Hostname: page-component-586b7cd67f-l7hp2 Total loading time: 0 Render date: 2024-11-22T15:42:20.190Z Has data issue: false hasContentIssue false
  • English
  • Français

Interaction of physical activity and diet: implications for insulin-glucose dynamics

Published online by Cambridge University Press:  02 January 2007

Jean-Jacques Grimm
Jean-Jacques Grimm*
Affiliation:
University Hospital (CHUV), BH19 Department of Internal Medicine Endocrinology, Diabetology and Metabolism, Lausanne, Switzerland CH-1001.
*
*Corresponding author: Email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

In Western countries 25–35% of the population have insulin resistance syndrome characteristics.

The defects most likely to explain the insulin resistance of the insulin resistance syndrome include: 1) the glucose transport system of skeletal muscle (GLUT-4) and its different signalling proteins and enzymes; 2) glucose phosphorylation by hexokinase; 3) glycogen synthase activity and 4) competition between glucose and fatty acid oxidation (glucose-fatty acid cycle).

High carbohydrate/low fat diets deteriorate insulin sensitivity on the short term. Howewer, on the long term, high fat/low carbohydrate diets have a lower satiating power, induce low leptin levels and eventually lead to higher energy consumption, obesity and more insulin resistance. Moderately high-carbohydrate (45–55% of the daily calories)/low-fat diets seem to be a good choice with regard to the prevention of diabetes and cardiovascular risk factors as far as the carbohydrates are rich in fibers.

Long-term interventions with regular exercise programs show a 1/3 decrease in the appearance of overt diabetes in glucose intolerant subjects. Furthermore, diet and exercise interventions "normalise" the mortality rate of patients with impared glucose tolerance.

Therefore, moderately high carbohydrate/low fat diets are most likely to prevent obesity and type 2 diabetes. Triglycerides should be monitored and, in some cases, a part of the carbohydrates could be replaced by fat rich in monounsaturated fatty acids. However, total caloric intake is of utmost importance, as weight gain is the major determinant for the onset of insulin resistance and glucose intolerance.

Regular (when possible daily) exercise, decreases cardiovascular risk. With regard to insulin resistance, resistance training seems to offer some advantages over aerobic endurance activities.

Keywords

Insulin resistanceExerciseDietGlucose transporterDiabetesObesityCardiovascular risk
Type
Research Article
Information
Public Health Nutrition , Volume 2 , Supplement 3a , March 1999 , pp. 363 - 368
Copyright
Copyright © CABI Publishing 1999

