the same model the effect of pure polyphenolic molecules (catechin, resveratrol, delphinidin, and gallic acid) administered at a dose of 2.1 mg/kg. Delphinidin and gallic acid prevented insulin resistance, while gallic acid prevented the elevation of blood pressure. All molecules prevented cardiac ROS overproduction and NADPH overexpression. We also showed that fructose feeding was associated with cardiac fibrosis (accumulation of collagen I) and expression of osteopontin, a factor induced by ROS and a collagen I expression inducer. Collagen I and osteopontin expressions were prevented by the administration of all polyphenolic molecules. The potential use of polyphenols in the prevention of cardiac fibrosis should be further explored.

Published
2008
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39. Regulation of ERK1/2 activity by ghrelin-activated growth hormone secretagogue receptor 1A involves a PLC/PKCvarepsilon pathway.

Author

Mousseaux D, Le Gallic L, Ryan J, Oiry C, Gagne D, Fehrentz JA, Galleyrand JC, and Martinez J

Subjects
Animals, CHO Cells, Cricetinae, Ghrelin, Humans, Receptors, Ghrelin, Transfection, Type C Phospholipases metabolism, ets-Domain Protein Elk-1 metabolism, Mitogen-Activated Protein Kinase 1 metabolism, Mitogen-Activated Protein Kinase 3 metabolism, Peptide Hormones physiology, Protein Kinase C-epsilon metabolism, Receptors, G-Protein-Coupled metabolism
Abstract

1. The growth hormone secretagogue receptor 1a (GHSR-1a) is a G-protein coupled receptor, involved in the biological actions of ghrelin by triggering inositol phosphates and calcium intracellular second messengers. It has also been reported that ghrelin could activate the 44- and 42-kDa extracellular signal-regulated protein kinases (ERK1/2) in different cell lines, but it is not clear whether this regulation is GHSR-1a dependent or not. 2. To provide direct evidence for the coupling of GHSR-1a to ERK1/2 activation, this pathway has been studied in a heterologous expression system. 3. Thus, in Chinese hamster ovary (CHO) cells we showed that ghrelin induced, via the human GHSR-1a, a transient and dose-dependent activation of ERK1/2 leading to activation of the transcriptional factor Elk1. 4. We then investigated the precise mechanisms involved in GHSR-1a-mediated ERK1/2 activation using various specific inhibitors and dominant-negative mutants and found that internalization of GHSR-1a was not necessary. Our results also indicate that phospholipase C (PLC) was involved in GHSR-1a-mediated ERK1/2 activation, however, pathways like tyrosine kinases, including Src, and phosphoinositide 3-kinases were not found to be involved. GHSR-1a-mediated ERK1/2 activation was abolished both by a general protein kinase C (PKC) inhibitor, Gö6983, and by PKC depletion using overnight pretreatment with phorbol ester. Moreover, the calcium chelator, BAPTA-AM, and the inhibitor of conventional PKCs, Gö6976, had no effect on the GHSR-1a-mediated ERK1/2 activation, suggesting the involvement of novel PKC isoforms (epsilon, delta), but not conventional or atypical PKCs. Further analyses suggest that PKCepsilon is required for the activation of ERK1/2. 5. Taken together, these data suggest that ghrelin, through GHSR-1a, activates the Elk1 transcriptional factor and ERK1/2 by a PLC- and PKCepsilon-dependent pathway.

Published
2006
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40. Cholecystokinin 1 receptor modulates the MEKK1-induced c-Jun trans-activation: structural requirements of the receptor.

Author

Ibarz G, Oiry C, Carnazzi E, Crespy P, Escrieut C, Fourmy D, Galleyrand JC, Gagne D, and Martinez J

Subjects
Amino Acid Sequence, Animals, Cell Line, Tumor, Enzyme Activation, Gene Expression Regulation, Enzymologic, Humans, JNK Mitogen-Activated Protein Kinases genetics, Mice, Phosphorylation, Protein Binding, Protein Conformation, Protein Structure, Tertiary, Rats, Receptors, Cholecystokinin genetics, Species Specificity, JNK Mitogen-Activated Protein Kinases metabolism, MAP Kinase Kinase Kinase 1 metabolism, Receptors, Cholecystokinin metabolism, Transcriptional Activation physiology
Abstract

