Changes in retinoid metabolism and signaling associated with metabolic remodeling during fasting and in type I diabetes

Liver is the central metabolic hub that coordinates carbohydrate and lipid metabolism. The bioactive derivative of vitamin A, retinoic acid (RA), was shown to regulate major metabolic genes including phosphoenolpyruvate carboxykinase, fatty acid synthase, carnitine palmitoyltransferase 1, and glucok...

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Published inThe Journal of biological chemistry Vol. 296; p. 100323
Main Authors Klyuyeva, Alla V., Belyaeva, Olga V., Goggans, Kelli R., Krezel, Wojciech, Popov, Kirill M., Kedishvili, Natalia Y.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.01.2021
American Society for Biochemistry and Molecular Biology
Subjects
Alcohol Oxidoreductases - genetics
Animals
Biochemistry, Molecular Biology
Carnitine O-Palmitoyltransferase - genetics
dehydrogenase
DHRS3
Diabetes Mellitus, Type 1 - genetics
Diabetes Mellitus, Type 1 - metabolism
Diabetes Mellitus, Type 1 - pathology
Disease Models, Animal
fasting
Fasting - metabolism
Gene Expression Regulation, Enzymologic - genetics
Glucokinase - genetics
Humans
Life Sciences
lipid droplets
liver
Liver - enzymology
Liver - metabolism
Metabolism - genetics
Mice
Microsomes, Liver - metabolism
Phosphoenolpyruvate Carboxykinase (ATP) - genetics
RDH10
reductase
retinoic acid
Retinoids - genetics
Retinoids - metabolism
retinol
Signal Transduction - genetics
Tretinoin - metabolism
vitamin A
NADPH
SDR
vitamin A
liver
fasting
dehydrogenase
lipid droplets
DHRS3
RA
retinol
reductase
retinoic acid
RDH10
RDH
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Abstract Liver is the central metabolic hub that coordinates carbohydrate and lipid metabolism. The bioactive derivative of vitamin A, retinoic acid (RA), was shown to regulate major metabolic genes including phosphoenolpyruvate carboxykinase, fatty acid synthase, carnitine palmitoyltransferase 1, and glucokinase among others. Expression levels of these genes undergo profound changes during adaptation to fasting or in metabolic diseases such as type 1 diabetes (T1D). However, it is unknown whether the levels of hepatic RA change during metabolic remodeling. This study investigated the dynamics of hepatic retinoid metabolism and signaling in the fed state, in fasting, and in T1D. Our results show that fed-to-fasted transition is associated with significant decrease in hepatic retinol dehydrogenase (RDH) activity, the rate-limiting step in RA biosynthesis, and downregulation of RA signaling. The decrease in RDH activity correlates with the decreased abundance and altered subcellular distribution of RDH10 while Rdh10 transcript levels remain unchanged. In contrast to fasting, untreated T1D is associated with upregulation of RA signaling and an increase in hepatic RDH activity, which correlates with the increased abundance of RDH10 in microsomal membranes. The dynamic changes in RDH10 protein levels in the absence of changes in its transcript levels imply the existence of posttranscriptional regulation of RDH10 protein. Together, these data suggest that the downregulation of hepatic RA biosynthesis, in part via the decrease in RDH10, is an integral component of adaptation to fasting. In contrast, the upregulation of hepatic RA biosynthesis and signaling in T1D might contribute to metabolic inflexibility associated with this disease.
AbstractList Liver is the central metabolic hub that coordinates carbohydrate and lipid metabolism. The bioactive derivative of vitamin A, retinoic acid (RA), was shown to regulate major metabolic genes including phosphoenolpyruvate carboxykinase, fatty acid synthase, carnitine palmitoyltransferase 1, and glucokinase among others. Expression levels of these genes undergo profound changes during adaptation to fasting or in metabolic diseases such as type 1 diabetes (T1D). However, it is unknown whether the levels of hepatic RA change during metabolic remodeling. This study investigated the dynamics of hepatic retinoid metabolism and signaling in the fed state, in fasting, and in T1D. Our results show that fed-to-fasted transition is associated with significant decrease in hepatic retinol dehydrogenase (RDH) activity, the rate-limiting step in RA biosynthesis, and downregulation of RA signaling. The decrease in RDH activity correlates with the decreased abundance and altered subcellular distribution of RDH10 while Rdh10 transcript levels remain unchanged. In contrast to fasting, untreated T1D is associated with upregulation of RA signaling and an increase in hepatic RDH activity, which correlates with the increased abundance of RDH10 in microsomal membranes. The dynamic changes in RDH10 protein levels in the absence of changes in its transcript levels imply the existence of posttranscriptional regulation of RDH10 protein. Together, these data suggest that the downregulation of hepatic RA biosynthesis, in part via the decrease in RDH10, is an integral component of adaptation to fasting. In contrast, the upregulation of hepatic RA biosynthesis and signaling in T1D might contribute to metabolic inflexibility associated with this disease.
