Citations to this article
Abstract
Fructose raises blood glucose and lactate levels in normal as well as diabetic man, but the tissue origin (liver and/or kidney) of these responses and the role of insulin in determining the end products of fructose metabolism have not been fully established. Splanchnic and renal substrate exchange was therefore examined during intravenous infusion of fructose or saline in six insulin-deficient type I diabetics who fasted overnight and in five healthy controls. Fructose infusion resulted in similar arterial concentrations and regional uptake of fructose in the two groups. Splanchnic glucose output increased threefold in the diabetics but remained unchanged in controls in response to fructose infusion, and the arterial glucose concentration rose more in diabetics (+5.5 mmol/liter) than in controls (+0.5 mmol/liter). Splanchnic uptake of both lactate and pyruvate increased twofold in response to fructose infusion in the diabetics. In contrast, a consistent splanchnic release of both lactate and pyruvate was seen during fructose infusion in controls. In diabetics fructose-induced hyperglycemia was associated with no net renal glucose exchange, while there was a significant renal glucose production during fructose infusion in the controls. In both groups fructose infusion resulted in renal output of lactate and pyruvate. In the diabetics this release corresponded to the augmented uptake by splanchnic tissues. In two diabetic patients given insulin infusion, all responses to fructose infusion were normalized. Fructose infusion in diabetics did not influence either splanchnic ketone body production or its relationship to splanchnic FFA inflow. We conclude that in insulin-deficient, mildly ketotic type I diabetes, (a) both the liver, by virtue of lactate, pyruvate, and fructose-derived gluconeogenesis, and the kidneys , by virtue of fructose-derived lactate and pyruvate production, contribute to fructose-induced hyperglycemia; (b) outcome of hepatic fructose metabolism; and (c) fructose does not exert an antiketogenic effect. These data suggest that while total fructose metabolism is not altered in diabetics, intermediary hepatic fructose metabolism is dependent on the presence of insulin.
Authors
O Björkman, R Gunnarsson, E Hagström, P Felig, J Wahren
Total citations by year
Citations to this article (42)
| Title and authors | Publication | Year |
|---|---|---|
|
The Glucose Transporter 5 Enhances CAR-T Cell Metabolic Function and Anti-tumour Durability
Valentić B, Kelly A, Shestov AA, Gan Z, Shen F, Chatoff A, Jaccard A, Crispim CV, Scholler J, Heeke S, Snyder NW, Ghassemi S, Jones N, Gill S, O\u2019Connor RS |
Research square | 2024 |
|
High Fructose Causes More Prominent Liver Steatohepatitis with Leaky Gut Similar to High Glucose Administration in Mice and Attenuation by Lactiplantibacillus plantarum dfa1
Ondee T, Pongpirul K, Udompornpitak K, Sukkummee W, Lertmongkolaksorn T, Senaprom S, Leelahavanichkul A |
Nutrients | 2023 |
|
Liver or kidney: Who has the oar in the gluconeogenesis boat and when?
Sahoo B, Srivastava M, Katiyar A, Ecelbarger C, Tiwari S |
World journal of diabetes | 2023 |
|
Metabolism of sugars: A window to the regulation of glucose and lipid homeostasis by splanchnic organs
L Tappy |
Clinical nutrition (Edinburgh, Scotland) | 2021 |
|
Chronic Stress Potentiates High Fructose–Induced Lipogenesis in Rat Liver and Kidney
DV Milutinović, J Brkljačić, A Teofilović, B Bursać, M Nikolić, L Gligorovska, S Kovačević, A Djordjevic, F Preitner, L Tappy, G Matić, N Veličković |
Molecular Nutrition & Food Research | 2020 |
|
The effects of glucose-fructose co-ingestion on repeated performance during a day of intensified rugby union training in professional academy players
A Hengist, JD Watkins, HA Smith, RM Edinburgh, JA Betts, GA Roe, J Gonzalez |
Journal of Sports Sciences | 2020 |
|
Renal gluconeogenesis: an underestimated role of the kidney in systemic glucose metabolism
D Legouis, A Faivre, PE Cippà, S de Seigneux |
Nephrology Dialysis Transplantation | 2020 |
|
Health outcomes of a high fructose intake: the importance of physical activity
L Tappy, R Rosset |
The Journal of Physiology | 2019 |
|
Effects of Diets on Adipose Tissue
S Ezquerro, A Rodríguez, P Portincasa, G Frühbeck |
Current medicinal chemistry | 2019 |
|
Transient hyperlactatemia during intravenous administration of glycerol: a prospective observational study
S Katayama, K Tonai, Y Goto, K Koyama, T Koinuma, J Shima, M Wada, S Nunomiya |
Journal of Intensive Care | 2018 |
|
Dietary sugars, exercise and hepatic carbohydrate metabolism
JT Gonzalez, JA Betts |
Proceedings of the Nutrition Society | 2018 |
|
Fructose Metabolism from a Functional Perspective: Implications for Athletes
L Tappy, R Rosset |
Sports Medicine | 2017 |
|
Endurance Training with or without Glucose-Fructose Ingestion: Effects on Lactate Metabolism Assessed in a Randomized Clinical Trial on Sedentary Men
R Rosset, V Lecoultre, L Egli, J Cros, V Rey, N Stefanoni, V Sauvinet, M Laville, P Schneiter, L Tappy |
Nutrients | 2017 |
|
