Twenty-four hour rhythm of plasma prolactin in female rabbit pups. Correlation with hypothalamic and adenohypophysial dopamine, serotonin, gamma-aminobutyric acid and taurine content

Lactation in the rabbit is a nocturnal activity, extremely short and regular, that can be a strong synchronizer for the development of circadian rhythmicity in the pups. In the present study, 24-h rhythmicity of plasma prolactin and median eminence and anterior pituitary content of dopamine (DA), serotonin (5HT), gamma-aminobutyric acid (GABA) and taurine were examined in 11 days old female pups kept under 16 h light:8 h dark photoperiods (lights on at 08:00 h). Groups of six to seven female rabbit pups were killed by decapitation at six different time points throughout a 24-h cycle, starting at 09:00 h. Plasma prolactin levels changed significantly throughout the day, showing two peaks, one at first half of rest span (at 13:00 h) and another one at the beginning of the scotophase (at 01:00 h), just preceding doe visit. Median eminence DA content changed in a bimodal way as a function of time of day, displaying two maxima, at the beginning of the rest span and of the activity phase. Median eminence DA and plasma prolactin correlated significantly in an inverse way. Two maxima in median eminence 5HT levels were found, about 4 h in advance to the prolactin peaks. Circulating prolactin correlated inversely with median eminence 5HT content and directly with adenohypophysial 5HT content. Median eminence GABA content reached its maximum at the beginning of the scotophase and correlated significantly with plasma prolactin concentration. A positive correlation between plasma prolactin and adenohypophysial taurine content was observed. These results show that the circadian rhythmicity in prolactin secretory mechanisms in female rabbit pups develops during the early neonatal life.     

Influence of short days on diurnal patterns of serum gonadotrophins and prolactin concentrations in the male Djungarian hamster, Phodopus sungorus

Exposure to short days for 8 weeks suppressed mean serum concentrations of FSH, LH and prolactin compared to hamsters kept in long days. Hamsters in short days exhibited a small afternoon rise in serum FSH, but serum LH and prolactin did not exhibit 24-h variations. In hamsters under long days, a late afternoon-early evening increase was evident for circulating prolactin but none was detected for the gonadotrophins. A fall in testes weights rapidly occurred by 14-28 days after transfer to short days. This was accompanied or preceded by a decrease in serum gonadotrophins and prolactin. Reductions in serum FSH and LH occurred in short days in blood samples taken at 09:00 h or 15:00 h. However, the nadir in serum prolactin was first achieved (at 09:00 h), at least 7 days before that at 15:00 h (i.e. Day 14 versus Day 21 of short photoperiod, respectively). The ability to secrete gonadotrophins was further tested in hamsters that had undergone gonadal regression. Castration of hamsters exposed to short days or injected with melatonin in the afternoon, a treatment known to mimic short day effects, induced a 3- to 5-fold increase in serum gonadotrophins. However, this rise in FSH and LH was significantly attenuated compared to the 10-fold response in controls in long days. The results indicate that gonadal involution induced by short days may be mediated by the decline in mean gonadotrophin secretion which, in turn, is regulated by responsiveness to steroids, as well as a mechanism independent of the negative feedback action of gonadal steroids.     

