Diurnal rhythms of pinealocyte ultrastructure, pineal serotonin content and plasma melatonin level in the domestic pig (original) (raw)
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2000
OBJECTIVES: Results of the majority of studies have revealed that diurnal changes in circulating melatonin level in the domestic pig differ from the typical patterns observed in other species. The aim of the present investigation was to study the effect of continuous darkness and continuous illumination on plasma melatonin in the pig. MATERIAL AND METHODS: The study was performed on three groups of immature gilts. The first group was kept under 14hrs light:10hrs dark cycle (500 lx of fluorescent light during photophase), the second group-under continuous illumination (500 lx of fluorescent light) and the third group-under red light with intensity below 1 lx, which was considered as darkness. The pigs were maintained nine days under above reported conditions and then plasma melatonin was monitored during five consecutive days. RESULTS: The diurnal changes in plasma melatonin concentration with increased levels during scotophases were observed in gilts kept under light:dark cycle, but...
Neuroscience Letters, 1987
Castrated male and intact female pigs were kept under natural photoperiodic and temperature condi tions and were killed over a 24 h period in either May (under long days) or in December (under short days). Neither the pineal norepinephrine (NE) concentration nor the melatonin content rose at night: like wise, neither the activities of N-acetyltransferase (NAT) nor hydroxyindole-O-methyltransferasc (HIOMT) increased during darkness. In May pineal melatonin content actually decreased (P<0.05) at night while in December NAT activity fell (P < 0.05) at night. Daytime levels of each of these variables were equivalent to those measured in other species. The absence of a nocturnal increase in pineal melato nin production in either Mayor December raises the possibility that pineal melatonin may be involved in regulating seasonal breeding in the pig in a manner different from other mammals. Alternatively, pineal melatonin production may be unrelated to seasonal reproduction in the pig. Few reports have examined levels of melatonin in the blood of the wild boar and domestic pig. Kennaway et al. [8] measured melatonin in the plasma of one boar and found that the midnight level was about 3 times higher than the midday value. The photoperiodic conditions under which the boar was kept were not specified. Accord ing to McConnell and Ellendorff [10], the plasma melatonin profile in domestic adult German Landrace sows is determined by the photoperiod environment to which the animals are exposed. Thus, under photoperiodic conditions of LD 12: 12 they found that 3 of 4 sows exhibited a nighttime rise in plasma melatonin (the increase ranged from 2 to 5-fold). However, when the animals were shifted to a summer photoperiod,
Journal of Pineal Research, 1989
The ontogeny of diurnal rhythm patterns in the pineal and serum levels of melatonin, serotonin, and N-acetylserotonin was studied in Syrian hamsters (Mesocricetus uurutus) from birth to adulthood. The pineal and blood specimens were collected at 1100 h and 0200 h, and the compounds were measured by radioimmunoassay (RIA) procedures. Pineal melatonin and serotonin did not show any circadian rhythm at day 5 of postnatal age. At this age N-acetylserotonin was undetectable in the light phase but became manifest at night. By 10 days of age pineal serotonin registered an established rhythm pattern, with a higher level during the day. The occurrence of circadian rhythm in pineal melatonin was delayed and manifested first at 25 days of age. At this age, the first detectable daytime level of N-acetylserotonin also occurred. Circadian rhythm in serum melatonin was also established at this age. The serum serotonin did not evince any rhythm pattern throughout the observation period, except at day 17 of postnatal age. The massive concentration of daytime serotonin in the pineal was not reflected in the circulatory system. For serum N-acetylserotonin there was no discernable day-night rhythm in all age groups, except at 25 days of age. The results show that the timing of the appearance of various compounds in the neonatal pineal is variable; the release of the substances does not always reflect their synthesis; the ontogenesis of circadian rhythm is a part of the maturational process; and 25 days of age is a rather critical time in development.
2014
This study characterizes the diurnal profiles of ten melatonin synthesis-related indoles, the quantitative relations between these compounds, and daily variations in the contents of catecholamines and their metabolites in the domestic duck pineal organ. Fourteen-week-old birds, which were reared under a 12L:12D cycle, were killed at two-hour intervals. The indole contents were measured using HPLC with fluorescence detection, whereas the levels of catecholamines and their metabolites were measured using HPLC with electrochemical detection. All indole contents, except for tryptophan, showed significant diurnal variations. The 5-hydroxytryptophan level was approximately two-fold higher during the scotophase than during the photophase. The serotonin content increased during the first half of the photophase, remained elevated for approximately 10 h and then rapidly decreased in the middle of the scotophase. N-acetylserotonin showed the most prominent changes, with a more than 15-fold increase at night. The melatonin cycle demonstrated only an approximately 5-fold difference between the peak and nadir. The 5-methoxytryptamine content was markedly elevated during the scotophase. The 5-hydroxyindole acetic acid, 5-hydroxytryptophol, 5-methoxyindole acetic acid and 5-methoxytryptophol profiles were analogous to the serotonin rhythm. The norepinephrine and dopamine contents showed no significant changes. The DOPA, DOPAC and homovanillic acid levels were higher during the scotophase than during the photophase. Vanillylmandelic acid showed the opposite rhythm, with an elevated level during the daytime.