References

1Eriksson, J, Teimela, S, Koivisto, VA. Exercise and the metabolic syndrome. Diabetologia 1997; 40: 125–35.Google Scholar
2Foster, DW, Insulin resistance–a secret killer? N. Engl. J. Med. 1989; 320(11): 733–4.Google Scholar
3Felber, JP, Acheson, K, Tappy, L. From obesity to diabetes, Chichester, Wiley, 1993.Google ScholarPubMed
4Goodyear, LJ, Exercise, glucose transport and insulin sensitivity. Annu. Rev. Med. 1998; 49: 235–61.Google Scholar
5Pendergrass, M, Koval, J, Vogt, C, et al. Insulin-Induced Hexokinase II Expression is reduced in Obesity and NIDDM. Diabetes 1998; 47(3): 387–94.Google Scholar
6Dresner, A, Laurent, D, Marcucci, M, et al. J. Clin. Invest. 1999; 103(2): 253–9.Google Scholar
7Perseghin, G, Price, TB, Peterson, KF. Increased glucose transport phosphorylation and muscle glycogen synthesis after exercise training in insulin-resistant subjects. N. Engl. J. Med. 1996; 335: 1357–62.Google Scholar
8Pan, XR, Li, GW, Hu, YH, et al. Effects of diet and exercise in preventing NIDDM in people with impaired glucose tolerance. Diabetes Care 1997; 20(4): 537–44.Google Scholar
9Eriksson, KF, Lingärde, F. No excess of 12-year mortality in men with impaired glucose tolerance who participated in the Malmö preventive trial with diet and exercise. Diabetologia 1998; 41: 1010–16.Google Scholar
10American Diabetes Association. Diabetes mellitus and exercise. Position statement. Diabetes Care 1999; 22: Suppl. 1: S49–S53.Google Scholar
11Holman, GD, Kasuga, M. From receptor to transporter:insulin signalling to glucose transport. Diabetologia 1997; 40: 9911003.Google Scholar
12Whithers, DJ, Gutierrez, JS, Towery, H, et al. Disruption of IRS-2 causes type 2 diabetes in mice. Nature 1998; 391(6670): 900–4.CrossRefGoogle Scholar
13Douen, AG, Ramlal, T, Rastogi, S, Bilan, PJ, Cartee, GD, et al. Exercise induces recruitement of the “insulin responsive glucose transporter”. Evidence for distinct intracellular insulin and exercise-recruitable transporter pools in skeletal muscle. J. Biol. Chem. 1990; 265(23): 13427–30.Google Scholar
14Postic, C, Leturque, A, Rencurel, F, Printz, R, Forest, C, Granner, D, Girard, J. The effect of hyperinsulinemia and hyperglycemia on GLUT-4 and hexokinase 2 in RNA and protein in rat skeletal muscle and adipose tissue. Diabetes 1993; 42: 922–9.Google Scholar
15Saccomani, MP, Bonadonna, RC, Bier, DM, De Fronzo, RA, Cobelli, C. A Compartmental model to measure the effects of insulin on glucose transport and phosphorylation in human skeletel muscle: a triple tracer study. Am. J. Physiol. 1996; 33: 170–85.Google Scholar
16Thiebaud, D, Jacot, E, DeFronzo, RA, Maeder, E, Jéquier, E, Felber, JP. The effect of graded doses of insulin on total glucose uptake, glucose oxidation, and glucose storage in man. Diabetes 1982; 31: 957–63.Google Scholar
17Randle, PJ, Garland, PB, Hales, CN, Newsholme, EA. The glucose fatty acid cycle: its role in insulin sensitivity and the metabolic desturbances of diabetes mellitus. Lancet 1963; 1: 785–9.CrossRefGoogle Scholar
18Rousselle, J, Bückert, A, Pahud, P, Jéquier, E, Felber, JP. Relationship between glucose oxidation and glucose tolerance in man. Metabolism 1982; 31: 866–70.Google Scholar
19Tappy, L, Felber, JP, Jéquier, E. Energy and substrate metabolism in obesity and postobese state. Diabetes Care 1991; 14: 1180–8.Google Scholar
20Boden, G. Role of fatty acids in the pathogenesis of insulin resistance and NIDDM. Diabetes 1997; 46(1): 310.Google Scholar
21 Toubros?, , Astrup, A. Randomised comparison of diets for maintaining obese subjects' weight after a major weight loss: ad lib, low fat, high carbohydrate diet v fixed energy intake. BMJ 1997; 314: 2934.Google Scholar
22Golay, A, Allaz, AF, Morel, Y, et al. Similar weight loss with low- or high- carbohydrate diets. Am. J. Clin. Nutr. 1996; 633(2): 174–8.Google Scholar
23Liu, GC, Coulston, AM, Reaven, GM. Effect of high carbohydrate/low fat diets on plasma glucose, insulin and lipid responses in hypertriglyceridemic humans. Metabolism 1983; 32: 750–3.Google Scholar
