Acetoacetate and β-hydroxybutyrate in combination with other metabolites release insulin from INS-1 cells and provide clues about pathways in insulin secretion

MacDonald, Michael J.; Longacre, Melissa J.; Stoker, Scott W.; Brown, Laura J. E.; Hasan, Noaman; Kendrick, Mindy A.

doi:10.1152/ajpcell.00368.2007

Cited by 41 publications

(47 citation statements)

References 37 publications

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“…These rates are comparable to those for the utilization of 2.8 mM glucose by these cells (332). It should be noted that INS-1 832/13 cells can produce acetoacetylCoA and utilize ␤-hydroxybutyrate and acetoacetate (318,320), raising the possibility that ketone bodies could be produced by ␤-oxidation, in which case label from 14 Clabeled palmitate would not be liberated stoichiometrically as 14 CO 2 .…”

Section: E Fatty Acidssupporting

confidence: 62%

“…The amino acid can be trans-deaminated to ␣-ketoisocaproate (␣KIC) which can ultimately be metabolized to AcCoA and acetoacetate and is thus a potential bioenergetic substrate, in addition to ability to activate glutamate dehydrogenase. ␣KIC is an effective secretagogue in combination with methyl succinate (318,321), although it has been reported to be less effective than glucose in increasing NAD(P)H reduction or hyperpolarizing the mitochondria (400).…”

Section: Arginine and Leucinementioning

confidence: 99%

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The Pancreatic β-Cell: A Bioenergetic Perspective

Nicholls

2016

Physiological Reviews

123

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The pancreatic ␤-cell secretes insulin in response to elevated plasma glucose. This review applies an external bioenergetic critique to the central processes of glucose-stimulated insulin secretion, including glycolytic and mitochondrial metabolism, the cytosolic adenine nucleotide pool, and its interaction with plasma membrane ion channels. The control mechanisms responsible for the unique responsiveness of the cell to glucose availability are discussed from bioenergetic and metabolic control standpoints. The concept of coupling factor facilitation of secretion is critiqued, and an attempt is made to unravel the bioenergetic basis of the oscillatory mechanisms controlling secretion. The need to consider the physiological constraints operating in the intact cell is emphasized throughout. The aim is to provide a coherent pathway through an extensive, complex, and sometimes bewildering literature, particularly for those unfamiliar with the field.

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Section: E Fatty Acidssupporting

confidence: 62%

Section: Arginine and Leucinementioning

confidence: 99%

The Pancreatic β-Cell: A Bioenergetic Perspective

Nicholls

2016

Physiological Reviews

123

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“…Medium-chain fatty acids, generated by MCT hydrolysis, are metabolized rapidly in mitochondria and yield a large amount of acyl-CoA, which is converted to ketone bodies and released to the blood (30). MacDonald et al reported that b-hydroxybutyrate potentiated glucose-induced insulin release in fresh rat pancreatic islets (31). In the present study, the plasma glucose level might be higher than for fasting rats because the rats were killed without food deprivation.…”

Section: Discussionmentioning

confidence: 56%

Medium-Chain Triacylglycerol Suppresses the Decrease of Plasma Albumin Level through the Insulin-Akt-mTOR Pathway in the Livers of Malnourished Rats