Rhythmic and Nonrhythmic Modes of Anterior Pituitary Gland Secretion

Because of confounding effects of subject-specific and hormone-specific metabolic clearance, the nature of anterior pituitary secretory events in vivo is difficult to ascertain. We review an approach to this problem, in which deconvolu-tion analysis is used to dissect the underlying secretory behavior of an endocrine gland quantitatively from available serial plasma hormone concentration measurements assuming one- or two-compartment elimination kinetics. This analytical tool allows one to ask the following physiological questions: (a) does the anterior pituitary gland secrete exclusively in randomly dispersed bursts, and/or does a tonic (constitutive) mode of interburst hormone secretion exist? and (b) what secretory mechanisms generate the circadian or nyctohemeral rhythms in blood concentrations of pituitary hormones? Waveform-independent deconvolution analysis of 24-h serum hormone concentration profiles of immunoreactive growth hormone (GH), luteinizing hormone (LH), follicle-stimulating hormone (FSH), prolactin, thyroid-stimulating hormone (TSH), adrenocorticotropic hormone (ACTH), and β-endorphin in normal men sampled every 10 min showed that (a) anterior pituitary gland secretion in vivo occurs in an exclusively burstlike mode for all hormones except TSH and prolactin (for the latter two, a mixed burst and basal mode pertains); (b) significant nyctohemeral regulation of secretory burst frequency alone is not demonstrable for any hormone; (c) prominent 24-h variations in secretory-burst amplitude alone are delineated for ACTH and LH; (d) TSH, GH, and β-endorphin are both frequency and amplitude controlled; (e) prolactin manifests 24-h rhythms in both secretory-burst amplitude and nadir secretory rates; (f) no significant diurnal variations occur in FSH secretory parameters; and (g) a fixed hormone half-life yields good fits of the 24-h serum hormone concentration series, which indicates that there is no need to introduce diurnal variations in hormone half-lives. In summary, the normal human anterior pituitary gland appears to release its various (glyco)protein hormones via intermittent secretory episodes that are apparently unassociated with significant basal hormone secretion, except in the case of TSH and prolactin. Hormone-specific amplitude and/or frequency control of secretory burst activity over 24 h provides the mechanistic basis for the classically recognized nyctohemeral rhythms in plasma concentrations of adenohypophyseal hormones in the human.     

Rhythmic and Nonrhythmic Modes of Anterior Pituitary Gland Secretion

Because of confounding effects of subject-specific and hormone-specific metabolic clearance, the nature of anterior pituitary secretory events in vivo is difficult to ascertain. We review an approach to this problem, in which deconvolu-tion analysis is used to dissect the underlying secretory behavior of an endocrine gland quantitatively from available serial plasma hormone concentration measurements assuming one- or two-compartment elimination kinetics. This analytical tool allows one to ask the following physiological questions: (a) does the anterior pituitary gland secrete exclusively in randomly dispersed bursts, and/or does a tonic (constitutive) mode of interburst hormone secretion exist? and (b) what secretory mechanisms generate the circadian or nyctohemeral rhythms in blood concentrations of pituitary hormones? Waveform-independent deconvolution analysis of 24-h serum hormone concentration profiles of immunoreactive growth hormone (GH), luteinizing hormone (LH), follicle-stimulating hormone (FSH), prolactin, thyroid-stimulating hormone (TSH), adrenocorticotropic hormone (ACTH), and β-endorphin in normal men sampled every 10 min showed that (a) anterior pituitary gland secretion in vivo occurs in an exclusively burstlike mode for all hormones except TSH and prolactin (for the latter two, a mixed burst and basal mode pertains); (b) significant nyctohemeral regulation of secretory burst frequency alone is not demonstrable for any hormone; (c) prominent 24-h variations in secretory-burst amplitude alone are delineated for ACTH and LH; (d) TSH, GH, and β-endorphin are both frequency and amplitude controlled; (e) prolactin manifests 24-h rhythms in both secretory-burst amplitude and nadir secretory rates; (f) no significant diurnal variations occur in FSH secretory parameters; and (g) a fixed hormone half-life yields good fits of the 24-h serum hormone concentration series, which indicates that there is no need to introduce diurnal variations in hormone half-lives. In summary, the normal human anterior pituitary gland appears to release its various (glyco)protein hormones via intermittent secretory episodes that are apparently unassociated with significant basal hormone secretion, except in the case of TSH and prolactin. Hormone-specific amplitude and/or frequency control of secretory burst activity over 24 h provides the mechanistic basis for the classically recognized nyctohemeral rhythms in plasma concentrations of adenohypophyseal hormones in the human.     

