Association between Serum Concentrations of Anabolic Hormones and their Binding Proteins in Response to Graded Exercise in Male Athletes
We investigated the response of testosterone (T),
growth hormone (GH), cortisol (C), steroid hormone binding
globulin (SHBG), insulin-like growth factor (IGF-1), insulin-like
growth factor binding protein-3 (IGFBP-3), and some anaboliccatabolic
indexes, i.e.: T/C, T/SHBG, and IGF-1/IGFBP-3 to
maximal exercise in endurance-trained athletes (TREN) and
untrained subjects (CG). The baseline concentration of IGF-1 was
higher in athletes (TREN) when compared to the CG (p<0.05). The
GH concentration and GH/IGF-1 ratio increased after exercise in
all subjects compared to respective values at rest. The resting IGF-
1/IGFBP-3 ratio was significantly higher in athletes. The maximal
exercise test induced an increase in post-exercise T/SHGB ratio in
athletes compared to CG (p<0.05). These results indicate that
elevation of baseline serum IGF-1/IGFBP-3 and T/SHGB ratio
after exercise might suggest that free fractions of these hormones
may act as a potent stimulant of muscle hypertrophy in trained
endurance athletes.
[1] F.W. Booth, B.S. Tseng, M. Fl├╝k M, and J.A. Carson, "Molecular and
cellular adaptation of muscle in response to physical training", Acta
Physiol. Scand, vol. 162, pp. 343-350, 1998.
[2] M. Chennaoui, D. Gomez-Merino, C. Drogou, C. Bourrilhon, S.
Sautivet, and C.Y. Guezennec, "Hormonal and metabolic adaptation
in professional cyclists during training", Can. J. Appl. Physiol, vol.
29, no. 6, pp. 714-730, 2004.
[3] R. C. Cueno, and J.D. Wallace, "Growth hormone, insulin-like
growth factors and sport" Endocrinol. Metab, vol. 1, pp. 3-13, 1994.
[4] A.M. Solomon, and P.M.G. Bouloux, "Modifying muscle mass-the
endocrine perspectives". J Endocrinol, vol. 191, pp. 349-360, 2006.
[5] M.R. Ambrosio, A. Valentini, G. Trasforini, F. Minuto F, E. Ghigo, S.
Cella, A. Margutti, R. Pansini, and E.C. Uberti EC, "Functional of the
GH/IGF-1 axis in healthy middle-aged male runners",
Neuroendocrinology vol. 63, pp. 498-503, 1996.
[6] L. Tsai, C. Johansson, A. Pousette, R. Tegelman, K. Carlström, and P.
Hemmingsson, "Cortisol and androgen concentrations in female and
male elite endurance athletes in relation to physical activity, Eur. J.
Appl. Physiol. Occup. Physiol, vol. 63, no. 3-4, pp. 308-311, 1991.
[7] L. Wideman, J.Y. Weltman, M.L. Hartman, J.D. Veldhuis, and A.
Weltman, "Growth hormone release during acute and chronic aerobic
and resistance exercise", Sports Med. vol. 32, pp. 987-1004, 2002.
[8] L.P. Koziris, R.C. Hickson, R.T. Chatterton, R.T. Groseth, I.M.
Christie, D.G. Goldflies, and T.G. Unterman, "Serum levels of total
and free IGF-I and IGFBP-3 are increased and maintained in longterm
training", J. Appl. Physiol, vol. 86, pp. 1436-1442, 1999.
[9] W.J. Kraemer, F.S. Harman, N.H. Vos, S.E. Gordon, B.C. Nindl, J.O.
Marx, A.L. Gomez, I.S. Volek, N.A. Ratamess, S.A. Mazzetti, J.A.
Bush, and K. Dohi, "Effects of exercise and alkalosis on serum
insulin-like growth factor I and IGF-binding protein-3", Can. J. Appl.
Physiol, vol. 25, no. 2, pp. 127-138, 2000.
[10] K. Brownlee, A. Moore, and A. Hackney, "Relationship between
circulating cortisol and testosterone: influence of physical exercise" J.
Sports. Sci. Med, vol. 4, pp. 76-83, 2005.
[11] M.J. Caballero, P. Mena P, and M. Maynar M, "Changes in sex
hormone binding globulin, high density lipoprotein cholesterol and
plasma lipids in male cyclists during training and competition", Eur.
J. Appl. Physiol, vol. 64, pp. 9-13, 1992.
[12] G.R. Adams, "Exercise effects on muscle insulin signaling and action.
