Long-term, Aerobic Training Increases Adiponectin Levels in Trained, Middle-aged Females more than in Comparable Males

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Pooja P Mujumdar Penelope J Duerksen-Hughes Anthony F Firek David A Hessinger

Abstract

Both aerobic training and the adipokine, adiponectin (ADPN), increase insulin sensitivity.  Because the metabolic effects of aerobic training and ADPN are similar, aerobic training has been proposed to increase ADPN, which has been generally confirmed.  However, in separate studies physically active adolescent females showed higher ADPN levels than sedentary controls, but trained young males showed no increase in ADPN levels.  Because no direct comparison of males and females have been provided and because physically fit middle-aged adults have been largely neglected from studies on the effects of exercise on ADPN levels, we hypothesized that long-term (6 months), progressive long-distance training would increase ADPN levels more in trained, middle-aged females than in comparably trained, middle-aged males.  We recruited aerobically trained, normal-weight, middle-aged females (n=8) and males (n=10) to participate in a prescribed marathon training protocol progressing from 10 to 90 km (6 to 55 miles) per week over 6 mos.  We collected and stored fasting plasma samples and recorded body measurements at 0 (baseline) and 6 mos.  Stored samples were analyzed for insulin, glucose, and ADPN.  ADPN increased significantly among females [from 18.37 ± 10.39 (mean ± SD) to 22.50 ± 9.87 µg/ml; P<0.05], but non-significantly among males (from 6.69 ± 4.47 to 8.10 ± 5.57 µg/ml; P=0.2).  No significant reduction in insulin resistance or anthropometric measurements occurred in either group.  Our findings suggest that long-term, progressive aerobic training produces greater increases in circulating ADPN levels in trained, middle-aged, normal-weight females than in comparably trained males. 

Article Details

How to Cite
MUJUMDAR, Pooja P et al. Long-term, Aerobic Training Increases Adiponectin Levels in Trained, Middle-aged Females more than in Comparable Males. Medical Research Archives, [S.l.], n. 1, dec. 2014. ISSN 2375-1924. Available at: <https://esmed.org/MRA/mra/article/view/23>. Date accessed: 27 dec. 2024.
Keywords
adiponectin, exercise, human, intervention studies, sex differences
Section
Research Articles

References

Blair, S. N., H. W. Kohl, 3rd, R. S. Paffenbarger, Jr., D. G. Clark, K. H. Cooper, and L. W. Gibbons. 1989. "Physical fitness and all-cause mortality. A prospective study of healthy men and women." JAMA 262 (17):2395-401.

Boudou, P., E. Sobngwi, F. Mauvais-Jarvis, P. Vexiau, and J. F. Gautier. 2003. "Absence of exercise-inducekd variations in adiponectin levels despite decreased abdominal adiposity and improved insulin sensitivity in type 2 diabetic men." Eur J Endocrinol 149 (5):421-4.

Bullo, M., J. Salas-Salvado, and P. Garcia-Lorda. 2005. "Adiponectin expression and adipose tissue lipolytic activity in lean and obese women." Obes Surg 15 (3):382-6.

Carter, S. L., C. Rennie, and M. A. Tarnopolsky. 2001. "Substrate utilization during endurance exercise in men and women after endurance training." Am J Physiol Endocrinol Metab 280 (6):E898-907.

Das, U. N. 2004. "Anti-inflammatory nature of exercise." Nutrition 20 (3):323-6.

Erdfelder, E., F. Faul, and A. Buchner. 1996. "GPOWER: A general power analysis program." Behavior Research Methods, Instruments, & Computers 28 (1):1-11.

Esposito, K., A. Pontillo, C. Di Palo, G. Giugliano, M. Masella, R. Marfella, and D. Giugliano. 2003. "Effect of weight loss and lifestyle changes on vascular inflammatory markers in obese women: a randomized trial." JAMA 289 (14):1799-804.

Gruodyte, R., J. Jurimae, A. Cicchella, C. Stefanelli, C. Passariello, and T. Jurimae. 2010. "Adipocytokines and bone mineral density in adolescent female athletes." Acta Paediatr 99 (12):1879-84.

Havel, P. J. 2004. "Update on adipocyte hormones: regulation of energy balance and carbohydrate/lipid metabolism." Diabetes 53 Suppl 1:S143-51.

Horton, T. J., M. J. Pagliassotti, K. Hobbs, and J. O. Hill. 1998. "Fuel metabolism in men and women during and after long-duration exercise." J Appl Physiol 85 (5):1823-32.

Hulver, M. W., D. Zheng, C. J. Tanner, J. A. Houmard, W. E. Kraus, C. A. Slentz, M. K. Sinha, W. J. Pories, K. G. MacDonald, and G. L. Dohm. 2002. "Adiponectin is not altered with exercise training despite enhanced insulin action." Am J Physiol Endocrinol Metab 283 (4):E861-5.

Ischander, M., F. Zaldivar, Jr., A. Eliakim, E. Nussbaum, G. Dunton, S. Y. Leu, D. M. Cooper, and M. Schneider. 2007. "Physical activity, growth, and inflammatory mediators in BMI-matched female adolescents." Med Sci Sports Exerc 39 (7):1131-8.

