It is known that plasma total testosterone (T) is decreased in obese men in proportion to the degree of obesity, but similar information is not available for plasma free T and non-sex-hormone-binding globulin (SHBG)-bound T. We measured the 24-h mean plasma total T in 48 healthy (non-weight-stable men, aged 18-55 yr, with body mass indexes (BMI) ranging from 21-95 kg/m2. Free T and non-SHBG-bound T were calculated using the measured total T, the concentrations of albumin and SHBG, and the association constants of T to albumin and SHBG. Total body fat content was measured by deuterium-water isotope dilution. Findings were as follows. 1) BMI was very highly correlated with total body fat content (r = 0.96; P less than 0.001); thus, the degree of obesity can be calculated just as appropriately from simple height and weight measurements as from measurements of total body fat content. 2) Total, non-SHBG-bound, and free T were all highly correlated inversely with BMI; for total T, r = -0.727, P less than 0.01; for non-SHBG-bound T, r = 0.677, P less than 0.01; and for free T, r = -0.653, P less than 0.01. Thus, free T and non-SHBG-bound T are decreased in obese men in proportion to the degree of obesity, just as is the case for total T; percentage-wise, the decrease was the same for all 3 parameters.
A B S T R A C T Plasma luteinizing hormone (LH) and testosterone (T) were measured by radioimmunoassay in nine pubertal boys and three sexually mature young men at 20-min intervals for 24 h. Plasma LH and T were also measured in one boy during a delayed sleep onset study. Polygraphic monitoring was carried out to identify precisely sleep onset, wakefulness, and specific sleep stages. In all nine pubertal boys the plasma T concentration fluctuated and was significantly higher during normal nocturnal sleep as compared to daytime waking. This increased T secretion during sleep was temporally linked to the characteristic pubertal sleep augmentation of LH secretion. To define further the relationship of this increased T secretion to sleep, plasma LH and T were also measured in three of the pubertal boys after acute (1-day) reversal of the sleepwake cycle. One of these boys was also studied after 3 days of sleep-wake cycle reversal. The results of these studies showed that plasma T was now augmented during the reversed daytime sleep period; the mean T concentrations during this period were significantly higher (P < 0.001) than during nocturnal waking in all four studies. Measurement of plasma LH and T in the three sexually mature young men showed episodic secretion of LH and T during both waking and sleep periods; there was no consistent significant augmentation of LH or T secretion during sleep. This study demonstrates that (a) in normal pubertal boys and sexually mature young men plasma T fluctuates epi-A preliminary portion of this work has been reported as an abstract (1973. J. Clin. Invest. 52: 11a).Received for publication 19 October 1973 and in revised form 26 February 1974. sodically; (b) there is marked augmentation of T secretion during sleep in pubertal boys, which is dependent on increased LH secretion; (c) this pubertal LH-T secretory "program" is dependent on sleep, since it shifts with delayed sleep onset and reversal of the sleep-wake cycle; and (d) this demonstrable tropic effect of LH on T is evident only during puberty, since sexually mature young men fail to show any consistent relationship between LH and T secretion either awake or asleep. INTRODUCTIONRecent use of the combination of plasma sampling at frequent intervals, sensitive and specific radioimmunoassays, and polygraphic recording of sleep has led to a revised perspective of hormone-secretory dynamics. These procedures, employed throughout the complete 24-h sleep-wake cycle, allowed the recognition of the episodic secretion of cortisol (1-3), ACTH (4, 5). luteinizing hormone (LH)1 (6-13) and follicle-stimulating hormone (FSH) (8,11,12) in adult men and women. The polygraphic monitoring of sleep showed the important role of sleep in the secretion of human growth hormone (14-17), human prolactin (18-20), LH and FSH in normal pubertal girls (21-24), and LH in pubertal boys (22,23).
Dehydroisoandrosterone (DHA) and cortisol were measured by radioimmunoassay and protein binding techniques respectively in plasma from blood taken at 20-min intervals over 24-h periods in 3 normal men, 2 women with Stein-Leventhal syndrome and a man with a benign adrenocortical adenoma. In all subjects but the latter, DHA and cortisol were episodic and synchronous throughout the entire day; in this patient, continuous secretion of cortisol by the tumor apparently abolished stimulation of the contralateral adrenal, and DHA production was negligible. Dehydroisoandrosterone sulfate analysis in plasma displayed a pattern which, probably because of its origin both by secretion and sulfation and its long half-life showed less synchronicity with DHA and cortisol and less fluctuation than did the free hormones.
The 24-h mean plasma concentrations of androgens (dihydrotestosterone and total and free testosterone), estrogens (estrone and estradiol), and gonadotropins (LH and FSH) were measured in 35 healthy men, aged 21-85 yr, who were rigorously screened to exclude factors known or suspected to alter endocrine function. The plasma total testosterone concentration showed a slow continuous decline with age, decreasing about 35% between 21 and 85 yr of age; the free testosterone level was closely correlated with that of total testosterone over the entire observed concentration range. The concentrations of dihydrotestosterone, estrone, estradiol, and LH were age invariant. The concentration of FSH showed a continuous linear increase with age; the level at age 85 was about 2.5 times the level at age 21. The following conclusions were drawn. 1) Testosterone secretion appears to decline slowly and continuously throughout adult life in men. 2) Measurement of the plasma free testosterone level adds no independent information in healthy men, since its level is closely correlated with that of total testosterone at all concentrations. 3) The continuous rise with age in FSH concentration while LH is age invariant cannot be explained by changes in testosterone or estrogen production, but might be due to a decline of inhibin production with age.
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