Invited review: autocrine/paracrine IGF-I and skeletal muscle
adaptation", J. Appl. Physiol., vol. 93, pp. 1159-1167, 2002.
[13] M. Aperghis, C.P. Velloso, M. Hameed, T. Brothwood, L. Bradley,
P.M. Bouloux, S.D. Harridge, and G. Goldspink G, "Serum IGF-I
levels and IGF-I gene splicing in muscle of healthy young males
receiving rhGH", Growth. Horm. IGF. Res, vol. 19, no.1, pp. 61-67,
2009.
[14] U. Berg, P. Bang, "Exercise and circulating insulin-like growth factor
I", Horm. Res, vol. 62, no.1, pp.50-58, 2004.
[15] R.C. Baxter, "Insulin-like growth factor (IGF), binding proteins:
interactions with IGFs and intrinsic bioactivities", Am. J. Physiol.
Endocrinol. Metab, vol. 278, pp. 967- 976, 2000.
[16] S. Bermon, P. Ferrari, P. Bernard, S. Altare, and C. Dolisi,
"Responses of total and free insulin-like growth factor-1 and insulin-
like growth factor binding protein-3 after resistance exercise and
training in elderly subjects", Acta Physiol. Scand, vol. 165, pp. 51-56,
1999.
[17] C.L. Fahrner, and A.C. Hackney, "Effects of endurance exercise on
free testosterone concentration and the binding affinity of sex
hormone binding globulin (SHBG)", Int. J. Sport. Med, vol.19, no. 1,
pp. 5-12, 1998.
[18] E.M. Erfurth, L.E. Hagmar, M. Sääf, and K. Hall, "Serum levels of
insulin-like growth factor I and insulin-like growth factor-binding
protein 1 correlate with serum free testosterone and sex hormone
binding globulin levels in healthy young and middle-aged men", Clin.
Endocrinol. (Oxf), vol. 44, no. 6, pp. 659-664, 1996.
[19] B.L.G. Nyomba, L. Berard, and L.J. Murphy, "Free insulin-like
growth factor I (IGF-I) in healthy subjects: relationship with IGFbinding
protein and insulin sensitivity", J. Clin. Endocrinol. Metab,
vol. 82, pp. 2177-2181, 1997.
[20] D. Le Roith, C. Bondy, S. Yakar, J. Liu, and A. Butler, "The
somatomedin hypothesis", Endocr. Rev, vol. 22, no. 1, pp. 53-74,
2001.
[21] G. Cunha, J.I. Ribeiro, and A.R. Oliveira, "Overtraining: theories,
diagnosis and markers", Rev. Bras. Med. Esporte, vol. 12, no. 5, pp.
267-271, 2006.
[22] B. Koch, S. Glaser, C. Schaper, A. Krebs, M.Nauck, M. Dorr, R.
Haring, H. Volzke, S.B. Felix, R. Ewert, H. Wallaschofski, and N.
Friedrich, "Association between serum testosterone and sex hormonebinding
globulin and exercise capacity in men: results of the Study of
Health in Pomerania (SHIP)", J. Androl, vol. 32, no. 2, pp.135-143,
2011.
[23] L.E.L. Katz, D.D. DeLeon, H. Zhao, and A.F. Jawad, "Free and total
insulin-like growth factor (IGF)-I levels decline during fasting:
relationships with insulin and IGF-binding protein 1. J. Clin.
Endocrinol. Metab, vol. 87, pp 2978-2983, 2002.
[24] A. Eliakim, J.A. Brasel, T.J. Barstow, S. Mohan, and D.M. Cooper
DM, "Peak oxygen uptake, muscle volume, and growth hormoneinsulin-
like growth factor-I axis in adolescent males", Med. Si. Sports
Exerc, vol.30, pp. 512-517, 1998.
[25] C.A.M. Roelen, W.R. De Vries, H.P.F. Koppeschaar, C. Vervoorn,
I.H.H. Thijssin, and M.A. Blankenstein, "Plasma insulin-like growth
factor-I and high affinity growth hormone-binding protein levels
increase after two weeks of strenuous physical training", Int. J. Sports
Med. vol.18, pp. 238-241, 1997.
[26] L. Rosendal, H. Langberg, A. Flyvbjerg, J. Frystyk, H. ├ÿrskov, and
M. Kjær, "Physical capacity influences the response of insulin-like
growth factor and its binding proteins to training", J. Appl. Physiol,
vol. 93, pp. 1669-1675, 2002.
[27] M. Elloumi, E. Nel, M. Zaouali, F. Maso, E. Filaire, Z. Tabaka, and
G. Lac, "IGFBP-3, a sensitive marker of physical training and
overtraining", Br. J. Sports Med. 39 (9): 604-610, 2005.
