Systemic Metabolic Alterations Correlate with Islet-Level Prostaglandin E(2) Production and Signaling Mechanisms That Predict β-Cell Dysfunction in a Mouse Model of Type 2 Diabetes

The transition from β-cell compensation to β-cell failure is not well understood. Previous works by our group and others have demonstrated a role for Prostaglandin EP3 receptor (EP3), encoded by the Ptger3 gene, in the loss of functional β-cell mass in Type 2 diabetes (T2D). The primary endogenous E...

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Autores principales: Schaid, Michael D., Zhu, Yanlong, Richardson, Nicole E., Patibandla, Chinmai, Ong, Irene M., Fenske, Rachel J., Neuman, Joshua C., Guthery, Erin, Reuter, Austin, Sandhu, Harpreet K., Fuller, Miles H., Cox, Elizabeth D., Davis, Dawn B., Layden, Brian T., Brasier, Allan R., Lamming, Dudley W., Ge, Ying, Kimple, Michelle E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7830513/
https://www.ncbi.nlm.nih.gov/pubmed/33467110
http://dx.doi.org/10.3390/metabo11010058
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author Schaid, Michael D.
Zhu, Yanlong
Richardson, Nicole E.
Patibandla, Chinmai
Ong, Irene M.
Fenske, Rachel J.
Neuman, Joshua C.
Guthery, Erin
Reuter, Austin
Sandhu, Harpreet K.
Fuller, Miles H.
Cox, Elizabeth D.
Davis, Dawn B.
Layden, Brian T.
Brasier, Allan R.
Lamming, Dudley W.
Ge, Ying
Kimple, Michelle E.
author_facet Schaid, Michael D.
Zhu, Yanlong
Richardson, Nicole E.
Patibandla, Chinmai
Ong, Irene M.
Fenske, Rachel J.
Neuman, Joshua C.
Guthery, Erin
Reuter, Austin
Sandhu, Harpreet K.
Fuller, Miles H.
Cox, Elizabeth D.
Davis, Dawn B.
Layden, Brian T.
Brasier, Allan R.
Lamming, Dudley W.
Ge, Ying
Kimple, Michelle E.
author_sort Schaid, Michael D.
collection PubMed
description The transition from β-cell compensation to β-cell failure is not well understood. Previous works by our group and others have demonstrated a role for Prostaglandin EP3 receptor (EP3), encoded by the Ptger3 gene, in the loss of functional β-cell mass in Type 2 diabetes (T2D). The primary endogenous EP3 ligand is the arachidonic acid metabolite prostaglandin E(2) (PGE(2)). Expression of the pancreatic islet EP3 and PGE(2) synthetic enzymes and/or PGE(2) excretion itself have all been shown to be upregulated in primary mouse and human islets isolated from animals or human organ donors with established T2D compared to nondiabetic controls. In this study, we took advantage of a rare and fleeting phenotype in which a subset of Black and Tan BRachyury (BTBR) mice homozygous for the Leptin(ob/ob) mutation—a strong genetic model of T2D—were entirely protected from fasting hyperglycemia even with equal obesity and insulin resistance as their hyperglycemic littermates. Utilizing this model, we found numerous alterations in full-body metabolic parameters in T2D-protected mice (e.g., gut microbiome composition, circulating pancreatic and incretin hormones, and markers of systemic inflammation) that correlate with improvements in EP3-mediated β-cell dysfunction.
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spelling pubmed-78305132021-01-26 Systemic Metabolic Alterations Correlate with Islet-Level Prostaglandin E(2) Production and Signaling Mechanisms That Predict β-Cell Dysfunction in a Mouse Model of Type 2 Diabetes Schaid, Michael D. Zhu, Yanlong Richardson, Nicole E. Patibandla, Chinmai Ong, Irene M. Fenske, Rachel J. Neuman, Joshua C. Guthery, Erin Reuter, Austin Sandhu, Harpreet K. Fuller, Miles H. Cox, Elizabeth D. Davis, Dawn B. Layden, Brian T. Brasier, Allan R. Lamming, Dudley W. Ge, Ying Kimple, Michelle E. Metabolites Article The transition from β-cell compensation to β-cell failure is not well understood. Previous works by our group and others have demonstrated a role for Prostaglandin EP3 receptor (EP3), encoded by the Ptger3 gene, in the loss of functional β-cell mass in Type 2 diabetes (T2D). The primary endogenous EP3 ligand is the arachidonic acid metabolite prostaglandin E(2) (PGE(2)). Expression of the pancreatic islet EP3 and PGE(2) synthetic enzymes and/or PGE(2) excretion itself have all been shown to be upregulated in primary mouse and human islets isolated from animals or human organ donors with established T2D compared to nondiabetic controls. In this study, we took advantage of a rare and fleeting phenotype in which a subset of Black and Tan BRachyury (BTBR) mice homozygous for the Leptin(ob/ob) mutation—a strong genetic model of T2D—were entirely protected from fasting hyperglycemia even with equal obesity and insulin resistance as their hyperglycemic littermates. Utilizing this model, we found numerous alterations in full-body metabolic parameters in T2D-protected mice (e.g., gut microbiome composition, circulating pancreatic and incretin hormones, and markers of systemic inflammation) that correlate with improvements in EP3-mediated β-cell dysfunction. MDPI 2021-01-16 /pmc/articles/PMC7830513/ /pubmed/33467110 http://dx.doi.org/10.3390/metabo11010058 Text en © 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Schaid, Michael D.
Zhu, Yanlong
Richardson, Nicole E.
Patibandla, Chinmai
Ong, Irene M.
Fenske, Rachel J.
Neuman, Joshua C.
Guthery, Erin
Reuter, Austin
Sandhu, Harpreet K.
Fuller, Miles H.
Cox, Elizabeth D.
Davis, Dawn B.
Layden, Brian T.
Brasier, Allan R.
Lamming, Dudley W.
Ge, Ying
Kimple, Michelle E.
Systemic Metabolic Alterations Correlate with Islet-Level Prostaglandin E(2) Production and Signaling Mechanisms That Predict β-Cell Dysfunction in a Mouse Model of Type 2 Diabetes
title Systemic Metabolic Alterations Correlate with Islet-Level Prostaglandin E(2) Production and Signaling Mechanisms That Predict β-Cell Dysfunction in a Mouse Model of Type 2 Diabetes
title_full Systemic Metabolic Alterations Correlate with Islet-Level Prostaglandin E(2) Production and Signaling Mechanisms That Predict β-Cell Dysfunction in a Mouse Model of Type 2 Diabetes
title_fullStr Systemic Metabolic Alterations Correlate with Islet-Level Prostaglandin E(2) Production and Signaling Mechanisms That Predict β-Cell Dysfunction in a Mouse Model of Type 2 Diabetes
title_full_unstemmed Systemic Metabolic Alterations Correlate with Islet-Level Prostaglandin E(2) Production and Signaling Mechanisms That Predict β-Cell Dysfunction in a Mouse Model of Type 2 Diabetes
title_short Systemic Metabolic Alterations Correlate with Islet-Level Prostaglandin E(2) Production and Signaling Mechanisms That Predict β-Cell Dysfunction in a Mouse Model of Type 2 Diabetes
title_sort systemic metabolic alterations correlate with islet-level prostaglandin e(2) production and signaling mechanisms that predict β-cell dysfunction in a mouse model of type 2 diabetes
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7830513/
https://www.ncbi.nlm.nih.gov/pubmed/33467110
http://dx.doi.org/10.3390/metabo11010058
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