Testosterone and androstenedione concentrations in the plasma and testis of male guinea-pigs were estimated by gas chromatography at intervals (36 stages) from birth to death. Four main periods of androgenic activity were recognized. The neonatal period, from birth to Day 16, is characterized by a precocious but transient peak in plasma testosterone concentration at Days 2 and 3. The pubertal period from Days 16 to 90 can be subdivided into a prepubertal period starting on Day 16 and marked by a sudden linear increase in plasma and testicular testosterone concentration together with an increase in testicular and seminal vesicle weight, and a postpubertal period, from Day 50 (the time of hormonal puberty) to Day 90, characterized by high and stable androgen levels while testicular and genital tract development continues. Adulthood spans the period between Months 3\p=n-\6and Month 24; plasma and testicular concentrations of testosterone and androstenedione are stable but lower than those observed during puberty. The period of senescence occurs between Months 24 and 28 and is marked by a fall in testosterone secretion and involution of the seminiferous tubules and accessory sex glands.
The metabolism and the rate of transfer of cortisol across the placenta in pregnant guinea-pigs and foetuses were studied by constant intravenous infusions of tritium-labelled cortisol. Estimates of endogenous and radioactive plasma cortisol levels were used to calculate the following parameters at four stages before parturition (days 62, 64, 66 and 67; parturition occurring at day 68): metabolic clearance rate; production rate; adrenal secretory rate; transfer rate from mother to foetus and from foetus to mother; irreversible removal rate; the fraction of cortisol derived from the other in the foetal and maternal vascular compartments; the fraction of secreted and recycled cortisol involved in the transfer. The metabolic clearance rate and the rates of production and secretion of cortisol were higher in the mother than in the foetus between days 62 and 67 of gestation. About 90% of the foetal cortisol was of maternal origin. The fraction of maternal cortisol of foetal origin increased in the last days of gestation.
The concentrations of corticosterone and aldosterone in the plasma and adrenal glands of foetal, newborn and mother mice were estimated during the last 4 days of pregnancy and throughout the perinatal period. The level of corticosterone in the maternal and foetal plasma fell from day 17 of gestation until birth, and then remained stable. Whereas the corticosterone content of the maternal adrenal glands did not change significantly, that of the foetal adrenal glands reached a peak on day 19 of gestation. At every stage of gestation, the level of corticosterone in the maternal plasma was higher than that in the foetus. Changes in the concentration of aldosterone in the foetal plasma and adrenal glands were similar and characterized by peak values at birth. In the mother during the last 4 days of pregnancy, the level of aldosterone in the plasma was higher than in non-pregnant mice, but lower than that in the foetus.
Abstract. Ovine corticotrophin-releasing factor (oCRF) (1 μg/kg) and arginine vasopressin (AVP) (1 μg/kg) were injected iv in sheep, both separately and in combination. Plasma levels of immunoreactive ACTH (IRACTH), cortisol, and aldosterone were measured for 3 h after the injections. Mean levels before injections were 8 ± 4 pmol/l for ACTH, 7 ± 3 nmol/l for cortisol, and 28 ± 9 pmol/l for aldosterone. CRF caused a rapid rise in IR-ACTH and a peak level of 125 ± 52 pmol/l was obtained 15 min after injection. Highest values for cortisol and aldosterone levels were 40 ± 9 nmol/l and 64 ± 13 pmol/l, respectively, 30 min after injection. AVP also increased IR-ACTH (maximum level: 202 ± 77 pmol/l at 5 min) and aldosterone (128 ± 36 pmol/l at 15 min), whereas the cortisol increase was lower than after CRF. Simultaneous injection of CRF and AVP produced an addition of the IR-ACTH response (295 ± 82 pmol/l at 15 min), but the changes in cortisol levels were similar to those obtained after CRF alone and those in aldosterone levels resembled those induced by AVP alone. Plasma Na and K, osmolality, and plasma renin activity (PRA) were not modified by either CRF or AVP. It is suggested that the increase in aldosterone levels after CRF could be mediated by ACTH and that after AVP by an IR-ACTH peptide with less effect on cortisol secretion.
SUMMARY Concentrations of cortisol and corticosterone in the plasma and adrenal glands of male and female guinea-pigs were estimated throughout the first postnatal day and thereafter at intervals up to 3 weeks of age. In the guinea-pig, the basal level of cortisol secretion is established more slowly than in other species. The concentration of plasma cortisol is very high at birth, with a marked fall between days 1 and 10 post partum and then a steady level from day 10 to 20, the time of weaning. At day 10 the values for plasma cortisol and corticosterone approach the lower ones found in the adult. There were peaks in the amounts of corticosteroids found in the adrenal gland at 50 h, 4 and 7 days and these may have been due to increased hormonal synthesis between days 2 and 8.
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