Effect of social isolation on 24-h pattern of stress hormones and leptin in rats

This work analyzes the effect of social isolation of growing male rats on 24-h changes of plasma prolactin, growth hormone, ACTH and leptin, and on plasma and adrenal corticosterone concentrations. At 35 days of life, rats were either individually caged or kept in groups (6-8 animals per cage) under a 12:12 h light/dark schedule (lights on at 08:00 h). A significant arrest of body weight gain regardless of unchanged daily food intake was found in isolated rats after 2 weeks of isolation. On the 4th week, rats were killed at 6 time intervals during a 24-h cycle, beginning at 09:00 h. In isolated rats the 24-h pattern of all parameters tested became distorted, as assessed by Cosinor analysis. When analyzed as a main factor in a factorial analysis of variance, isolation decreased plasma prolactin and growth hormone, increased plasma leptin and corticosterone while decreased adrenal corticosterone. Plasma corticosterone levels correlated significantly with plasma ACTH and with adrenal corticosterone levels in group-caged rats only. These changes can be attributed to an effect of mild stress on the endogenous clock that modulates the circadian hormone release.     

The effects of a sudden decrease or increase in daylength on prolactin secretion in the ram

Six adult Soay rams were preconditioned to an artificial lighting regimen of alternating 4-month periods of long (16L:8D) and short days (8L:16D) for at least 10 months before blood samples were collected at hourly intervals for 24 h at various times. The abrupt change from long to short days resulted in a progressive decrease in plasma levels of prolactin, while that from short to long days had the reverse effect; the first response to the light changes was rapid, beginning within 6 days. During the periods of high secretion there was a 24-h cycle in plasma prolactin concentrations, with a peak in both the early dark and early light phases of each day. Changes in the relative magnitude of these peaks were observed in relation to the long-term alteration in prolactin secretion. Plasma levels of FSH were also measured and a close inverse relationship between gonadotrophin and prolactin secretion was observed.     

Twenty-four-Hour Rhythms of Serum Acth,Prolactin, Growth Hormone,and Thyroid-Stimulating Hormone,and of Median-Eminence Norepinephrine,Dopamine, and Serotonin,in Rats Injected with Freund's Adjuvant

The effect of Freund's adjuvant injection on 24-h variation of circulating ACTH, prolactin, growth hormone (GH), and thyroid-stimulating hormone (TSH) levels, and of norepinephrine (NE) content, and dopamine (DA) and serotonin (5HT) turnover in median eminence, was examined in adult rats kept under light between 0800 and 2000 h daily. Groups of 6–10 animals Freund's complete adjuvant or its vehicle at 1 lOOh 3 days before sacrifice and were killed by decapitation at six different time intervals throughout a 24-h cycle. In rats injected with adjuvant's vehicle, serum ACTH and prolactin exhibited peak values around the light-dark transition (p < 0.0001 and < 0.04, respectively), while the maximum in TSH was found in the late afternoon (p < 0.0001, one-way ANOVA). GH levels did not vary on a 24-h basis. In Freund's adjuvant-injected rats, 24-h variations of TSH levels became blunted, while 24-h variations of prolactin and ACTH persisted. Freund's adjuvant augmented serum ACTH and prolactin levels, and decreased GH and TSH levels (p < 0.0007, factorial ANOVA). Median-eminence NE content, and turnover of DA, assessed by measuring dihydroxyphenylacetic acid, DOPAC/DA ratio, and of 5HT, assessed by measuring 5-hydroxyindoleacetic acid, HIAA/5HT ratio, varied on a 24-h basis in rats receiving adjuvant's vehicle (p < 0.02). Median-eminence NE content attained its maximum at 1600–2000 h, while maxima in DOPA/DA and HIAA/5HT ratios occurred at 0400 h. Injection with Freund's adjuvant reduced the amplitude of the daily variation of NE content, shifted the maximum of DOPAC/DA ratio toward the light-dark transition, and blunted the daily variation in HIAA/5HT ratio in median eminence. The administration at 1200 of the immunosuppressant drug cyclosporine (5 mg/kg, 5 days) restored the augmented ACTH and prolactin levels (p < 0.0001, factorial ANOVA) and depressed GH and TSH levels (p < 0.02) found in Freund's adjuvant-injected rats. Cyclosporine was also effective in restoring 24-h rhythmicity of serum ACTH and TSH, but not of prolactin, levels. Cyclosporine did not modify the effect of Freund's adjuvant on time-of-day changes of median-eminence NE content, but it was effective in counteracting the changes of DA and 5HT turnover found after immunization. The results are compatible with a significant effect of immune-mediated inflammatory response at an early phase after Freund's adjuvant injection on ACTH, GH, prolactin, and TSH release, which is partially sensitive to immunosuppression by cyclosporine. (Chronobiology International, 14(3), 253–265, 1997)     

