Regulation of insulin secretion: Role of mitochondrial signalling

Pancreatic beta cells are specialised endocrine cells that continuously sense the levels of blood sugar and other fuels and, in response, secrete insulin to maintain normal fuel homeostasis. During postprandial periods an elevated level of plasma glucose rapidly stimulates insulin secretion to decre...

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Main Authors: S. Jitrapakdee, A. Wutthisathapornchai, J. C. Wallace, M. J. MacDonald
Other Authors: Mahidol University
Format: Review
Published: 2018
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Online Access:https://repository.li.mahidol.ac.th/handle/123456789/29642
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spelling th-mahidol.296422018-09-24T16:27:09Z Regulation of insulin secretion: Role of mitochondrial signalling S. Jitrapakdee A. Wutthisathapornchai J. C. Wallace M. J. MacDonald Mahidol University University of Adelaide University of Wisconsin Madison Medicine Pancreatic beta cells are specialised endocrine cells that continuously sense the levels of blood sugar and other fuels and, in response, secrete insulin to maintain normal fuel homeostasis. During postprandial periods an elevated level of plasma glucose rapidly stimulates insulin secretion to decrease hepatic glucose output and promote glucose uptake into other tissues, principally muscle and adipose tissues. Beta cell mitochondria play a key role in this process, not only by providing energy in the form of ATP to support insulin secretion, but also by synthesising metabolites (anaplerosis) that can act, both intra- and extramitochondrially, as factors that couple glucose sensing to insulin granule exocytosis. ATP on its own, and possibly modulated by these coupling factors, triggers closure of the ATP-sensitive potassium channel, resulting in membrane depolarisation that increases intracellular calcium to cause insulin secretion. The metabolic imbalance caused by chronic hyperglycaemia and hyperlipidaemia severely affects mitochondrial metabolism, leading to the development of impaired glucose-induced insulin secretion in type 2 diabetes. It appears that the anaplerotic enzyme pyruvate carboxylase participates directly or indirectly in several metabolic pathways which are important for glucose-induced insulin secretion, including: the pyruvate/malate cycle, the pyruvate/citrate cycle, the pyruvate/isocitrate cycle and glutamate-dehydrogenase-catalysed α-ketoglutarate production. These four pathways enable 'shuttling' or 'recycling' of these intermediate(s) into and out of mitochondrion, allowing continuous production of intracellular messenger(s). The purpose of this review is to present an account of recent progress in this area of central importance in the realm of diabetes and obesity research. © 2010 Springer-Verlag. 2018-09-24T09:27:09Z 2018-09-24T09:27:09Z 2010-06-01 Review Diabetologia. Vol.53, No.6 (2010), 1019-1032 10.1007/s00125-010-1685-0 14320428 0012186X 2-s2.0-77952096424 https://repository.li.mahidol.ac.th/handle/123456789/29642 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=77952096424&origin=inward
institution Mahidol University
building Mahidol University Library
continent Asia
country Thailand
Thailand
content_provider Mahidol University Library
collection Mahidol University Institutional Repository
topic Medicine
spellingShingle Medicine
S. Jitrapakdee
A. Wutthisathapornchai
J. C. Wallace
M. J. MacDonald
Regulation of insulin secretion: Role of mitochondrial signalling
description Pancreatic beta cells are specialised endocrine cells that continuously sense the levels of blood sugar and other fuels and, in response, secrete insulin to maintain normal fuel homeostasis. During postprandial periods an elevated level of plasma glucose rapidly stimulates insulin secretion to decrease hepatic glucose output and promote glucose uptake into other tissues, principally muscle and adipose tissues. Beta cell mitochondria play a key role in this process, not only by providing energy in the form of ATP to support insulin secretion, but also by synthesising metabolites (anaplerosis) that can act, both intra- and extramitochondrially, as factors that couple glucose sensing to insulin granule exocytosis. ATP on its own, and possibly modulated by these coupling factors, triggers closure of the ATP-sensitive potassium channel, resulting in membrane depolarisation that increases intracellular calcium to cause insulin secretion. The metabolic imbalance caused by chronic hyperglycaemia and hyperlipidaemia severely affects mitochondrial metabolism, leading to the development of impaired glucose-induced insulin secretion in type 2 diabetes. It appears that the anaplerotic enzyme pyruvate carboxylase participates directly or indirectly in several metabolic pathways which are important for glucose-induced insulin secretion, including: the pyruvate/malate cycle, the pyruvate/citrate cycle, the pyruvate/isocitrate cycle and glutamate-dehydrogenase-catalysed α-ketoglutarate production. These four pathways enable 'shuttling' or 'recycling' of these intermediate(s) into and out of mitochondrion, allowing continuous production of intracellular messenger(s). The purpose of this review is to present an account of recent progress in this area of central importance in the realm of diabetes and obesity research. © 2010 Springer-Verlag.
author2 Mahidol University
author_facet Mahidol University
S. Jitrapakdee
A. Wutthisathapornchai
J. C. Wallace
M. J. MacDonald
format Review
author S. Jitrapakdee
A. Wutthisathapornchai
J. C. Wallace
M. J. MacDonald
author_sort S. Jitrapakdee
title Regulation of insulin secretion: Role of mitochondrial signalling
title_short Regulation of insulin secretion: Role of mitochondrial signalling
title_full Regulation of insulin secretion: Role of mitochondrial signalling
title_fullStr Regulation of insulin secretion: Role of mitochondrial signalling
title_full_unstemmed Regulation of insulin secretion: Role of mitochondrial signalling
title_sort regulation of insulin secretion: role of mitochondrial signalling
publishDate 2018
url https://repository.li.mahidol.ac.th/handle/123456789/29642
_version_ 1763488950318530560