Sekine

Terada

Aoyama

2013

J Nutr Sci Vitaminol

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123Medium-chain triacylglycerol (MCT) has been utilized for improvements of nutritional and energy statuses in preterm infants (1) and in patients with a variety of malabsorptive disorders (2) since the 1960s, because MCT is rapidly digested and absorbed in the gastrointestinal tract. On the other hand, in elderly people, digestion and absorption are delayed by aging, and energy intake is decreased by decreased physical activity. Most elderly people, especially those residing in nursing homes and hospitals, tend to suffer from protein-energy malnutrition (PEM) (3). PEM status is indicated by hypoalbuminemia. Albumin is synthesized in the liver, and serum albumin is a major component of serum protein, which sustains osmotic pressure and transports many kinds of substances or hormones to organs. Serum albumin has been the most common index of nutritional status. Its concentration in serum is influenced by many factors independent of nutritional factors, such as infections, trauma (by an increase in the transcapillary escape rate of albumin), hydration status (by haemodilution), liver function (by a decrease in synthesis) and kidney disease (by albumin losses).In previous studies, dietary MCT improved serum albumin concentration in elderly people with PEM (4) and in malnourished rats (5, 6). Nitrogen balance was also improved by dietary MCT (5, 7). Kojima and Kasai hypothesized that improvement of protein balance with MCT intake occurred through suppression of gluconeogenesis, which mainly started from body protein degradation. However, gluconeogenic enzymes were not changed in malnourished rats fed MCT (6). Therefore, the mechanism for the albumin improvement effect of dietary MCT is not yet clear. The results of previous studies indicated that dietary MCT increases serum insulin concentration in the rats (6,8,9) and humans (7, 10). One of the main properties of MCT is its ketogenic character (8,11,12). Madison et al. reported that ketone bodies have a direct stimulatory effect on the pancreatic beta cells (13). Insulin and other growth factors activate mammalian target of rapamycin (mTOR) complex 1 (mTORC1) via the activation of phosphatidylinositol 3-kinase (PI3K) and its downstream effecter, Akt (also called protein kinase B) (14,15). Active mTOR enhances cell growth by promoting mRNA translation and increasing cell mass (16,17). Ijichi et al. reported that branched-chain amino acids promote albumin synthesis in rat hepatocytes through the mTOR signal transduction system (18). Because mTOR might relate to albumin synthesis, we hypothesized that one of the mechanisms for the albumin improvement effect of dietary MCT is related to the insulin-Akt-mTOR signal transduction system. To clarify the albumin improvement mechanism of MCT, in the present study we evalu- Summary Recent studies have shown that medium-chain triacylglycerol (MCT) improved serum albumin concentration in elderly people with protein-energy malnutrition (PEM) and in malnourished rats. However, the mechanism for this effect has not been clarified....

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“…Pyruvate has long been recognized to be an effective secretagogue in insulinoma cells possessing increased monocarboxylate transporter levels (17,45,46). As well as pyruvate, the cellpermeant methyl succinate (37,45), dihydroxy acetone (17), ␤-hydroxybutyrate (47), acetoacetate (47), ␣-ketoisocaproate (46), and glycerol (17), separately or in combination, are effective secretagogues.…”

Section: Discussionmentioning

confidence: 99%

Plasma Membrane Potential Oscillations in Insulin Secreting Ins-1 832/13 Cells Do Not Require Glycolysis and Are Not Initiated by Fluctuations in Mitochondrial Bioenergetics

Goehring

Gerencser

Schmidt

et al. 2012

Journal of Biological Chemistry

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Background: Plasma membrane potential (PMP) oscillations play a key role in glucose-stimulated insulin secretion. Results: PMP oscillations and insulin secretion can be driven by pyruvate. Oscillations are not initiated by increases in mitochondrial membrane potential, NAD(P)H reduction, or ATP level. Conclusion: PMP oscillations are not initiated by bioenergetic fluctuations. Significance: The assumption that upstream glycolytic and bioenergetic oscillations are required for PMP oscillations may require re-examination.

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Acetoacetate and β-hydroxybutyrate in combination with other metabolites release insulin from INS-1 cells and provide clues about pathways in insulin secretion

Cited by 41 publications

References 37 publications

The Pancreatic β-Cell: A Bioenergetic Perspective

The Pancreatic β-Cell: A Bioenergetic Perspective

Medium-Chain Triacylglycerol Suppresses the Decrease of Plasma Albumin Level through the Insulin-Akt-mTOR Pathway in the Livers of Malnourished Rats

Plasma Membrane Potential Oscillations in Insulin Secreting Ins-1 832/13 Cells Do Not Require Glycolysis and Are Not Initiated by Fluctuations in Mitochondrial Bioenergetics

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