Dissociation between increased growth hormone and prolactin secretion during the morning hours of early pregnancy in the rat

We investigated whether serum growth hormone (GH) concentration changes in association with the rise in serum prolactin (PRL) concentration known to occur during the early morning hours in the pregnant rat. Animals were kept in a room with the lights on from 0500 to 1900 hours (hr) daily and decapitated for the collection of trunk blood at 2200 or 2400 hr on Day 6 of pregnancy or at 0200, 0400, 0800 or 1000 hr on Day 6 of pregnancy. Serum GH concentration rose more than 4-fold from low levels at 2200 and 2400 hr to higher levels at 0400 and 0800 hr and then declined by 1000 hr. Serum prolactin (PRL) concentration followed a similar pattern except that it returned to low levels earlier, by 0800 hr. Serum luteinizing hormone, follicle-stimulating hormone and thyroid-stimulating hormone concentrations showed no significant changes. Serum GH levels at 0800 hr in pregnant rats were higher than those observed in cyclic rats (13 time periods sampled). The results demonstrate that serum GH concentration is elevated during a circumscribed period in the 6- to 7-day pregnant rat. The time of onset of the rise is similar to that for serum PRL but the elevation in GH levels persists longer than that for PRL.     

Detailed profile of prolactin secretion in the immature female rat: evidence for the existence of an ultradian rhythm

The detailed profile of prolactin (PRL) secretion in 22-24 and 29-31 days old female rats was investigated by serial blood sampling through an intracardiac cannula at 15-min intervals for each of the 9 or 10-h periods beginning at 09.00 or 10.00 and 22.00 h. By analysis of the power spectrum and the least squares method the time series of PRL concentrations which were measured by RIA were found to have approximately a 3-h period ultradian rhythm in either sampling period of both the 22-24 and 29-31 days old rats. The peak times calculated based on the acrophase estimated through the calculation of periodicity were concentrated around 12.00, 15.00 and 18.00 h for the sampling period 10.00-19.00, and 24.00, 03.00 and 06.00 h for the sampling period 22.00-07.00 h. However, in more than half of the animals at 22-24 days of age, one secretory episode around 12.00 h, and two secretory episodes around 24.00 and 03.00 h had markedly small amplitudes, making the remaining secretory episodes distinct diurnal and nocturnal surges, respectively. In the animals at 29-31 days of age, the amplitudes of the PRL episodes occurring around 12.00 h were markedly small, making the remaining two episodes as diurnal surges, whereas the amplitudes of PRL secretory episodes during the period 22.00-07.00 h were analogous to each other. These findings indicate that the semicircadian rhythm of PRL secretion is established on the basis of PRL secretion with the 3.0-h period ultradian rhythm.     

Effects of withholding food for 0-72 h on mating, pregnancy rate and pituitary function in female rats

Food was withheld from female rats for 0-72 h at various stages of the oestrous cycle. Withholding food for periods of 24 h ending at 12:00 h on the day of pro-oestrus reduced the mating rate from 61 to 25% (P less than 0.05) but not the pregnancy rate of those rats that mated. Fasting for 24 h ending at 18:00 h on the day of pro-oestrus reduced the pregnancy rate from 82 to 18% (P less than 0.05) without affecting the mating rate and a 48-h fast starting at 12:00 h on the day of pro-oestrus reduced the pregnancy rate from 82 to 25% (P less than 0.05). Withholding food for 23 h ending at 17:00 h on the day of pro-oestrus prevented the LH and prolactin surges normally present at 17:00 h on this day. The treatments had no apparent effect on the ability of the adenohypophysis to release LH in response to injections of GnRH. When ovariectomized female rats fasted for 0-72 h and given 2 injections of oestradiol dibenzoate to test the ability of the hypothalamus to respond to an increasing plasma oestradiol concentration by stimulating the release of LH, a fast for 24 h reduced and a fast for 72 h completely prevented LH release.     