In cells overexpressing active MEKK1 to enhance c-Jun trans-activation, expression of rat cholecystokinin 1 receptor increased the activity of c-Jun while in the same experimental conditions overexpression of mouse cholecystokinin 1 receptor repressed it. This differential trans-activation is specific, since it was not observed for either the other overexpressed kinases (MEK, PKA) or for other transcription factors (ATF2, ELK-1, CREB). This differential behaviour was also detected in a human colon adenocarcinoma cell-line naturally producing high levels of endogenous MEKK1. This differential behaviour between the two receptors on the MEKK1-induced c-Jun trans-activation was independent of the activation state of JNK, of the phosphorylation level of c-Jun and of its ability to bind its specific DNA responsive elements. Two amino acids (Val43 and Phe50 in the mouse cholecystokinin 1 receptor, replaced by Leu43 and Ileu50 in the rat cholecystokinin 1 receptor) localized in the first transmembrane domain were found to play a crucial role in this differential behaviour. MEKK1 probably activates a transcriptional partner of c-Jun whose activity is maintained or increased in the presence of the rat cholecystokinin 1 receptor but repressed in the presence of the mouse cholecystokinin 1 receptor.

Published
2006
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41. Cross-interactions of two p38 mitogen-activated protein (MAP) kinase inhibitors and two cholecystokinin (CCK) receptor antagonists with the CCK1 receptor and p38 MAP kinase.

Author

Morel C, Ibarz G, Oiry C, Carnazzi E, Bergé G, Gagne D, Galleyrand JC, and Martinez J

Subjects
Adenosine Triphosphate chemistry, Animals, Benzodiazepinones pharmacology, Binding Sites, Blotting, Western, COS Cells, Devazepide pharmacology, Dose-Response Relationship, Drug, Genes, Reporter, Hormone Antagonists pharmacology, Imidazoles pharmacology, Immunoblotting, Inositol Phosphates chemistry, Kinetics, Ligands, MAP Kinase Signaling System, Models, Chemical, Models, Molecular, Phenylurea Compounds pharmacology, Protein Binding, Protein Conformation, Pyridines pharmacology, Rats, Receptor, Cholecystokinin A metabolism, Signal Transduction, Time Factors, Transfection, p38 Mitogen-Activated Protein Kinases metabolism, Enzyme Inhibitors pharmacology, Receptors, Cholecystokinin antagonists & inhibitors, p38 Mitogen-Activated Protein Kinases antagonists & inhibitors
Abstract

Although SB202190 and SB203580 are described as specific p38 MAP kinase inhibitors, several reports have indicated that other enzymes are also sensitive to SB203580. Using a pharmacological approach, we report for the first time that compounds SB202190 and SB203580 were able to directly and selectively interact with a G-protein-coupled receptor, namely the cholecystokinin receptor subtype CCK1, but not with the CCK2 receptor. We demonstrated that these compounds were non-competitive antagonists of the CCK1 receptor at concentrations typically used to inhibit protein kinases. By chimeric construction of the CCK2 receptor, we determined the involvement of two CCK1 receptor intracellular loops in the binding of SB202190 and SB203580. We also showed that two CCK antagonists, L364,718 and L365,260, were able to regulate p38 mitogen-activated protein (MAP) kinase activity. Using a reporter gene strategy and immunoblotting experiments, we demonstrated that both CCK antagonists inhibited selectively the enzymatic activity of p38 MAP kinase. Kinase assays suggested that this inhibition resulted from a direct interaction with both CCK antagonists. Molecular modeling simulations suggested that this interaction occurs in the ATP binding pocket of p38 MAP kinase. These results suggest that SB202190 and SB203580 bind to the CCK1 receptor and, as such, these compounds should be used with caution in models that express this receptor. We also found that L364,718 and L365,260, two CCK receptor antagonists, directly interacted with p38 MAP kinase and inhibited its activity. These findings suggest that the CCK1 receptor shares structural analogies with the p38 MAP kinase ATP binding site. They open the way to potential design of either a new family of MAP kinase inhibitors from CCK1 receptor ligand structures or new CCK1 receptor ligands based on p38 MAP kinase inhibitor structures.

Published
2005
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42. Folding pathway mediated by an intramolecular chaperone. A functional peptide chaperone designed using sequence databases.

