Summary
The effects of iron deficiency and endurance training on muscle myoglobin (Mb), body weights, and blood lactic acid concentration were studied in rats. Fifty animals were divided into four groups: anemic trained (AT), normal trained (NT), anemic sedentary (AS), and normal sedentary (NS). Following 5 weeks of dietary control, the mean hemoglobin values for the AT and AS rats were 0.013±0.002 mmol·l−1 (8.7±1.4 g·dl−1) and 0.014±0.003 mmol·l−1 (9.2±1.7 g·dl−1) respectively, and did not significantly change throughout the study. AT and NT rats were run on a motor driven treadmill 4 days/week for 6 weeks up to a pre-established time of 90 min. Following the training, body weights of the AT (157±13 g) and NT (153±13 g) rats were lower than their respective sedentary groups AS (172±9 g) and NS (176±15 g). Resting blood lactic acid concentration following training was lower in both trained groups, AT (3.3±2.0 mM) and NT (2.3±1.9 mM) compared to AS (8.2±2.6 mM) and NS (3.8±1.6 mM). Training increased Mb concentration in hearts of both the anemic and normal trained groups (AT, 0.66±0.13 mg·g−1; NT, 0.95±0.08 mg·g−1) compared to the sedentary groups (AS, 0.44±0.08 mg·g−1; NS, 0.70±0.13 mg·g−1). Only the AT rats showed an increase in skeletal muscle Mb. This study provides evidence that myoglobin may limit aerobic metabolism.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Akeson A, Ehrenstein G, Hevesy G, Theorell T (1960) Lifespan of myoglobin. Arch Biochem 91: 310–318
Andersen HT, Barkve H (1970) Iron deficiency and muscular work performance; an evaluation of cardio-respiratory function of iron deficient subjects with and without anemia. Scand J Clin Lab Invest [Suppl 25] 144: 1–39
Beutler E, Laush S, Tanzi F (1960) Iron enzymes in iron deficiency: VII. Oxygen consumption measurements in iron-deficient subjects. Am J Med Sci 239: 759–765
Braunwald E (1980) Heart Disease: A textbook of cardiovascular medicine, vol 1. WB Saunders Co, Philadelphia
Brooks GA, Gaesser GA (1980) End points of lactate and glucose metabolism after exhausting exercise. J Appl Physiol: Respir Environ Exercise Physiol 49: 1057–1069
Cain SM (1965) Appearance of excess lactate in anesthetized dogs during anemic and hypoxic hypoxia. Am J Physiol 209: 604–610
Chapler CK, Cain SM, Stainsby WN (1979) Blood flow and oxygen uptake in isolated canine skeletal muscle during acute anemia. J Appl Physiol: Respir Environ Exercise Physiol 46: 1035–1038
Dallman PR, Schwartz HC (1965) Distribution of cytochromec and myoglobin in rats with dietary iron deficiency. Pediatrics 35: 677–686
Davies KJ, Maguire JJ, Dallman PR, Brooks GA, Packer L (1982) Exercise bioenergetics during dietary iron deficiency and repletion. In: Saltman P, Hegenauer J (eds) The biochemistry and physiology of iron. Elsevier/North Holland, New York Oxford Shannon, pp 591–594
Faulkner JA, Maxwell LC, Brook D, Lieberman DA (1971) Adaptation of guinea pig plantaris muscle fibers to endurance training. Am J Physiol 221: 291–297
Finch CA, Gollinick PD, Hlastala MP, Miller LR, Dillmann E, Mackler B (1979) Lacticidosis as a result of iron deficiency. J Clin Invest 64: 129–137
Gollnick PD, Armstrong RB, Saubert CW, Piehl K, Saltin B (1972) Enzyme activity and fiber composition in skeletal muscle of untrained and trained men. J Appl Physiol 33: 312–319
Hagler L, Coppes RI, Askew EW, Hecker AL, Herman RH (1980) The influence of exercise and diet on myoglobin and metmyoglobin reductase in the rat. J Lab Clin Med 95: 222–230
Hagler L, Askew EW, Neville JR, Mellick PW, Coppes RI, Lowder JF (1981) Influence of dietary iron deficiency on hemoglobin, myoglobin, their respective reductases, and skeletal muscle mitochondrial respiration. Am J Clin Nutr 34: 2169–2177
Hickson RC (1981) Skeletal muscle cytochromec and myoglobin, endurance, and frequency of training. J Appl Physiol: Respir Environ Exercise Physiol 51: 746–749
Holloszy JO, Oscai LB (1979) Effect of exercise on alphaglyce-rophosphate dehydrogenase activity in skeletal muscle. Arch Biochem Biophysic 130: 653–656
Jacobs A (1969) Tissue changes in iron deficiency. Br J Haemat 16: 1–4
Mathews DK, Fox EL (1976) The physiological basis of physical education and athletics (2ed). WB Saunders Co., Philadelphia
Ohira Y, Hegenauer J, Strause L, Chen C-S, Saltman P (1982a) Metabolic lesions in iron-deficient rat muscle. In: Saltman P, Hegenauer J (eds) The biochemistry and phsiology of iron. Elsevier/North Holland, New York Oxford Shannon, pp 535–542
Ohira Y, Hegenauer J, Saltman P, Edgerton VR (1982b) Distribution and metabolism of iron in muscles of iron-deficient rats. Biol Trace Element Res 4: 45–56
Paul KG, Theorell H, Akeson A (1953) The molar light absorption of pyridine ferroprotoporphyrin (pyridine haemochromogen). Acta Chem Scand 7: 1284–1287
Saltin B, Nazar K, Costill DL, Stein E, Jansson E, Essen B, Gollnick PD (1976) The nature of training response; peripheral and central adaptations to one-legged exercise. Acta Physiol Scand 96: 289–305
Stevenson J, Box B, Feleke V, Beaton J (1966) Bouts of exercise and food intake in the rat. J Appl Physiol 21: 118–122
Vatner SF, Higgins CB, Franklin D (1972) Regional circulatory adjustments to moderate and severe chronic anemia in conscious dogs at rest and during exercise. Circ Res 30: 731–740
Vellar OD, Hermansen L (1972) Physical performance and hematological parameters, with special reference to hemoglobin and maximal oxygen uptake. Acta Med Scand Suppl 522: 1–40
Wittenberg J (1970) Myoglobin-facilitated oxygen diffusion: role of myoglobin in oxygen entry into muscle. Physiol Rev 50: 559–635
Wranne B, Woodson R (1973) A graded treadmill test for rats: maximal work performance in normal and anemic animals. J Appl Physiol 34: 732–735
Woodson R, Wills R, Lenfant C (1978) Effect of acute and established anemia on O2 transport at rest, submaximal and maximal work. J Appl Physiol: Respir Environ Exercise Physiol 44: 36–43
Yoshimura H (1970) Anemia during physical training (Sports anemia). Nutr Rev 28: 252–253
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
McDonald, R., Hegenauer, J., Sucec, A. et al. Effects of iron deficiency and exercise on myoglobin in rats. Europ. J. Appl. Physiol. 52, 414–419 (1984). https://doi.org/10.1007/BF00943372
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00943372