Suckling-induced prolactin release potentiates mifepristone-induced lactogenesis in pregnant rats

Suckling, starting at 19:00 h on Day 18 of pregnancy, induced a significant increase in serum prolactin concentration at 20:00 h on Day 19 of pregnancy, but no increase in mammary gland casein or lactose content. Mifepristone (2 mg/kg) injection at 08:00 h on Day 19 of pregnancy induced significant increases in casein, but not in lactose, 24 h after administration. Mifepristone alone did not induce prolactin secretion, indicating that lactogenesis was induced by placental lactogen in the absence of progesterone action. When mifepristone was injected into suckling rats, serum prolactin concentrations were higher than in the untreated suckling rats. Casein in these rats increased significantly 12 h after mifepristone administration and lactose at 24 h after. If the suckling mifepristone-treated rats were given two injections of bromocriptine (1.5 mg/kg) at 12:00 h on Days 18 and 19 of pregnancy, serum prolactin concentrations were not increased by suckling, but casein and lactose concentrations in the mammary gland showed values similar to those obtained in the mifepristone-treated non-suckling rats. Mifepristone can therefore potentiate suckling-induced prolactin release in pregnant rats, demonstrating a direct central inhibitory action of progesterone on prolactin secretion. This suckling-induced prolactin secretion, unable to induce casein or lactose synthesis in the presence of progesterone, enhanced significantly synthesis of these milk components in the absence of progesterone action (rats treated with mifepristone). Fatty acid synthase, which is stimulated by the suckling stimulus in lactating rats, was not modified by mifepristone or suckling in pregnant rats.     

Ontogeny of the opioidergic regulation of LH and prolactin secretion in lactating sows. II: Interaction between suckling and morphine administration

Administration of morphine to ten suckled and nine zero-weaned (piglets removed immediately after farrowing) sows was used to investigate the apparent absence of opioid regulation of LH and prolactin secretion in early lactation. Blood samples were collected at 10 min intervals at 24-30, 48-54, 72-78 h post partum, and for a 12 h period from 08:00 to 20:00 on day 10 after farrowing. Morphine (0.1 mg kg-1) was administered as three i.v. bolus injections at intervals of 1 h during the last 3 h of each of the 6 h sampling periods, and at 6, 7 and 8 h after the beginning of sampling on day 10. There were significant (P < 0.001) group (zero-weaned versus suckled), time and morphine effects on LH secretion. Plasma LH concentrations increased (P < 0.001) within 48 h of farrowing in zero-weaned sows. Long-term trends of an increase in mean plasma LH in the sampling periods before treatment were attenuated in both groups by morphine treatment. Morphine also significantly inhibited (P < 0.05) prolactin secretion in suckled sows. In zero-weaned sows, plasma prolactin was already low at the start of sampling and did not change with time or in response to morphine treatment. Therefore, the inability to demonstrate an opioidergic involvement in the suckling-induced inhibition of LH secretion during the early post-partum period in sows is not due to a lack of opioid receptors. Furthermore, in suckled sows, morphine is stimulatory to systems that have an inhibitory effect on prolactin secretion.     