[28] A. Urhausen and W. Kindermann, "Diagnosis of overtraining. What
tools do we have?", Sports. Med. vol. 32, no. 2, pp. 95-102, 2002.
[29] J.R. Florini, D.Z. Ewton, and S.A. Coolican, "Growth hormone and
the insulin-like growth factor system in myogenesis", Endoc. Rev,
vol. 17, pp. 481-517, 1996.
[30] D.A. Fryburg, "Insulin-like growth factor I exerts growth hormoneand
insulin-like actions on human muscle protein metabolism", Am.
J. Physiol, vol. 267, pp. E331-336, 1994.
[31] J. Gibney, M.Z. Healy, and P.H. Sönksen, "The growth
hormone/insulin-like growth factor-I axis in exercise and sport",
Endocrine Rev, vol. 28, no. 6, pp. 603-624, 2007.
[32] J. Manetta, J.F. Brun, C. Fedou, L. Maïmoun, C. Prefaut, and J.
Mercier, "Serum levels of insulin-like growth factor-I (IGF-I), and
IGF-binding proteins-1 and-3 in middle-aged and young athletes
versus sedentary men: relationship with glucose disposal",
Metabolism, vol. 52, pp. 821-826, 2003.
[33] G. Goldspink, and S.Y. Yang, "The splicing of the IGF-I gene to yield
different muscle growth factors", Advances in Genetics, vol. 52, pp.
23-49, 2004.
[34] O. Tissandier, G. P─òres, J. Fiel, and Pielte, "Testosterone,
dehydroepiandrosterone, insulin-like growth factor 1, and insulin in
sedentary and physical trained aged men", Eur. J. Appl. Physiol, vol.
85, pp. 177-184, 2001.
[35] B. Lac, and P. Berthon, "Changes in cortisol and testosterone levels
and T/C ratio during an endurance competition and recovery", J.
Sports Med Phys. Fit, vol. 40, no. 2, pp.139-144, 2000.
[36] J.M. Gomez, F.J. Maravall, N. Gomez, M.A. Navarro, and I. Soler,
"Determinants of sex hormone-binding globulin concentrations in a
cross-sectional study of healthy men randomly selected", J. Nutr.
Health. Aging, vol. 11, no.1, pp.60-64, 2007.
[1] F.W. Booth, B.S. Tseng, M. Fl├╝k M, and J.A. Carson, "Molecular and
cellular adaptation of muscle in response to physical training", Acta
Physiol. Scand, vol. 162, pp. 343-350, 1998.
[2] M. Chennaoui, D. Gomez-Merino, C. Drogou, C. Bourrilhon, S.
Sautivet, and C.Y. Guezennec, "Hormonal and metabolic adaptation
in professional cyclists during training", Can. J. Appl. Physiol, vol.
29, no. 6, pp. 714-730, 2004.
[3] R. C. Cueno, and J.D. Wallace, "Growth hormone, insulin-like
growth factors and sport" Endocrinol. Metab, vol. 1, pp. 3-13, 1994.
[4] A.M. Solomon, and P.M.G. Bouloux, "Modifying muscle mass-the
endocrine perspectives". J Endocrinol, vol. 191, pp. 349-360, 2006.
[5] M.R. Ambrosio, A. Valentini, G. Trasforini, F. Minuto F, E. Ghigo, S.
Cella, A. Margutti, R. Pansini, and E.C. Uberti EC, "Functional of the
GH/IGF-1 axis in healthy middle-aged male runners",
Neuroendocrinology vol. 63, pp. 498-503, 1996.
[6] L. Tsai, C. Johansson, A. Pousette, R. Tegelman, K. Carlström, and P.
Hemmingsson, "Cortisol and androgen concentrations in female and
male elite endurance athletes in relation to physical activity, Eur. J.
Appl. Physiol. Occup. Physiol, vol. 63, no. 3-4, pp. 308-311, 1991.
[7] L. Wideman, J.Y. Weltman, M.L. Hartman, J.D. Veldhuis, and A.
Weltman, "Growth hormone release during acute and chronic aerobic
and resistance exercise", Sports Med. vol. 32, pp. 987-1004, 2002.
[8] L.P. Koziris, R.C. Hickson, R.T. Chatterton, R.T. Groseth, I.M.
Christie, D.G. Goldflies, and T.G. Unterman, "Serum levels of total
and free IGF-I and IGFBP-3 are increased and maintained in longterm
training", J. Appl. Physiol, vol. 86, pp. 1436-1442, 1999.
