Pulsatile growth hormone, insulin-like growth factors and antler development in red deer (Cervus elaphus scoticus) stags

Autor: Suttie, J. M., Fennessy, P. F., Corson, I. D., Laas, F. J., Crosbie, S. F., Butler, J. H., Gluckman, P. D.
Zdroj: Journal of Endocrinology; May 1989, Vol. 121 Issue: 2 p351-360, 10p
Abstrakt: Plasma samples taken every 30 min over a 26-h period each month from six 4- to 15-month-old red deer stags were analysed for GH. In addition, two samples taken at 10.00 and 22.00 h were analysed for insulin-like growth factor-I (IGF-I) and insulin-like growth factor-II (IGF-II). A concentrate diet was available ad libitum. Food intake, body weight and antler status were recorded. Concentrations of GH were analysed using the PULSAR peak detection routine. Secretion of GH was pulsatile in every month of sampling, but the pattern of pulsatility differed seasonally. During the autumn and early winter (April–June in the Southern hemisphere) GH pulses were frequent and of low amplitude. In contrast, GH pulses in spring (August–September) were of high amplitude and high frequency resulting in a high mean level of GH circulating in the plasma.In early summer (November) the GH pulse amplitude was much lower and pulse frequency fell. There was a rise in GH pulse frequency not accompanied by an increase in GH pulse amplitude in summer (December–January). GH pulse amplitude seemed to be the main determinant of mean GH plasma level. Secretion of IGF-I was raised 1 month after peak monthly mean GH secretion. There was little consistent relationship between concentrations of IGF-II and mean daily GH. Concentrations of GH correlated positively and significantly with liveweight gain and antler growth rate with a delay of 1 month. Significantly positive correlations between concentrations of IGF-I, liveweight gain and antler growth rate were observed. It is considered that the spring and summer (September–December) seasonal acceleration of liveweight gain and antler development in stags could be a consequence of high winter/early spring (August–September) GH pulse frequency and amplitude resulting in increased concentrations of IGF-I, particularly in October.Journal of Endocrinology(1989) 121,351–360
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