Twenty-four-hour profiles of prolactin and testosterone in ram lambs exposed to skeleton photoperiods consisting of various light pulses

Individual groups of 6 ram lambs were housed within a controlled environment and exposed to one of 6 photoperiod schedules. Groups I and II received 8 (short day) or 16 (long day) h of continuous light, respectively; Groups III, IV and V were exposed to asymmetrical skeleton photoperiods consisting of a main light period of 7 h followed 9 h later by a light pulse of 1 h, 15 min or 1 min duration, respectively, and Group VI was exposed to a symmetrical skeleton photoperiod consisting of two 1-h light pulses positioned 16 h apart. After 4 weeks of treatment serum concentrations of prolactin and testosterone were measured over 24 h. Long-day responses characteristic of the 16L:8D photoperiod (i.e. elevated prolactin and reduced testosterone) were obtained in each of the asymmetric light-pulse treatment groups, but whereas prolactin was elevated over the full 24 h in lambs exposed to 16L:8D, two prominent nocturnal prolactin releases were largely responsible for the high 24-h mean prolactin values in Groups III, IV and V. Reduced serum testosterone in these same groups could not be attributed to a diurnal pattern of secretion but was associated with an overall decrease in testosterone pulse frequency. Prolactin and testosterone levels in Group IV were intermediate between those observed in lambs exposed to 8 or 16 h of light. In summary, light pulses of short duration (1 min) positioned at 17 h after dawn can produce endocrine changes in lambs similar to those observed in lambs exposed to 16 h of continuous light.     

Melatonin suppression of mammary growth in heifers.

The objective of this study was to determine if melatonin fed in the middle of a long day (16L:8D) reduces mammary parenchymal growth and reduces serum prolactin in prepubertal heifers, thereby mimicking the effects of a short photoperiod. Sixteen prepubertal Holstein heifers were maintained under natural May to August environmental conditions of Michigan plus supplemental lighting to provide a photoperiod of 16L:8D (lights-on 0600-2200 h). At the midpoint of each day, 8 animals were individually fed melatonin (4 mg/100 kg body weight) and 8 were individually fed vehicle (95% ethanol) in 200 g of a grain concentrate mixture. Blood samples were collected at 1-h intervals for 25 h beginning on Day 67. On Day 70 or 72 heifers were slaughtered. No differences were found in body weight gain between melatonin- and vehicle-fed animals. Parenchyma of mammary glands from melatonin-fed heifers had a lower content (24%) and concentration (17%) of deoxyribonucleic acid but a greater concentration of triglyceride (24%) than that of controls. Mean serum prolactin concentration was 27% lower in melatonin-fed animals. In both groups, serum concentrations of prolactin varied throughout the day, with greatest values occurring between 1100 and 1800 h in positive association with changes in ambient temperature. We conclude that melatonin orally administered to prepubertal heifers reduced mammary parenchymal growth and concentration of prolactin in serum. The data support the hypothesis that melatonin mimics photoperiodic effects on mammary growth and prolactin secretion in cattle.     

Circadian rhythm of blood pressure in congestive heart failure and effects of ACE inhibitors.

In 33 patients with heart failure (NYHA II-III), the 24-h blood pressure rhythm was examined before and after the titration period of two ACE inhibitors. Blood pressure was measured by the oscillometric method using the blood pressure monitor 90202 from SpaceLabs, Inc. The measurements were taken from 06:00 to 22:00 h every 20 min and from 22:00 to 06:00 h every hour. Patients were randomized to therapy with either captopril (group 1, n = 17) or enalapril (group 2, n = 16). The average daily dosage of captopril was 41 +/- 3 mg given in three divided doses (08:00, 12:00, and 17:00 h). The mean dose of enalapril was 8 +/- 1 mg once daily (08:00 h). Serum electrolytes, serum creatinine, and plasma renin activity were measured before and during therapy with both ACE inhibitors. Twenty-four-hour blood pressure measurements were taken before and on the fifth day of treatment with ACE inhibitors. Both groups were not different with respect to the degree of heart failure, the concomitant medication, and the 24-h profiles of blood pressure and heart rate before initiation of ACE inhibition. The 24-h blood pressure values on day 5 were consistently below the pretreatment values (p less than 0.005) in both groups. Both groups did not differ significantly during ACE inhibition in their 24-h blood pressure and heart rate profiles. In both groups, the mesor of the systolic and diastolic blood pressure decreased significantly by the same degree (by 4.7/5.1 mmg Hg in group 1 and 6.4/4.1 mm Hg in group 2). The systolic/diastolic blood pressure amplitude decreased slightly in both groups. Before treatment, serum sodium, potassium, and creatinine were within the normal range. The increase in potassium (0.5 +/- 0.1 mmol/L) reached statistical significance (p less than 0.01) only in the captopril group, whereas it was not significant in the enalapril group (0.1 +/- 0.1 mmol/L). Serum creatinine was not significantly altered by both ACE inhibitors. No relationship could be found between the changes in serum potassium or creatinine and the mean of the 24-h blood pressure values during ACE inhibition. Captopril and enalapril showed comparable blood pressure profiles and similar effects on renal function at the end of the titration on day 5. It can therefore be concluded that the effects on blood pressure rhythm and renal function are similar with a single daily dose of enalapril compared to captopril given three times daily.     

