RSS-Feed abonnieren
DOI: 10.1055/s-2005-870424
Effects of L-carnitine on Thyroid Hormone Metabolism and on Physical Exercise Tolerance
Publikationsverlauf
Received 4 November 2004
Accepted after Revision 24 February 2005
Publikationsdatum:
20. September 2005 (online)
Abstract
L-carnitine (CARN) is a water-soluble, naturally occurring quaternary amine ubiquitous in biological fluids and animal tissues; in these tissues, CARN plays an important role in energy metabolism. Skeletal muscles store about 95 % of a total of 20 g CARN contained in the adult human body, but high-intensity physical exercise decreases the CARN muscle content. The daily allowance of CARN is mainly satisfied by diet. Keeping in mind important interstudy differences, the general conclusion is that CARN supplementation may enhance athletic performance when coupled to physical exercise itself. Healthy, essentially sedentary persons and untrained individuals do not benefit from supplementation, and certainly not if CARN is administered for a few days. CARN was also shown to modulate thyroid hormone action in peripheral tissues, the most frequent modulation observed being inhibition.
Key words
L-carnitine · Nutrients · Sports · Physical exercise · Thyroid hormone modulators
References
-
1 Loster H.
Biochemical fundamentals of the effects of carnitine. In: Loster H (ed) Carnitine and Cardiovascular Diseases. Bochum; Ponte Press Verlags 2003: 3-48 - 2 Anonymous . Recipes of All Nations. New York; WM Wise & Co, USA 1935: 779-781
- 3 Tamai I, Ohashi R, Nezu J, Yabuchi H, Oku A, Shimane M, Say Y, Tsuji A. Molecular and functional identification of sodium ion-dependent, high affinity human carnitine transporter (OCTN2). J Biol Chem. 1998; 273 20 378-20 382
- 4 Rebouche C J. Carnitine movement across muscle cell membranes. Biochem Biophys Acta. 1977; 471 145-155
- 5 Huth P J, Schmidt M J, Hall P V, Fariello R G, Shug A L. The uptake of carnitine by slices of rat cerebral cortex. J Neurochem. 1981; 36 715-723
- 6 Cederblad G, Lindstedt S, Lundholm K. Concentration of carnitine in human muscle tissue. Clin Chim Acta. 1974; 53 311-321
- 7 Rebouche C J. Kinetics, pharmacokinetics, and regulation of L-carnitine and acetyl-L-carnitine metabolism. Ann NY Acad Sci. 2004; 1033 30-41
- 8 Arenas J, Huertas R, Campos Y, Diaz A E, Villalon J M, Vilas E. Effects of L-carnitine on the pyruvate dehydrogenase complex and carnitine palmitoyl transferase in muscle athletes. FEBS Lett. 1994; 341 91-93
- 9 Arenas J, Ricoy J R, Encinas A R, Pola P, D’Iddio S, Zeviani M, Di Donato S, Corsi M. Carnitine in muscle, serum and urine of non-professional athletes; effects of physical exercise, training, and L-carnitine administration. Muscle & Nerve. 1991; 14 598-604
-
10 Lohninger A, Kaiser E, Legenstein E, Staniek H.
Carnitine: Metabolism and function. In: Kaiser E, Lohninger A, eds Carnitine, its role in lung and heart disorders. Proceeding of the Satellite Symposium of the Central European Congress of Aenesthesiology (ZAK), Graz (Austria), September 13, 1985. Basel, New York; Karger 1985: 1-25 - 11 Brass E P, Hiatt W R. The role of carnitine and carnitine supplementation during excercise in man and in individuals with special needs. J Am Coll Nutr. 1998; 17 207-215
- 12 Brass E P. Supplemental carnitine and exercise. Am J Clin Nutr. 2000; 72 618S-623S
- 13 Brass E P. Carnitine and sports medicine: use or abuse?. Ann NY Acad Sci. 2004; 1033 67-78
- 14 Benvenga S, Lakshmanan M, Trimarchi F. Carnitine is a naturally occurring inhibitor of thyroid hormone nuclear uptake. Thyroid. 2000; 12 1043-1050
- 15 Benvenga S, Ruggeri R M, Russo A, Lapa D, Campennì A, Trimarchi F. Usefulness of L-carnitine, a naturally occurring peripheral antagonist of thyroid hormone action, in iatrogenic hyperthyroidism: a randomized double-blind, placebo-controlled clinical trial. J Clin Endocrinol Metab. 2001; 86 3579-3594
- 16 Benvenga S, Lapa D, Cannavò S, Trimarchi F. Successive thyroid storms treated with L-carnitine and low doses of methimazole. Am J Med. 2003; 115 417-418