Brain Research, 1989
A circadian rhythm in acid phosphatase and hexosaminidase was found in adult male hamsters exposed to a long photoperiod (14:10 h light/dark [LD]; lights on 06.00 h) and killed at 08.00, 14.00, 20.00, 02.00, 04.00, 05.50 and 0.615 h. Hexosaminidase and beta-glucuronidase activity at 02.00, 04.00 and 05.50 h (values pooled for these times before lights on) were significantly elevated compared to enzyme activity at 06.15 and 08.00 h (pooled values after lights on), suggesting a fall in activity associated with lights on. Hypogonadism was induced in female Syrian hamsters by exposure to a short photoperiod (10:14 h LD) until a majority of them were vaginally acyclic. Pineal lysosomal enzyme activities (acid phosphatase, beta-glucuronidase, hexosaminidase, alpha-arabinosidase and beta-galactosidase) were significantly elevated in short photoperiod-exposed animals compared to animals in 14:10 LD, when measured near the middle of the light phase. In the third experiment, castrated animals were used to determine if lowered androgen levels might also affect pineal lysosomal enzyme activity. The results indicated that light phase beta-glucuronidase, hexosaminidase and beta-glucosidase activities were lower in castrated males compared to their intact controls. In summary, these results demonstrate that (1) lysosomal enzyme activity is present in the Syrian hamster pineal, (2) changes can be observed which suggest involvement of this activity in pineal function and, (3) a circadian rhythm in enzyme activity is present with peak activity occurring during the night. In the short photoperiod and castration experiments, the changes in lysosomal enzyme activity could reflect either a hormonal manipulation or a change in circadian regulation of enzyme activity.(ABSTRACT TRUNCATED AT 250 WORDS)
Journal of Pineal Research, 1986
Norepinephrine (NE, 10−6 M) stimulated melatonin accumulation in the incubation medium of rat (but not Syrian hamster) pineals taken at the end of the light phase. However, NE elevated melatonin accumulation in the medium of pineals taken after 20 min of light exposure of animals of either species at 6 h into the 10-h dark phase. A dose response to 10−7−10−5 M NE was observed in both the medium and pineals upon incubation of pineals taken from rats at 4 h into the light phase and from hamsters after 20 min light exposure at 6 h into the dark phase. Approximately 95% of the melatonin present was in the medium. The incubation time was 4 h in all cases. Subcutaneous injection of 1 μg/g NE (either at the end of the light phase or after 30 min of light at 6 h into the dark phase) did not stimulate in vivo Syrian hamster pineal melatonin content determined 1 or 2 h after injection, whether the hamsters were placed in light or darkness after the injection. However, after 30 min of light beginning at 6 h into dark, injection of 5 μg/g desipramine (DMI, a blocker of catecholamine uptake into nerve endings) allowed a dramatic hamster pineal melatonin response to additional injection of 1 μg/g NE, observed at 1 and 2 h in light after injection. A small effect of DMI alone was seen. DMI also potentiated the effect of NE (each 10−6 M) on melatonin accumulation in the medium of incubated hamster pineals taken after a short light exposure at night. No significant stimulatory effect of NE and/ or DMI was seen in vivo or in vitro near the middle of the light phase. Measurement of melatonin in the incubation medium is a useful method for studying pineal function. The Syrian hamster pineal has rhythm of sensitivity to NE (sensitivity evident at night) and even at night is protected by neuronal uptake from circulating NE-induced stimulation of melatonin production. NE appears to be the neurotransmitter for stimulation of pineal melatonin production in the Syrian hamster. The sensitivity rhythm and uptake protection might provide specificity of control of the nightly melatonin signal by reducing the chance of a melatonin response during the day or a response to circulating catecholamines from general sympathetic stimuli.
Neuroscience Letters, 1994
Day-and nighttime content of catecholamines, serotonin and their metabolites were measured in the pineal gland of Sprague-Dawley rats and Djungarian hamsters. In addition, monoamine turnover rates were determined in the hamster pineal gland following administration of ~-methyl-p-tyrosine. Animals were decapitated in the middle of the light or dark period, respectively, and pineal tissue was analysed by high performance liquid chromatography with electrochemical detection. Pineals of both species exhibited day/night-differences in serotonin, 5-hydroxyindole-3-acetic acid and dopamine content. The hamster pineal gland further showed day/night differences in its content of epinephrine and 3-methoxy-4-hydroxyphenylethyleneglycol. The dopamine turnover rate was augmented at night, while norepinephrine turnover was constant. Immunohistochemical incubations of pineal paraffine sections showed fibers and terminals stained by antisera to tyrosine-hydroxylase (TH) and dopamine-fl-hydroxylase, and a few perikarya-like structures exhibiting TH immunoreactivity. The results support the view that dopamine, rather than only functioning as a norepinephrine precursor, is actively involved in the control of melatonin synthesis.
Journal of Pineal Research, 1984
The nighttime rise in pineal melatonin levels can he blocked by administration of the 0-adrenergic receptor antagonist, propranolol, in both Syrian hamsters and rats. Although the administration of P-adrenergic receptor agonists such as norepinephrine or isoproterenol stimulates pineal melatonin production in the rat, these drugs are without apparent effect on indole production in the Syrian hamster. To determine whether this lack of stimulatory effect in the Syrian hamster is characteristic of this species, a comparison of the effects of norepinephrine and isoproterenol o n pineal serotonin N-acetykransferase activity and melatonin content was conducted. In contrast to their lack of effect in the Syrian hamster, norepinephrine and isoproterenol stimulated pineal serotonin N-acetyltransferase activity and melatonin content in the Djungarian hamster. Hourly injection of norepinephrine during a continuation of light into the normal dark period stimulated increases in the activity of serotonin N-acetyltransferase and melatonin content in the Djungarian hamster but was without effect o n these pineal parameters in the Syrian hamster.