Time-Dependent Variations in the Coagulation Factors II,VII, IX,and X in Young and Elderly Volunteers

The existence of circadian (24-h) rhythms in the coagulation activity of vitamin K-dependent coagulation factors (Factors II, VII, IX, and X) were studied in six healthy young (18–30 years old) and six healthy elderly (69–75 years old) men. Aliquots of 5 ml of blood were obtained from each of the 12 subjects at six different time points over a 24-h period. Factors II, VII, and X were quantified by the prothrombin time test, whereas Factor IX was analyzed by the activated partial thromboplastin time test. Significant circadian variations were found for Factors II and VII in both age groups. The peak and trough values for Factor II were observed at 16: 00 and 00: 00 in young men and at 12: 00 and 16: 00 in elderly men. The amplitude of the rhythmic variation of Factor II was 3.3 ± 1.0 and 4.2 ± 0.9% in young and elderly volunteers, respectively. For Factor VII, the highest values were found during the activity period (08: 00–16: 00), while the lowest values occurred at night (00: 00) for both groups of subjects. The amplitude of the rhythms was twice as large in the young (6.2 ± 2.3%) as in the elderly (3.7 ± 0.8%). The data suggest that age does not alter significantly the chronobiology of Factors II and VII.     

Time-Dependent Variations in the Coagulation Factors II, VII, IX, and X in Young and Elderly Volunteers

The existence of circadian (24-h) rhythms in the coagulation activity of vitamin K-dependent coagulation factors (Factors II, VII, IX, and X) were studied in six healthy young (18-30 years old) and six healthy elderly (69-75 years old) men. Aliquots of 5 ml of blood were obtained from each of the 12 subjects at six different time points over a 24-h period. Factors II, VII, and X were quantified by the prothrombin time test, whereas Factor IX was analyzed by the activated partial thromboplastin time test. Significant circadian variations were found for Factors II and VII in both age groups. The peak and trough values for Factor II were observed at 16: 00 and 00: 00 in young men and at 12: 00 and 16: 00 in elderly men. The amplitude of the rhythmic variation of Factor II was 3.3 ± 1.0 and 4.2 ± 0.9% in young and elderly volunteers, respectively. For Factor VII, the highest values were found during the activity period (08: 00-16: 00), while the lowest values occurred at night (00: 00) for both groups of subjects. The amplitude of the rhythms was twice as large in the young (6.2 ± 2.3%) as in the elderly (3.7 ± 0.8%). The data suggest that age does not alter significantly the chronobiology of Factors II and VII.     