Liver is the central metabolic hub that coordinates carbohydrate and lipid metabolism. The bioactive derivative of vitamin A, retinoic acid (RA), was shown to regulate major metabolic genes including phosphoenolpyruvate carboxykinase, fatty acid synthase, carnitine palmitoyltransferase 1, and glucokinase among others. Expression levels of these genes undergo profound changes during adaptation to fasting or in metabolic diseases such as type 1 diabetes (T1D). However, it is unknown whether the levels of hepatic RA change during metabolic remodeling. This study investigated the dynamics of hepatic retinoid metabolism and signaling in the fed state, in fasting, and in T1D. Our results show that fed-to-fasted transition is associated with significant decrease in hepatic retinol dehydrogenase (RDH) activity, the rate-limiting step in RA biosynthesis, and downregulation of RA signaling. The decrease in RDH activity correlates with the decreased abundance and altered subcellular distribution of RDH10 while Rdh10 transcript levels remain unchanged. In contrast to fasting, untreated T1D is associated with upregulation of RA signaling and an increase in hepatic RDH activity, which correlates with the increased abundance of RDH10 in microsomal membranes. The dynamic changes in RDH10 protein levels in the absence of changes in its transcript levels imply the existence of posttranscriptional regulation of RDH10 protein. Together, these data suggest that the downregulation of hepatic RA biosynthesis, in part via the decrease in RDH10, is an integral component of adaptation to fasting. In contrast, the upregulation of hepatic RA biosynthesis and signaling in T1D might contribute to metabolic inflexibility associated with this disease.
ArticleNumber 100323
Author Krezel, Wojciech
Belyaeva, Olga V.
Goggans, Kelli R.
Klyuyeva, Alla V.
Popov, Kirill M.
Kedishvili, Natalia Y.
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  surname: Kedishvili
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  email: nkedishvili@uab.edu
  organization: Department of Biochemistry and Molecular Genetics, University of Alabama at Birmingham, Birmingham, Alabama, USA
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Keywords NADPH
SDR
vitamin A
liver
fasting
dehydrogenase
lipid droplets
DHRS3
RA
retinol
reductase
retinoic acid
RDH10
RDH
Language English
License This is an open access article under the CC BY license.
Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.
Distributed under a Creative Commons Attribution 4.0 International License: http://creativecommons.org/licenses/by/4.0
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Snippet Liver is the central metabolic hub that coordinates carbohydrate and lipid metabolism. The bioactive derivative of vitamin A, retinoic acid (RA), was shown to...
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SubjectTerms Alcohol Oxidoreductases - genetics
Animals
Biochemistry, Molecular Biology
Carnitine O-Palmitoyltransferase - genetics
dehydrogenase
DHRS3
Diabetes Mellitus, Type 1 - genetics
Diabetes Mellitus, Type 1 - metabolism
Diabetes Mellitus, Type 1 - pathology
Disease Models, Animal
fasting
Fasting - metabolism
Gene Expression Regulation, Enzymologic - genetics
Glucokinase - genetics
Humans
Life Sciences
lipid droplets
liver
Liver - enzymology
Liver - metabolism
Metabolism - genetics
Mice
Microsomes, Liver - metabolism
Phosphoenolpyruvate Carboxykinase (ATP) - genetics
RDH10
reductase
retinoic acid
Retinoids - genetics
Retinoids - metabolism
retinol
Signal Transduction - genetics
Tretinoin - metabolism
vitamin A
Title Changes in retinoid metabolism and signaling associated with metabolic remodeling during fasting and in type I diabetes
URI https://dx.doi.org/10.1016/j.jbc.2021.100323
https://www.ncbi.nlm.nih.gov/pubmed/33485967
https://search.proquest.com/docview/2480751615
https://hal.science/hal-03708081
https://pubmed.ncbi.nlm.nih.gov/PMC7949101
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