Author

Yabuta Y, Subbian E, Oiry C, and Shinde U

Subjects
Algorithms, Amino Acid Sequence, Bacterial Proteins chemistry, Databases, Genetic, Drug Design, Hydrophobic and Hydrophilic Interactions, Models, Molecular, Molecular Chaperones physiology, Protein Sorting Signals, Protein Structure, Secondary, Subtilisin antagonists & inhibitors, Subtilisin chemistry, Molecular Chaperones chemistry, Peptides chemistry, Protein Folding, Structural Homology, Protein
Abstract

Catalytic domains of several prokaryotic and eukaryotic protease families require dedicated N-terminal propeptide domains or "intramolecular chaperones" to facilitate correct folding. Amino acid sequence analysis of these families establishes three important characteristics: (i) propeptides are almost always less conserved than their cognate catalytic domains, (ii) they contain a large number of charged amino acids, and (iii) propeptides within different protease families display insignificant sequence similarity. The implications of these findings are, however, unclear. In this study, we have used subtilisin as our model to redesign a peptide chaperone using information databases. Our goal was to establish the minimum sequence requirements for a functional subtilisin propeptide, because such information could facilitate subsequent design of tailor-made chaperones. A decision-based computer algorithm that maintained conserved residues but varied all non-conserved residues from a multiple protein sequence alignment was developed and utilized to design a novel peptide sequence (ProD). Interestingly, despite a difference of 5 pH units between their isoelectric points and despite displaying only 16% sequence identity with the wild-type propeptide (ProWT), ProD chaperones folding and functions as a potent subtilisin inhibitor. The computed secondary structures and hydrophobic patterns within these two propeptides are similar. However, unlike ProWT, ProD adopts a well defined alpha-beta conformation as an isolated peptide and forms a stoichiometric complex with mature subtilisin. The CD spectra of this complex is similar to ProWT.subtilisin. Our results establish that despite low sequence identity and dramatically different charge distribution, both propeptides adopt similar structural scaffolds. Hence, conserved scaffolds and hydrophobic patterns, but not absolute charge, dictate propeptide function.

Published
2003
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43. C-terminal heptapeptide of gastrin inhibits astrocytomas motility by interacting with a new gastrin binding site.

Author

Pannequin J, Oiry C, Morel C, Kucharczak J, Camby I, Kiss R, Gagne D, Galleyrand JC, and Martinez J

Subjects
Amino Acid Sequence, Binding Sites, Cell Division drug effects, Cell Movement drug effects, Cyclic AMP metabolism, Genes, fos genetics, Humans, Inositol Phosphates biosynthesis, Iodine Radioisotopes, Isotope Labeling, Kinetics, Luciferases metabolism, Molecular Sequence Data, Receptor, Cholecystokinin A, Receptor, Cholecystokinin B, Receptors, Cholecystokinin genetics, Reverse Transcriptase Polymerase Chain Reaction, Second Messenger Systems physiology, Transfection, Tumor Cells, Cultured, Astrocytoma pathology, Brain Neoplasms pathology, Gastrins pharmacology, Oligopeptides pharmacology, Receptors, Cholecystokinin drug effects
Abstract

It is well known that the amidated C-terminal part of gastrin is crucial for its interaction with the classical seven transmembrane domain receptors CCK-1 or CCK-2. Nevertheless, over the past 10 years, several groups have characterized new binding sites using peptides related to gastrin (particularly glycine-extended forms of gastrin) on various tumoral and nontumoral cell lines. In the present study, we focused on the human astrocytic tumoral cell line U373. Although it has been described that gastrin was able to inhibit the motility of these cells, we were unable to detect any classical CCK/gastrin receptor. On the other hand, by using the radiolabeled C-terminal heptapeptide of gastrin ((125)I-G-7), we evidenced a new binding site that possessed a pharmacological profile different from the classical CCK/gastrin receptors. This new gastrin binding site seemed to be coupled to G proteins and be implicated in c-Fos transcription gene. Moreover, we showed that G-7 was able to induce a strong inhibition of U373 cell migration, a crucial biological effect when we know that astrocytoma cells' migration in brain parenchyma constitutes a major feature of malignancy in astrocytic tumors.

Published
2002
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44. CholecystokininB receptor from human Jurkat lymphoblastic T cells is involved in activator protein-1-responsive gene activation.