[9] W.J. Kraemer, F.S. Harman, N.H. Vos, S.E. Gordon, B.C. Nindl, J.O.
Marx, A.L. Gomez, I.S. Volek, N.A. Ratamess, S.A. Mazzetti, J.A.
Bush, and K. Dohi, "Effects of exercise and alkalosis on serum
insulin-like growth factor I and IGF-binding protein-3", Can. J. Appl.
Physiol, vol. 25, no. 2, pp. 127-138, 2000.
[10] K. Brownlee, A. Moore, and A. Hackney, "Relationship between
circulating cortisol and testosterone: influence of physical exercise" J.
Sports. Sci. Med, vol. 4, pp. 76-83, 2005.
[11] M.J. Caballero, P. Mena P, and M. Maynar M, "Changes in sex
hormone binding globulin, high density lipoprotein cholesterol and
plasma lipids in male cyclists during training and competition", Eur.
J. Appl. Physiol, vol. 64, pp. 9-13, 1992.
[12] G.R. Adams, "Exercise effects on muscle insulin signaling and action.
Invited review: autocrine/paracrine IGF-I and skeletal muscle
adaptation", J. Appl. Physiol., vol. 93, pp. 1159-1167, 2002.
[13] M. Aperghis, C.P. Velloso, M. Hameed, T. Brothwood, L. Bradley,
P.M. Bouloux, S.D. Harridge, and G. Goldspink G, "Serum IGF-I
levels and IGF-I gene splicing in muscle of healthy young males
receiving rhGH", Growth. Horm. IGF. Res, vol. 19, no.1, pp. 61-67,
2009.
[14] U. Berg, P. Bang, "Exercise and circulating insulin-like growth factor
I", Horm. Res, vol. 62, no.1, pp.50-58, 2004.
[15] R.C. Baxter, "Insulin-like growth factor (IGF), binding proteins:
interactions with IGFs and intrinsic bioactivities", Am. J. Physiol.
Endocrinol. Metab, vol. 278, pp. 967- 976, 2000.
[16] S. Bermon, P. Ferrari, P. Bernard, S. Altare, and C. Dolisi,
"Responses of total and free insulin-like growth factor-1 and insulin-
like growth factor binding protein-3 after resistance exercise and
training in elderly subjects", Acta Physiol. Scand, vol. 165, pp. 51-56,
1999.
[17] C.L. Fahrner, and A.C. Hackney, "Effects of endurance exercise on
free testosterone concentration and the binding affinity of sex
hormone binding globulin (SHBG)", Int. J. Sport. Med, vol.19, no. 1,
pp. 5-12, 1998.
[18] E.M. Erfurth, L.E. Hagmar, M. Sääf, and K. Hall, "Serum levels of
insulin-like growth factor I and insulin-like growth factor-binding
protein 1 correlate with serum free testosterone and sex hormone
binding globulin levels in healthy young and middle-aged men", Clin.
Endocrinol. (Oxf), vol. 44, no. 6, pp. 659-664, 1996.
[19] B.L.G. Nyomba, L. Berard, and L.J. Murphy, "Free insulin-like
growth factor I (IGF-I) in healthy subjects: relationship with IGFbinding
protein and insulin sensitivity", J. Clin. Endocrinol. Metab,
vol. 82, pp. 2177-2181, 1997.
[20] D. Le Roith, C. Bondy, S. Yakar, J. Liu, and A. Butler, "The
somatomedin hypothesis", Endocr. Rev, vol. 22, no. 1, pp. 53-74,
2001.
[21] G. Cunha, J.I. Ribeiro, and A.R. Oliveira, "Overtraining: theories,
diagnosis and markers", Rev. Bras. Med. Esporte, vol. 12, no. 5, pp.
267-271, 2006.
[22] B. Koch, S. Glaser, C. Schaper, A. Krebs, M.Nauck, M. Dorr, R.
Haring, H. Volzke, S.B. Felix, R. Ewert, H. Wallaschofski, and N.
Friedrich, "Association between serum testosterone and sex hormonebinding
globulin and exercise capacity in men: results of the Study of
Health in Pomerania (SHIP)", J. Androl, vol. 32, no. 2, pp.135-143,
2011.
[23] L.E.L. Katz, D.D. DeLeon, H. Zhao, and A.F. Jawad, "Free and total
insulin-like growth factor (IGF)-I levels decline during fasting:
relationships with insulin and IGF-binding protein 1. J. Clin.
Endocrinol. Metab, vol. 87, pp 2978-2983, 2002.
