Natural Compound α-PGG and Its Synthetic Derivative 6Cl-TGQ Alter Insulin Secretion: Evidence for Diminishing Glucose Uptake as a Mechanism

Natural Compound α-PGG and Its Synthetic Derivative 6Cl-TGQ Alter Insulin Secretion: Evidence for Diminishing Glucose Uptake as a Mechanism

Xiaozhuo Chen,1– 7 Nigel A Daniels,1,4,5,8 David Cottrill,2,3 Yanyang Cao,2,3 Xuan Wang,2,3 Yunsheng Li,2 Pratik Shriwas,2,3 Yanrong Qian,2 Michael W Archer,1,4 Nicholas B Whitticar,4,9 Ishrat Jahan,1,4 Craig S Nunemaker,1,3– 5 Aili Guo10 1The Diabetes Institute at Ohio Universit...

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Autores principales: Chen X, Daniels NA, Cottrill D, Cao Y, Wang X, Li Y, Shriwas P, Qian Y, Archer MW, Whitticar NB, Jahan I, Nunemaker CS, Guo A
Formato: article
Lenguaje:EN
Publicado: Dove Medical Press 2021
Materias:
glucose-stimulated insulin secretion
calcium influx
glucose transporter
α-pgg
6cl-tgq
Specialties of internal medicine
RC581-951
Acceso en línea:https://doaj.org/article/a531274c797a4f5188e96f9798bed24a
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id oai:doaj.org-article:a531274c797a4f5188e96f9798bed24a
record_format dspace
institution DOAJ
collection DOAJ
language EN
topic glucose-stimulated insulin secretion
calcium influx
glucose transporter
α-pgg
6cl-tgq
Specialties of internal medicine
RC581-951
spellingShingle glucose-stimulated insulin secretion
calcium influx
glucose transporter
α-pgg
6cl-tgq
Specialties of internal medicine
RC581-951
Chen X
Daniels NA
Cottrill D
Cao Y
Wang X
Li Y
Shriwas P
Qian Y
Archer MW
Whitticar NB
Jahan I
Nunemaker CS
Guo A
Natural Compound α-PGG and Its Synthetic Derivative 6Cl-TGQ Alter Insulin Secretion: Evidence for Diminishing Glucose Uptake as a Mechanism
description Xiaozhuo Chen,1– 7 Nigel A Daniels,1,4,5,8 David Cottrill,2,3 Yanyang Cao,2,3 Xuan Wang,2,3 Yunsheng Li,2 Pratik Shriwas,2,3 Yanrong Qian,2 Michael W Archer,1,4 Nicholas B Whitticar,4,9 Ishrat Jahan,1,4 Craig S Nunemaker,1,3– 5 Aili Guo10 1The Diabetes Institute at Ohio University, Athens, OH, 45701, USA; 2The Edison Biotechnology Institute, Athens, OH, 45701, USA; 3Department of Biological Sciences, Athens, OH, 45701, USA; 4Department of Biomedical Sciences, Athens, OH, 45701, USA; 5Heritage College of Osteopathic Medicine, Athens, OH, 45701, USA; 6Interdisciplinary Graduate Program in Molecular and Cellular Biology, Athens, OH, 45701, USA; 7Department of Chemistry and Biochemistry, Athens, OH, 45701, USA; 8Department of Specialty Medicine, Athens, OH, 45701, USA; 9Translational Biomedical Sciences Program, Ohio University, Athens, OH, 45701, USA; 10Department of Internal Medicine, Division of Endocrinology, Diabetes and Metabolism, University of California at Davis (UC Davis) School of Medicine, UC Davis Health Science, Sacramento, CA, 95817, USACorrespondence: Aili GuoDepartment of Internal Medicine, Division of Endocrinology, Diabetes and Metabolism, University of California at Davis (UC Davis) School of Medicine, UC Davis Health Science, PSSB, G400, 4150 V St., Sacramento, CA, 95817, USATel +1 916-734-3730Fax +1 916-734-2292Email alguo@ucdavis.eduCraig S NunemakerDepartment of Biomedical Sciences, 1 Ohio University, Athens, OH, 45701, USATel +1 740-593-2387Fax +1 740-593-4795Email nunemake@ohio.eduPurpose: Previously we showed that natural compound α-penta-galloyl-glucose (α-PGG) and its synthetic derivative 6-chloro-6-deoxy-1,2,3,4-tetra-O-galloyl-α-D-glucopyranose (6Cl-TGQ) act to improve insulin signaling in adipocytes by increasing glucose transport. In this study, we investigated the mechanism of actions of α-PGG and 6Cl-TGQ on insulin secretion.Methods: Mouse islets and/or INS-1832/13 