P2X7 Receptor in the Management of Energy Homeostasis: Implications for Obesity, Dyslipidemia, and Insulin Resistance

P2X7 Receptor in the Management of Energy Homeostasis: Implications for Obesity, Dyslipidemia, and Insulin Resistance

Whole-body energy metabolism entails the highly regulated balance between food intake, nutrient breakdown, energy generation (ATP), and energy storage for the preservation of vital functions and body mass. Purinergic signaling has attracted increasing attention in the regulatory mechanisms not only...

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Main Authors: Roberto Coccurello, Cinzia Volonté
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-05-01
Series:Frontiers in Endocrinology
Subjects:
P2X7 receptor
energy metabolism
lipid oxidation
adipose tissue
thermogenesis
skeletal muscle
Online Access:https://www.frontiersin.org/article/10.3389/fendo.2020.00199/full
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spelling doaj-7027f7e4ba85439fa691e107670ca8462020-11-25T02:04:22ZengFrontiers Media S.A.Frontiers in Endocrinology1664-23922020-05-011110.3389/fendo.2020.00199517216P2X7 Receptor in the Management of Energy Homeostasis: Implications for Obesity, Dyslipidemia, and Insulin ResistanceRoberto Coccurello0Roberto Coccurello1Cinzia Volonté2Cinzia Volonté3Institute for Complex System (ISC), National Research Council (CNR), Rome, ItalyPreclinical Neuroscience, European Center for Brain Research (CERC)/IRCCS Santa Lucia Foundation, Rome, ItalyPreclinical Neuroscience, European Center for Brain Research (CERC)/IRCCS Santa Lucia Foundation, Rome, ItalyInstitute for Systems Analysis and Computer Science, National Research Council (CNR), Rome, ItalyWhole-body energy metabolism entails the highly regulated balance between food intake, nutrient breakdown, energy generation (ATP), and energy storage for the preservation of vital functions and body mass. Purinergic signaling has attracted increasing attention in the regulatory mechanisms not only for the reverse processes of white adipose tissue lipogenesis and lipolysis, but also for brown adipocyte-dependent thermogenesis and leptin production. This regulatory role has remarkable implications in the handling of body's energy expenditure and energy reservoir. Hence, selected purinergic receptors can play a relevant function in lipid metabolism, endocrine activity, glucose uptake, ATP-dependent increased expression of uncoupling protein 1, and browning of adipose tissue. Indeed, purinergic P2 receptors regulate adipogenesis and lipid metabolism and are involved in adipogenic differentiation. In particular, the ionotropic ATP-activated P2X7 subtype is involved in fat distribution, as well as in the modulation of inflammatory pathways in white adipose tissue. Within this context, very recent evidence has established a direct function of P2X7 in energy metabolism. Specifically, either genetic deletion (P2X7 knockout mice) or subchronic pharmacological inhibition of the receptor produces a decrease of whole-body energy expenditure and, concurrently, an increase of carbohydrate oxidation. As further evidence, lipid accumulation, increased fat mass distribution, and weight gain are reported in P2X7-depleted mice. Conversely, the stimulation of P2X7 enhances energy expenditure. Altogether, this knowledge supports the role of P2X7 signaling in the fight against obesity and insulin resistance, as well as in the promotion of adaptive thermogenesis.https://www.frontiersin.org/article/10.3389/fendo.2020.00199/fullP2X7 receptorenergy metabolismlipid oxidationadipose tissuethermogenesisskeletal muscle
collection DOAJ
language English
format Article
sources DOAJ
author Roberto Coccurello
Roberto Coccurello
Cinzia Volonté
Cinzia Volonté
spellingShingle Roberto Coccurello
Roberto Coccurello
Cinzia Volonté
Cinzia Volonté
P2X7 Receptor in the Management of Energy Homeostasis: Implications for Obesity, Dyslipidemia, and Insulin Resistance
Frontiers in Endocrinology
P2X7 receptor
energy metabolism
lipid oxidation
adipose tissue
thermogenesis
skeletal muscle
author_facet Roberto Coccurello
Roberto Coccurello
Cinzia Volonté
Cinzia Volonté
author_sort Roberto Coccurello
title P2X7 Receptor in the Management of Energy Homeostasis: Implications for Obesity, Dyslipidemia, and Insulin Resistance
title_short P2X7 Receptor in the Management of Energy Homeostasis: Implications for Obesity, Dyslipidemia, and Insulin Resistance
title_full P2X7 Receptor in the Management of Energy Homeostasis: Implications for Obesity, Dyslipidemia, and Insulin Resistance
title_fullStr P2X7 Receptor in the Management of Energy Homeostasis: Implications for Obesity, Dyslipidemia, and Insulin Resistance
title_full_unstemmed P2X7 Receptor in the Management of Energy Homeostasis: Implications for Obesity, Dyslipidemia, and Insulin Resistance
title_sort p2x7 receptor in the management of energy homeostasis: implications for obesity, dyslipidemia, and insulin resistance
publisher Frontiers Media S.A.
series Frontiers in Endocrinology
issn 1664-2392
publishDate 2020-05-01
description Whole-body energy metabolism entails the highly regulated balance between food intake, nutrient breakdown, energy generation (ATP), and energy storage for the preservation of vital functions and body mass. Purinergic signaling has attracted increasing attention in the regulatory mechanisms not only for the reverse processes of white adipose tissue lipogenesis and lipolysis, but also for brown adipocyte-dependent thermogenesis and leptin production. This regulatory role has remarkable implications in the handling of body's energy expenditure and energy reservoir. Hence, selected purinergic receptors can play a relevant function in lipid metabolism, endocrine activity, glucose uptake, ATP-dependent increased expression of uncoupling protein 1, and browning of adipose tissue. Indeed, purinergic P2 receptors regulate adipogenesis and lipid metabolism and are involved in adipogenic differentiation. In particular, the ionotropic ATP-activated P2X7 subtype is involved in fat distribution, as well as in the modulation of inflammatory pathways in white adipose tissue. Within this context, very recent evidence has established a direct function of P2X7 in energy metabolism. Specifically, either genetic deletion (P2X7 knockout mice) or subchronic pharmacological inhibition of the receptor produces a decrease of whole-body energy expenditure and, concurrently, an increase of carbohydrate oxidation. As further evidence, lipid accumulation, increased fat mass distribution, and weight gain are reported in P2X7-depleted mice. Conversely, the stimulation of P2X7 enhances energy expenditure. Altogether, this knowledge supports the role of P2X7 signaling in the fight against obesity and insulin resistance, as well as in the promotion of adaptive thermogenesis.
topic P2X7 receptor
energy metabolism
lipid oxidation
adipose tissue
thermogenesis
skeletal muscle
url https://www.frontiersin.org/article/10.3389/fendo.2020.00199/full
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