Genistein-induced pituitary prolactin gene expression and prolactin release in ovariectomized ewes following a series of intracerebroventricular infusions

The aim of the study was to evaluate whether genistein, a phytoestrogen commonly present in feed plants, affects prolactin release and its gene expression in the pituitary gland. In the experimental model, genistein was infused into the third ventricle (IIIv) of the brain in ewes during the short-daylight period (November-December), when the physiological plasma level of prolactin is low. Animals were ovariectomized six weeks before the experiment, to remove the main source of endogenous estrogens, and three weeks later a stainless steel guide cannula was implanted into IIIv. Genistein (10 ng/100 microl/h, n=5) or vehicle (control, n=5) were infused in a series of four one-hour infusions at 30-min intervals (from 16:30 to 22:00). Plasma samples were collected at 15-min intervals from 14:00 to 22:00 through a catheter inserted into the jugular vein and after the experiment ewes were slaughtered. Northern blot analysis revealed that pituitary prolactin mRNA content increased significantly in response to genistein, compared to the vehicle-infused ewes (p<0.05). Prolactin concentration in plasma rose significantly during the periods of genistein infusion, as compared to the values found before infusion (p<0.05-p<0.01) as well as to the values of the concomitant periods in vehicle-infused ewes (p<0.001). Our results show an effective estrogenic action of genistein on prolactin synthesis and release in ovariectomized ewes that might in part be exerted at the central nervous system level.     

Temporal Synergism of Corticosterone and Prolactin in the Syrian Hamster, Mesocricetus auratus

To augment the limited work reported in the literature regarding testing of the hormonal temporal synergism hypothesis in Syrian hamsters (Joseph MM, Meier AH. Proc Soc Exp Biol Med. 1974;146:1150-5), a large experiment with female hamsters was conducted. Forty-eight received corticosterone at 18:00 h on January 21, 23, 25, 27, and 29 and ovine prolactin at one of six times of day beginning January 22 for 8 days; 36 received saline (at 18:00) and prolactin at one of the six times of day for 8 days; 35 received only prolactin at one of the six times of day for 8 days; and 16 received no injections. Twelve hamsters receiving corticosterone and prolactin and eight uninjected hamsters were on running wheels. The corticosterone and prolactin group not on wheels had a body weight gain and no circadian rhythm of weight gain, but did have circadian rhythms of response in organ weight, per 100 g of body weight, and in weights of fat pads and uteri. The corticosterone and prolactin group with access to running wheels gained in body weight and had larger ovaries and smaller fat pads. Hamsters receiving saline and prolactin had a body weight gain, but had no circadian rhythms of response in organ weights. The hamsters receiving only prolactin gained in body weight but had no rhythms of response, except for unexpected circadian rhythms in body weight gain and weights of fat pads. The uninjected hamsters had a modest weight gain. Most or all hamsters with access to running wheels freeran, and the corticosterone injections did not appear to synchronize the locomotor activity rhythms. In conclusion, corticosterone does interact with the injection time effect of prolactin on weights of fat pads, paired ovaries, and uteri. The mechanism of that effect, in terms of circadian rhythm theory, is unclear.     

Circadian rhythm characteristics of serum cortisol and dehydroepiandrosterone sulfate in healthy Chinese men aged 30 to 60 years. A cross-sectional study

The relation of adrenal function and aging has been the subject of intense interest in recent years. The circadian variations of plasma cortisol have been described in Caucasians, but little information is available on such hormone variations among the Chinese population, especially its changes with age. This study was, therefore, designed to examine the effects of age on the circadian variations of serum cortisol, dehydroepiandrosterone sulfate (DHEAS) and the molar ratio of cortisol/DHEAS in Chinese men, stratified by 10-year age-groups (i.e. men in their 30-60s, aged from 31 to 63 years old). Circadian variations of serum cortisol and DHEAS were documented at 2-h intervals from 8:00 to 22:00 and hourly from 22:00 to 8:00 in 26 healthy Chinese men. We found that the serum levels of both hormones showed a statistically significant circadian rhythmicity in all age-groups. The circadian pattern of serum cortisol was characterized by peaks (04:00-06:00) and troughs (18:00-24:00) occurring approximately 2h earlier than those usually reported in Caucasians. Aging did not significantly influence serum cortisol concentrations, but serum DHEAS levels declined significantly with age: subjects in their 60s had significantly lower levels, and their cortisol/DHEAS molar ratios were significantly higher than those in the younger age-groups.