CIRCADIAN-RHYTHM OF IN-VITRO BONE-RESORBING ACTIVITY IN HUMAN SERUM

Calciotropic hormones as well as biochemical parameters of bone formation and resorption show circadian rhythms. In a previous study in the rat, me observed a circadian rhythm in serum bone-resorbing activity (SBRA). In the present study, we investigated whether there was a circadian rhythm of SBRA in human serum. For this purpose, we studied 10 healthy premenopausal women and 5 healthy men. Blood was collected every 2 h, and urine samples were collected during 4-h periods for 24 h. For the determination of SBRA, media were prepared by reconstituting serum samples with Dulbecco's Modified Eagle's Medium at a ratio of 20% serum and 80% Dulbecco's Modified Eagle's Medium. Limb bones were dissected from 19-day old fetal rats prelabelled with Ca-45 and were cultured for 72 h in the presence of the sera. Bone resorption was assessed from the Ca-45 released into the culture medium and from that retained in the bone and was expressed as percentage Ca-45 release. Serum calcium, phosphorus, PTH, cortisol, and urinary pyridinium cross-links were also determined. SBRA in human serum followed a circadian rhythm with a peak at about 0300 h and a nadir at 0700 h. There was no significant difference between the rhythm of SBRA of women and men. At concurrent time points, SBRA and serum PTH were positively correlated (r=0.629; P<0.01), and SBRA and serum cortisol were negatively correlated (r=0.797; P<0.01). To further investigate the possible contribution of these hormones to SBRA, either neutralizing anti-PTH antibody or RU-486 (mifepristone), a glucocorticoid receptor antagonist, was added to the serum samples of 6 subjects. Neutralizing the effect of PTH did not change the pattern of SBRA rhythm. The addition of RU-486 had a significant effect on the rhythm of SBRA, reducing the peak and nadir amplitudes. Thus we conclude that cortisol plays a major role in the rhythm of SBRA present in human serum; however, the influence of other factors cannot be excluded. Cortisol may be an important determinant of the circadian rhythm of bone resorption in vivo.