beta-cells were used to test the effects of our compounds on glucose-stimulated insulin secretion (GSIS), intracellular calcium [Ca2+]i using fura-2AM, glucose transport activity via a radioactive glucose uptake assay, intracellular ATP/ADP, and extracellular acidification (ECAR) and mitochondrial oxygen consumption rates (OCAR) using Seahorse metabolic analysis.Results: Both compounds reduced GSIS in beta-cells without negatively affecting cell viability. The compounds primarily diminished glucose uptake into islets and beta-cells. Despite insulin-like effects in the peripheral tissues, these compounds do not act through the insulin receptor in islets. Further interrogation of the stimulus-secretion pathway showed that all the key metabolic factors involved in GSIS including ECAR, OCAR, ATP/ADP ratios, and [Ca2+]i of INS-1832/13 cells were diminished after the compound treatment.Conclusion: The compounds suppress glucose uptake of the beta-cells, which consequently slows down the rates of glycolysis and ATP synthesis, leading to decrease in [Ca2+]i and GSIS. The difference between adipocytes and beta-cells in effects on glucose uptake is of great interest. Further structural and functional modifications could produce new compounds with optimized therapeutic potentials for different target cells. The higher potency of synthetic 6Cl-TGQ in enhancing insulin signaling in adipocytes but lower potency in reducing glucose uptake in beta-cells compared to α-PGG suggests the feasibility of such an approach.Keywords: glucose-stimulated insulin secretion, calcium influx, glucose transporter, α-PGG, 6Cl-TGQ
format article
author Chen X
Daniels NA
Cottrill D
Cao Y
Wang X
Li Y
Shriwas P
Qian Y
Archer MW
Whitticar NB
Jahan I
Nunemaker CS
Guo A
author_facet Chen X
Daniels NA
Cottrill D
Cao Y
Wang X
Li Y
Shriwas P
Qian Y
Archer MW
Whitticar NB
Jahan I
Nunemaker CS
Guo A
author_sort Chen X
title Natural Compound α-PGG and Its Synthetic Derivative 6Cl-TGQ Alter Insulin Secretion: Evidence for Diminishing Glucose Uptake as a Mechanism
title_short Natural Compound α-PGG and Its Synthetic Derivative 6Cl-TGQ Alter Insulin Secretion: Evidence for Diminishing Glucose Uptake as a Mechanism
title_full Natural Compound α-PGG and Its Synthetic Derivative 6Cl-TGQ Alter Insulin Secretion: Evidence for Diminishing Glucose Uptake as a Mechanism
title_fullStr Natural Compound α-PGG and Its Synthetic Derivative 6Cl-TGQ Alter Insulin Secretion: Evidence for Diminishing Glucose Uptake as a Mechanism
title_full_unstemmed Natural Compound α-PGG and Its Synthetic Derivative 6Cl-TGQ Alter Insulin Secretion: Evidence for Diminishing Glucose Uptake as a Mechanism
title_sort natural compound α-pgg and its synthetic derivative 6cl-tgq alter insulin secretion: evidence for diminishing glucose uptake as a mechanism
publisher Dove Medical Press
publishDate 2021
url https://doaj.org/article/a531274c797a4f5188e96f9798bed24a
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spelling oai:doaj.org-article:a531274c797a4f5188e96f9798bed24a2021-12-02T14:28:49ZNatural Compound α-PGG and Its Synthetic Derivative 6Cl-TGQ Alter Insulin Secretion: Evidence for Diminishing Glucose Uptake as a Mechanism1178-7007https://doaj.org/article/a531274c797a4f5188e96f9798bed24a2021-02-01T00:00:00Zhttps://www.dovepress.com/natural-compound-alpha-pgg-and-its-synthetic-derivative-6cl-tgq-alter--peer-reviewed-article-DMSOhttps://doaj.org/toc/1178-7007Xiaozhuo Chen,1– 7 Nigel A Daniels,1,4,5,8 David Cottrill,2,3 Yanyang Cao,2,3 Xuan Wang,2,3 Yunsheng Li,2 Pratik Shriwas,2,3 Yanrong Qian,2 Michael W Archer,1,4 Nicholas B Whitticar,4,9 Ishrat Jahan,1,4 Craig S Nunemaker,1,3– 5 Aili Guo10 1The Diabetes