Our purpose was to examine the changes in free testosterone concentration following
moderately prolonged endurance exercise to determine whether such changes were due
to alterations in the binding affinity of sex hormone binding globulin (SHBG). Ten
trained men completed control (45 min rest) and exercise (45 min @ 70 % VO2max) experimental sessions. Blood samples were collected before (pre-) and immediately
after (post-) each of the sessions and analyzed for total testosterone. free testosterone,
LH, FSH, Cortisol, estradiol, SHBG, epinephrine and norepinephrine. The association
constant (Ka) of SHBG for testosterone was assessed to evaluate binding affinity.
No significant difference was seen between the pre-control and the pre-exercise session
values for any of the measures. However, within the exercise session significant (p
< 0.01) increases in post samples were evident for total testosterone (+ 32.0 %),
free-testosterone (+ 39.6 %), Cortisol (+ 38.0 %), norepinephrine (+ 365.2 %) and
epinephrine (+ 225.8 %). All other hormonal changes and the responses for Ka were
non-significant. The results of the correlation analysis indicated that only norepinephrine
was significantly (p < 0.05) related to the changes observed in free testosterone
(r = + 0.92). We conclude that the free testosterone increase with moderately, prolonged
endurance exercise was not associated with the change in the binding affinity of SHBG.
Furthermore, the data suggest that the exercise induced increase in testosterone involves
increased production which may be mediated by sympathetic stimulation of the testicles.
Key words
Hormones - men - physical - activity - carrier proteins