Author

Oiry C, Gagne D, Cottin E, Bernad N, Galleyrand JC, Bergé G, Lignon MF, Eldin P, Le Cunff M, Léger J, Clerc P, Fourmy D, and Martinez J

Subjects
Animals, Binding, Competitive, COS Cells, Cell Division, Cell Line, Cloning, Molecular, Humans, Interleukin-2 genetics, Jurkat Cells, Ligands, Transcription, Genetic drug effects, Transcriptional Activation, Gene Expression Regulation, Neoplastic, Receptors, Cholecystokinin physiology, Sincalide pharmacology, T-Lymphocytes physiology, Transcription Factor AP-1 physiology
Abstract

The aim of this study was to analyze the role of cholecystokinin (CCK(B)) receptor in human lymphoblastic Jurkat T cells. We investigated the trophic effect resulting from activation of such a receptor by using the reporter gene strategy. For this purpose, we transiently transfected Jurkat T cells with the reporter plasmid p[(TRE)3-tk-Luc] and found that CCK-8 was able to dose-dependently induce luciferase expression related to activator protein-1 (AP-1) activation with a maximal response identical to that obtained with compounds known to activate AP-1 complex (quantitatively, the same level of induction was obtained with 1 nM 12-O-tetradecanoylphorbol-13-acetate, 100 microM diacylglycerol, or 4 nM epidermal growth factor). The involvement of the CCK(B) receptor in such a stimulation was demonstrated by the inhibiting effect of the selective CCK(B) receptor antagonist PD-135,158. This effect was confirmed in COS-7 cells transfected with the cDNA of CCK(B) receptor cloned from Jurkat T cells. To better understand the AP-1-dependent luciferase expression in Jurkat T cells, we tested two specific inhibitors of serine/threonine phosphatases-1 and -2A: okadaic acid and calyculin A. These compounds strongly increased the phorbol-12-myristate-13-acetate response, whereas we have not observed a contribution of phosphatase inhibitors on a CCK-8-induced luciferase activity. To confirm that CCK(B) receptors are involved in AP-1 response, we investigated the CCK-8 effect on interleukin-2 expression, a natural endogenous gene regulated by several factors, including AP-1. In Jurkat T cells activated by phorbol-12-myristate-13-acetate and phytohemagglutinin, CCK-8 induced IL-2 expression. This induction was abolished by PD-135,158. Our results indicate that CCK-8 exerts a trophic effect in Jurkat T cells through stimulation of CCK(B) receptors by modulation of expression of AP-1-regulated genes.

Published
1997
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45. Cholecystokinin and gastrin are not equally sensitive to GTP gamma S at CCKB receptors: importance of the sulphated tyrosine.

Author

Lallement JC, Oiry C, Lima-Leite AC, Lignon MF, Fulcrand P, Galleyrand JC, and Martinez J

Subjects
Amino Acid Sequence, Animals, Brain metabolism, Cell Line, Cell Membrane metabolism, Guinea Pigs, Humans, Male, Molecular Sequence Data, T-Lymphocytes metabolism, Gastrins metabolism, Guanosine 5'-O-(3-Thiotriphosphate) metabolism, Receptors, Cholecystokinin metabolism, Sincalide metabolism, Tyrosine metabolism
Abstract

We have shown that gastrin and cholecystokinin octapeptide (CCK-8) are differently coupled to G protein (GTP-binding protein) through type B cholecystokinin receptors in guinea-pig brain membranes and Jurkat cells. Indeed, the gastrin-13 binding affinity is strongly reduced by stable guanyl nucleotides, whereas CCK-8 binding is only slightly affected. In order to determine the structural requirements regulating such coupling, we have synthesized several gastrin and cholecystokinin fragments (sulphated or unsulphated) elongated at the N-terminus of the common C-terminal tetrapeptide. We investigated their interaction with CCKB receptors in guinea pig brain membranes and Jurkat cells and their involvement in the G protein coupling. Their apparent binding affinities to CCKB receptors were measured by inhibition of [125I]Bolton Hunter-CCK-8 (3-[125I]iodo-4-hydroxyphenyl)propionyl-CCK-8) binding in the presence or absence of GTP gamma S (guanosine 5'-O-(3-thio)triphosphate) or aluminum tetrafluoride (AlF4-). Activation of the G proteins by GTP gamma S or AlF4- led to a decrease in binding affinity for the gastrin related peptides, the common CCK-gastrin C-terminal forms, the cholecystokinin hexapeptide and the unsulphated cholecystokinin heptapeptide. Sulphated CCK-7, CCK-8, and cionin apparent binding affinities were not affected. These finding indicated that the sulphated tyrosine in position 7 in CCK (as counted from the C-terminus), provides the cholecystokinin selectivity for the CCKB receptor compared to gastrin. The results are discussed with the aim to better clarify the physiological relevance of gastrin and cholecystokinin toward CCKB receptors and their related intracellular events.

Published
1995
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