-
17 Neumann G.
Effects of L-carnitine in elite athletes. In: Seim H, Loster H (Eds) Carnitine: Pathobiochemical basics and clinical applications. Bochum; Ponte Press Verlags 1996: 61-71 - 18 Luppa D, Loster H. L-carnitine through urine and sweat in athletes in dependence on energy expenditures during training. Bochum; Ponte Press Verlags 1996: 278-279
- 19 Wyss V, Ganzit G P, Rienzi A. Effects of L-carnitine administration on VO2max and aerobic-anaerobic threshold in normoxia and acute hypoxia. Eur J Appl Physiol. 1990; 60 1-6
- 20 Decombaz J, Deriaz O, Acheson K, Gmuender B, Jequier E. Effect of L-carnitine on submaximal exercise metabolism after depletion of muscle glycogen. Med Sci Sports Exerc. 1993; 25 733-740
- 21 Barnett C, Costill D L, Vukovich M D. et al . Effect of L-carnitine supplementation on muscle and blood carnitine content and lactate accumulation during high-intensity sprint cycling. Int J Sports Nutr. 1994; 4 280-228
- 22 Vukovich M D, Costill D L, Fink W J. Carnitine supplementation: effect on muscle carnitine and glycogen content during exercise. Med Sci Sports Exerc. 1994; 26 1122-1129
- 23 Cooper M B, Jones D A, Edwards R H, Corbucci G C, Montanari G, Trevisani C. The effect of marathon running on carnitine metabolism and on some aspects of muscle mitochondrial activities and antioxidant mechanisms. J Sport Sciences. 1986; 4 79-87
- 24 Dragan G I, Vasiliu A, Georgescu E, Dumas L. Studies concerning chronic and acute effects of L-carnitine on some biological parameters in elite athletes. Physiologie. 1987; 24 23-28
- 25 Huertas R, Campos Y, Diaz E, Esteban J, Vecchietti L, Montanari G, D’Iddio S, Corbi M, Arenas J. Respiratory chain enzymes in muscle of endurance athletes: effect of L-carnitine. Biochem Biophys Res Commun. 1992; 188 102-107
- 26 Millington D S, Dubag G. Dietary supplement L-carnitine: analysis of different brands to determine bioavailability and content. Clin Res Reg Affairs. 1993; 10 71-80
- 27 Bremer J. Carnitine - metabolism and function. Physiol Rev. 1983; 63 1420-1480
- 28 Christinasen R Z, Bremer J. Active transport of butyrobetaine and carnitine into isolated liver cells. Biochim Biopys Acta. 1976; 444 562-577
- 29 Hiatt W R. Carnitine and peripheral arterial disease. Ann NY Acad Sci. 2004; 1033 92-98
- 30 Alesci S, De Martino M U, Mirani M, Benvenga S, Trimarchi F, Kino T, Chrousos G O. L-carnitine a nutritional modulator of glucocorticoid receptor functions. FASEB J. 2003; 17 1553-1555
- 31 Maebashi M, Kawamura N, Sato M, Imamura A, Yoshinaga K, Suzuki M. Urinary excretion of carnitine in patients with hyperthyroidism and hypothyroidism: augmentation by thyroid hormone. Metabolism. 1977; 26 351-356
- 32 Cederblad G, Engstrom G. Effect of thyroxine treatment on carnitine levels in mice. Acta Pharmacol et Toxicol. 1978; 43 1-5
-
33 Reed H L.
Environmental influences upon thyroid hormone regulation. In: Braverman LE, Utoger RD (eds) Werner and Ingbar’s The thyroid. A fundamental and clinical text. Philadelphia; Lippincott Williams & Wilkins 2005: 219-229
Prof. Salvatore Benvenga
Sezione di Endocrinologia del Dipartimento Clinico Sperimentale di Medicina e Farmacologia, padiglione H, 4 piano
Policlinico Universitario Gaetano Martino · 98125 Messina · Italy
Telefon: +39 (90) 221 35 17 or 3560
Fax: +39 (90) 221 35 18 or +39 (90) 69 39 17
eMail: s.benvenga@me.nettuno.it