24Gannon, MC, Nuttall, FQ, Westphal, SA. Acute metabolic response to high carbohydrate, high starch meals, compared with moderate carbohydrate, low starch meals in subjects with type 2 diabetes. Diabetes Care 1998; 21: 1619–26.Google Scholar
25Daly, ME, Vale, C, Walker, M, Alberti, KG, Mathers, JC. Dietary carbohydrates and insulin sensivity: a review of the evidence and clinical implications. Am. J. Clin. Nutr. 1997; 66(5): 1072, 1085.CrossRefGoogle Scholar
26Storlien, LH, Pan, DA, Kriketos, AD, Baur, LA. High fat diet-induced insulin resistance. Lessons and implications from animal studies (Review). Annals of the New York Academy of Sciences 1993; 683: 8290.Google Scholar
27Diraison, F, Vidon, C, Beylot, M. Influence du rapport lipides/glucides alimentaires sur la lipogénèse hépatique. Diabetes & Metabolism (1999) 25 Suppl. 1: XXXII (Abstract).Google Scholar
28Hannah, JS, Howard, BV. Dietary fats, insulin resistance, and diabetes (Review). J. Cardiovascular Risk 1994; 1(1): 31–7.Google Scholar
29Tremblay, A. Nutritional determinants of the insulin resistance syndrome (Review). Int. J. Obesity & Related Metabolic Disorders 1995; 19 Suppl. 1: S608.Google Scholar
30Markovic, TP, Jenkins, AB, Campbell, LU, et al. The determinants of glycemia responses to diet restriction ans weight loss in obesity and NIDDM. Diabetes Care 1998; 21(5): 687–94.Google Scholar
31Bosello, O, Armellini, F, Zamboni, M, Fitchet, M, The benefits of modest weight loss in type 2 diabetes (Review). Int. J. Obesity & Related Metabolic Disorders 1997; 21 Suppl. 1: S103.Google Scholar
32Tappy, L, Gugholz, E, Würsch, P. Effects of Breakfast Cereals containing various amounts of β-glucan fibers on plasma glucose and insulin responses in NIDDM subjects. Diabetes Care 1996; 19: 831–4.CrossRefGoogle Scholar
33Salmeron, J, Ascherio, A, Rimm, EB, et al. Dietary fiber, glycemic load, ans risk of NIDDM in Men. Diabetes Care 1997; 20: 545–50.Google Scholar
34Koivisto, VA, Yki-Jaervinen, H. Fructose and insulin sensitivity in patients with type 2 diabetes. J. Int. Med. 1993; 233: 145–53.Google Scholar
35Glauber, H, Wallace, P, Griver, K, Brechtel, RN. Adverse metabolic effect of omega–3 fatty acids in non-insulin dependent diabetes mellitus. Ann Intern. Med. 1998; 108: 663–8.Google Scholar
36Jenkins, AB, Markovic, TP, Fleury, A, Campbell, LV. Carbohydrate intake and short-term regulation of leptin in humans. Diabetologia 1997; 40: 348–51.Google Scholar
37Havel, PJ, Townsend, R, Chaump, L, Teff, K. High fat meals reduce 14-hour circulating leptin concentrations in women. Diabetes 1999; 48: 334–41.Google Scholar
38American Diabetes Association. Nutrition recommendations and principles for people with diabetes mellitus. Position statement. Diabetes Care 1998; 21 Suppl. 1: S325.Google Scholar
39Ligtenberg, PC, Hoekstra, JB, Zonderland, ML. Physical activity and diabetes mellitus. European J. Intern. Med. 1995; 6: 95108.Google Scholar
40Eriksson, KF, Lingärde, F. Prevention of Type 2 diabetes mellitus by diet and physical exercise. Diabetologia 1991; 34: 891–8.Google Scholar
41Andersen, RE, Blair, SN, Cheskin, LJ, Bartlett, SJ. Encouraging patients to become more physically active: The physician's role. Ann. Intern. Med. 1997; 127: 395400.CrossRefGoogle ScholarPubMed
42Mayer-Davis, EJ, D'Agostino, R, Karter, AJ, et al. Intensity and amount of physical activity in relation to insulin sensitivity: the insulin resistance atherosclerosis study. JAMA 1998; 279(9): 669–74.Google Scholar
43Eriksson, J, Tuominen, J, Valle, T, et al. Aerobic endurance exercise or circuit-type resistance training for individuals with impared glucose tolerance. Horm. Metab. Res. 1998; 30(1): 3741.CrossRefGoogle ScholarPubMed
44Ishii, T, Yamakita, T, Sato, T, Tanaka, S, Fujii, S. Resistance training improves insulin sensitivity in NIDDM subjects without altering maximal oxygen uptake. Diabetes Care 1998; 21: 1353–5.Google Scholar
45Astrup, A. Macronutrients balances ond obesity: the role of diet and physical activity. ILSI Europe workshop22–24 March 1999Chamonix.Google Scholar