[24] A. Eliakim, J.A. Brasel, T.J. Barstow, S. Mohan, and D.M. Cooper
DM, "Peak oxygen uptake, muscle volume, and growth hormoneinsulin-
like growth factor-I axis in adolescent males", Med. Si. Sports
Exerc, vol.30, pp. 512-517, 1998.
[25] C.A.M. Roelen, W.R. De Vries, H.P.F. Koppeschaar, C. Vervoorn,
I.H.H. Thijssin, and M.A. Blankenstein, "Plasma insulin-like growth
factor-I and high affinity growth hormone-binding protein levels
increase after two weeks of strenuous physical training", Int. J. Sports
Med. vol.18, pp. 238-241, 1997.
[26] L. Rosendal, H. Langberg, A. Flyvbjerg, J. Frystyk, H. ├ÿrskov, and
M. Kjær, "Physical capacity influences the response of insulin-like
growth factor and its binding proteins to training", J. Appl. Physiol,
vol. 93, pp. 1669-1675, 2002.
[27] M. Elloumi, E. Nel, M. Zaouali, F. Maso, E. Filaire, Z. Tabaka, and
G. Lac, "IGFBP-3, a sensitive marker of physical training and
overtraining", Br. J. Sports Med. 39 (9): 604-610, 2005.
[28] A. Urhausen and W. Kindermann, "Diagnosis of overtraining. What
tools do we have?", Sports. Med. vol. 32, no. 2, pp. 95-102, 2002.
[29] J.R. Florini, D.Z. Ewton, and S.A. Coolican, "Growth hormone and
the insulin-like growth factor system in myogenesis", Endoc. Rev,
vol. 17, pp. 481-517, 1996.
[30] D.A. Fryburg, "Insulin-like growth factor I exerts growth hormoneand
insulin-like actions on human muscle protein metabolism", Am.
J. Physiol, vol. 267, pp. E331-336, 1994.
[31] J. Gibney, M.Z. Healy, and P.H. Sönksen, "The growth
hormone/insulin-like growth factor-I axis in exercise and sport",
Endocrine Rev, vol. 28, no. 6, pp. 603-624, 2007.
[32] J. Manetta, J.F. Brun, C. Fedou, L. Maïmoun, C. Prefaut, and J.
Mercier, "Serum levels of insulin-like growth factor-I (IGF-I), and
IGF-binding proteins-1 and-3 in middle-aged and young athletes
versus sedentary men: relationship with glucose disposal",
Metabolism, vol. 52, pp. 821-826, 2003.
[33] G. Goldspink, and S.Y. Yang, "The splicing of the IGF-I gene to yield
different muscle growth factors", Advances in Genetics, vol. 52, pp.
23-49, 2004.
[34] O. Tissandier, G. P─òres, J. Fiel, and Pielte, "Testosterone,
dehydroepiandrosterone, insulin-like growth factor 1, and insulin in
sedentary and physical trained aged men", Eur. J. Appl. Physiol, vol.
85, pp. 177-184, 2001.
[35] B. Lac, and P. Berthon, "Changes in cortisol and testosterone levels
and T/C ratio during an endurance competition and recovery", J.
Sports Med Phys. Fit, vol. 40, no. 2, pp.139-144, 2000.
[36] J.M. Gomez, F.J. Maravall, N. Gomez, M.A. Navarro, and I. Soler,
"Determinants of sex hormone-binding globulin concentrations in a
cross-sectional study of healthy men randomly selected", J. Nutr.
Health. Aging, vol. 11, no.1, pp.60-64, 2007.
@article{"International Journal of Medical, Medicine and Health Sciences:55319", author = "A. Żebrowska and A. Kochańska-Dziurowicz and A. Stanjek-Cichoracka", title = "Association between Serum Concentrations of Anabolic Hormones and their Binding Proteins in Response to Graded Exercise in Male Athletes", abstract = "We investigated the response of testosterone (T),
growth hormone (GH), cortisol (C), steroid hormone binding
globulin (SHBG), insulin-like growth factor (IGF-1), insulin-like
growth factor binding protein-3 (IGFBP-3), and some anaboliccatabolic
indexes, i.e.: T/C, T/SHBG, and IGF-1/IGFBP-3 to
maximal exercise in endurance-trained athletes (TREN) and
untrained subjects (CG). The baseline concentration of IGF-1 was
higher in athletes (TREN) when compared to the CG (p", keywords = "anabolic hormones, endurance training, exercise,
growth factors", volume = "6", number = "6", pages = "221-4", }