Institute at Ohio University, Athens, OH, 45701, USA; 2The Edison Biotechnology Institute, Athens, OH, 45701, USA; 3Department of Biological Sciences, Athens, OH, 45701, USA; 4Department of Biomedical Sciences, Athens, OH, 45701, USA; 5Heritage College of Osteopathic Medicine, Athens, OH, 45701, USA; 6Interdisciplinary Graduate Program in Molecular and Cellular Biology, Athens, OH, 45701, USA; 7Department of Chemistry and Biochemistry, Athens, OH, 45701, USA; 8Department of Specialty Medicine, Athens, OH, 45701, USA; 9Translational Biomedical Sciences Program, Ohio University, Athens, OH, 45701, USA; 10Department of Internal Medicine, Division of Endocrinology, Diabetes and Metabolism, University of California at Davis (UC Davis) School of Medicine, UC Davis Health Science, Sacramento, CA, 95817, USACorrespondence: Aili GuoDepartment of Internal Medicine, Division of Endocrinology, Diabetes and Metabolism, University of California at Davis (UC Davis) School of Medicine, UC Davis Health Science, PSSB, G400, 4150 V St., Sacramento, CA, 95817, USATel +1 916-734-3730Fax +1 916-734-2292Email alguo@ucdavis.eduCraig S NunemakerDepartment of Biomedical Sciences, 1 Ohio University, Athens, OH, 45701, USATel +1 740-593-2387Fax +1 740-593-4795Email nunemake@ohio.eduPurpose: Previously we showed that natural compound α-penta-galloyl-glucose (α-PGG) and its synthetic derivative 6-chloro-6-deoxy-1,2,3,4-tetra-O-galloyl-α-D-glucopyranose (6Cl-TGQ) act to improve insulin signaling in adipocytes by increasing glucose transport. In this study, we investigated the mechanism of actions of α-PGG and 6Cl-TGQ on insulin secretion.Methods: Mouse islets and/or INS-1832/13 beta-cells were used to test the effects of our compounds on glucose-stimulated insulin secretion (GSIS), intracellular calcium [Ca2+]i using fura-2AM, glucose transport activity via a radioactive glucose uptake assay, intracellular ATP/ADP, and extracellular acidification (ECAR) and mitochondrial oxygen consumption rates (OCAR) using Seahorse metabolic analysis.Results: Both compounds reduced GSIS in beta-cells without negatively affecting cell viability. The compounds primarily diminished glucose uptake into islets and beta-cells. Despite insulin-like effects in the peripheral tissues, these compounds do not act through the insulin receptor in islets. Further interrogation of the stimulus-secretion pathway showed that all the key metabolic factors involved in GSIS including ECAR, OCAR, ATP/ADP ratios, and [Ca2+]i of INS-1832/13 cells were diminished after the compound treatment.Conclusion: The compounds suppress glucose uptake of the beta-cells, which consequently slows down the rates of glycolysis and ATP synthesis, leading to decrease in [Ca2+]i and GSIS. The difference between adipocytes and beta-cells in effects on glucose uptake is of great interest. Further structural and functional modifications could produce new compounds with optimized therapeutic potentials for different target cells. The higher potency of synthetic 6Cl-TGQ in enhancing insulin signaling in adipocytes but lower potency in reducing glucose uptake in beta-cells compared to α-PGG suggests the feasibility of such an approach.Keywords: glucose-stimulated insulin secretion, calcium influx, glucose transporter, α-PGG, 6Cl-TGQChen XDaniels NACottrill DCao YWang XLi YShriwas PQian YArcher MWWhitticar NBJahan INunemaker CSGuo ADove Medical Pressarticleglucose-stimulated insulin secretioncalcium influxglucose transporterα-pgg6cl-tgqSpecialties of internal medicineRC581-951ENDiabetes, Metabolic Syndrome and Obesity: Targets and Therapy, Vol Volume 14, Pp 759-772 (2021)

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