Aegle marmelos impedes onset of insulin resistance syndrome in rats provided with drinking fructose from weaning to adulthood stages of development — a mechanistic study
R Mathur, R Sehgal, P Rajora, S Sharma, R Kumar, S Mathur |
Canadian Journal of Physiology and Pharmacology | 2017 |
|
Physiological handling of dietary fructose-containing sugars: implications for health
VC Campos, L Tappy |
International Journal of Obesity | 2016 |
|
Acute porcine renal metabolic effect of endogastric soft drink administration assessed with hyperpolarized [1-13c]pyruvate: Oral Sucrose Load Assessed with MRS in Porcine Kidney
C Laustsen, ES Hansen, U Kjaergaard, LB Bertelsen, S Ringgaard, H Stødkilde-Jørgensen |
Magnetic Resonance in Medicine | 2015 |
|
Effects of fructose-containing caloric sweeteners on resting energy expenditure and energy efficiency: a review of human trials
L Tappy, L Egli, V Lecoultre, P Schneider |
Nutrition & Metabolism | 2013 |
|
Simultaneous Ingestion of Fructose and Fat Exacerbates Postprandial Exogenous Lipidemia in Young Healthy Japanese Women
H Saito, M Kagaya, M Suzuki, A Yoshida, M Naito |
Journal of Atherosclerosis and Thrombosis | 2013 |
|
Substrate utilization during brisk walking is affected by glycemic index and fructose content of a pre-exercise meal
FH Sun, SH Wong, YJ Huang, YJ Chen, KF Tsang |
European Journal of Applied Physiology | 2011 |
|
Effect of glycemic index and fructose content in lunch on substrate utilization during subsequent brisk walking
FH Sun, SH Wong, YJ Chen, YJ Huang, SS Hsieh |
Applied Physiology Nutrition and Metabolism | 2011 |
|
Health implications of fructose consumption: A review of recent data
SW Rizkalla |
Nutrition & Metabolism | 2010 |
|
Comparison of the Relative Contributions of Intra-Abdominal and Liver Fat to Components of the Metabolic Syndrome
A Kotronen, H Yki-Järvinen, K Sevastianova, R Bergholm, A Hakkarainen, KH Pietiläinen, L Juurinen, N Lundbom, TI Sørensen |
Obesity | 2010 |
|
Metabolic Effects of Fructose and the Worldwide Increase in Obesity
L Tappy, KA Lê |
Physiological reviews | 2010 |
|
Effect of fructose overfeeding and fish oil administration on hepatic de novo lipogenesis and insulin sensitivity in healthy men
David Faeh, Kaori Minehira, Jean-Marc Schwarz, Raj Periasamy, Raj Periasami, Seongsu Park, Park Seongsu, Luc Tappy |
Diabetes | 2005 |
|
Ubiquitin-protein ligases in muscle wasting: multiple parallel pathways?
SH Lecker |
Current Opinion in Clinical Nutrition and Metabolic Care | 2003 |
|
Effects of fructose on hepatic glucose metabolism
OP McGuinness, AD Cherrington |
Current Opinion in Clinical Nutrition and Metabolic Care | 2003 |
|
Role of the kidney in hyperglycemia in type 2 diabetes
C Meyer, JE Gerich |
Current Diabetes Reports | 2002 |
|
Bench-to-bedside review: glucose production from the kidney
N Cano |
Critical Care | 2002 |
|
Renal substrate exchange and gluconeogenesis in normal postabsorptive humans
C Meyer, M Stumvoll, J Dostou, S Welle, M Haymond, J Gerich |
American journal of physiology. Endocrinology and metabolism | 2002 |
|
Role of the kidney in hyperglycemia in type 2 diabetes.
Meyer C, Gerich JE |
Current Diabetes Reports | 2002 |
|
Inter-relationships between renal metabolism (both in physiology and renal dysfunction) and the liver
N Cano |
Current Opinion in Clinical Nutrition and Metabolic Care | 2001 |
|
The effects of free fatty acids on gluconeogenesis and glycogenolysis in normal subjects
X Chen, N Iqbal, G Boden |
Journal of Clinical Investigation | 1999 |
|
Effects of glucagon in the control of endogenous glucose production in man
JF Surmely, P Schneiter, S Henry, N Paquot, E Jequier, L Tappy |
Nutrition | 1999 |
|
Contributions of gluconeogenesis to glucose production in the fasted state
BR Landau, J Wahren, V Chandramouli, WC Schumann, K Ekberg, SC Kalhan |
Journal of Clinical Investigation | 1996 |
|
Lipid metabolism and substrate oxidation during intravenous fructose administration in cirrhosis
YT Kruszynska, DS Harry, LG Fryer, N McIntyre |
Metabolism | 1994 |
|
1 Insulin action, thermogenesis and obesity
GJ Cooney, LH Storlien |
Baillière's Clinical Endocrinology and Metabolism | 1994 |
|
Differential effects of hyperinsulinemia and carbohydrate metabolism on sympathetic nerve activity and muscle blood flow in humans
P Vollenweider, L Tappy, D Randin, P Schneiter, E Jéquier, P Nicod, U Scherrer |
Journal of Clinical Investigation | 1993 |
|
3 Action of insulin on glucose metabolism in vivo
YJ Hannele |
Baillière's Clinical Endocrinology and Metabolism | 1993 |
|
Energy expenditure and substrate metabolism after oral fructose in patients with cirrhosis
YT Kruszynska, A Meyer-Alber, N Wollen, N McIntyre |
Journal of Hepatology | 1993 |
|
The contribution of naturally labelled 13C fructose to glucose appearance in humans
J Delarue, S Normand, C Pachiaudi, M Beylot, F Lamisse, JP Riou |
Diabetologia | 1993 |
|
Nicotine and Related Alkaloids
JW Gorrod, J Wahren |
1993 | |
|
Is Exogenous Fructose Metabolism Truly Insulin Independent?
DA Fryburg, RA Gelfand |
JPEN. Journal of parenteral and enteral nutrition | 1990 |
Copyright © 2025 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)