Jurimae, J., T. Jurimae, S. Ring-Dimitriou, L. M. LeMura, P. J. Arciero, and S. P. von Duvillard. 2009. "Plasma adiponectin and insulin sensitivity in overweight and normal-weight middle-aged premenopausal women." Metabolism 58 (5):638-43.

Jurimae, J., P. Purge, and T. Jurimae. 2006. "Adiponectin and stress hormone responses to maximal sculling after volume-extended training season in elite rowers." Metabolism 55 (1):13-9.

Jurimae, J., P. Purge, and T. Jurimae. 2007. "Effect of prolonged training period on plasma adiponectin in elite male rowers." Horm Metab Res 39 (7):519-23.

Jurimae, J., S. Vaiksaar, J. Maestu, P. Purge, and T. Jurimae. 2011. "Adiponectin and bone metabolism markers in female rowers: eumenorrheic and oral contraceptive users." J Endocrinol Invest. 34(11):835-9.

Kleiblova, P., D. Springer, and M. Haluzik. 2006. "The influence of hormonal changes during menstrual cycle on serum adiponectin concentrations in healthy women." Physiol Res 55 (6):661-6.

Madsen, E. L., A. Rissanen, J. M. Bruun, K. Skogstrand, S. Tonstad, D. M. Hougaard, and B. Richelsen. 2008. "Weight loss larger than 10% is needed for general improvement of levels of circulating adiponectin and markers of inflammation in obese subjects: a 3-year weight loss study." Eur J Endocrinol 158 (2):179-87.

Maeda, N., I. Shimomura, K. Kishida, H. Nishizawa, M. Matsuda, H. Nagaretani, N. Furuyama, H. Kondo, M. Takahashi, Y. Arita, R. Komuro, N. Ouchi, S. Kihara, Y. Tochino, K. Okutomi, M. Horie, S. Takeda, T. Aoyama, T. Funahashi, and Y. Matsuzawa. 2002. "Diet-induced insulin resistance in mice lacking adiponectin/ACRP30." Nat Med 8 (7):731-7.

Matthews, D. R., J. P. Hosker, A. S. Rudenski, B. A. Naylor, D. F. Treacher, and R. C. Turner. 1985. "Homeostasis model assessment: insulin resistance and beta-cell function from fasting plasma glucose and insulin concentrations in man." Diabetologia 28 (7):412-9.

Mujumdar, P. P., P. J. Duerksen-Hughes, A. F. Firek, and D. A. Hessinger. 2011. "Long-term, progressive, aerobic training increases adiponectin in middle-aged, overweight, untrained males and females." Scand J Clin Lab Invest 71 (2):101-7.

Ring-Dimitriou, S., B. Paulweber, S. P. von Duvillard, M. Stadlmann, L. M. LeMura, J. Lang, and E. Muller. 2006. "The effect of physical activity and physical fitness on plasma adiponectin in adults with predisposition to metabolic syndrome." Eur J Appl Physiol 98 (5):472-81.

Shibata, R., N. Ouchi, M. Ito, S. Kihara, I. Shiojima, D. R. Pimentel, M. Kumada, K. Sato, S. Schiekofer, K. Ohashi, T. Funahashi, W. S. Colucci, and K. Walsh. 2004. "Adiponectin-mediated modulation of hypertrophic signals in the heart." Nat Med 10 (12):1384-9.

Sieminska, L., C. Wojciechowska, D. Niedziolka, B. Marek, B. Kos-Kudla, D. Kajdaniuk, and M. Nowak. 2005. "Effect of postmenopause and hormone replacement therapy on serum adiponectin levels." Metabolism 54 (12):1610-4.

Sun, Y., K. Xun, C. Wang, H. Zhao, H. Bi, X. Chen, and Y. Wang. 2009. "Adiponectin, an unlocking adipocytokine." Cardiovasc Ther 27 (1):59-75.

Tall, A. R. 2002. "Exercise to reduce cardiovascular risk--how much is enough?" N Engl J Med 347 (19):1522-4.

Wang, J., H. Li, O. H. Franco, Z. Yu, Y. Liu, and X. Lin. 2008. "Adiponectin and metabolic syndrome in middle-aged and elderly Chinese." Obesity (Silver Spring) 16 (1):172-8.

Weiss, E. P., S. B. Racette, D. T. Villareal, L. Fontana, K. Steger-May, K. B. Schechtman, S. Klein, J. O. Holloszy, and Washington University School of Medicine CALERIE Group. 2006. "Improvements in glucose tolerance and insulin action induced by increasing energy expenditure or decreasing energy intake: a randomized controlled trial." Am J Clin Nutr 84 (5):1033-42.

Weiss, R., J. D. Otvos, A. Flyvbjerg, A. R. Miserez, J. Frystyk, R. Sinnreich, and J. D. Kark. 2009. "Adiponectin and lipoprotein particle size." Diabetes Care 32 (7):1317-9.