Effects of melatonin administration and pinealectomy on the electroencephalogram of the chicken (Gallus domesticus) brain.

Melatonin, injected into chickens, lowers the frequency and increases the amplitude of the electroencephalogram (EEG) within 2 minutes. EEGs of chickens, 10–12 weeks of age, that had been pinealectomized when less than a week old, displayed fewer higher amplitude cycles, suggesting a long-term effect of pinealectomy on brain electrical activity. These results indicate that the pineal gland, perhaps through the action of melatonin, has an influence on brain function in birds.     

Decreased mitochondrial DNA copy number in the hippocampus and peripheral blood during opiate addiction is mediated by autophagy and can be salvaged by melatonin

Drug addiction is a chronic brain disease that is a serious social problem and causes enormous financial burden. Because mitochondrial abnormalities have been associated with opiate addiction, we examined the effect of morphine on mtDNA levels in rat and mouse models of addiction and in cultured cells. We found that mtDNA copy number was significantly reduced in the hippocampus and peripheral blood of morphine-addicted rats and mice compared with control animals. Concordantly, decreased mtDNA copy number and elevated mtDNA damage were observed in the peripheral blood from opiate-addicted patients, indicating detrimental effects of drug abuse and stress. In cultured rat pheochromocytoma (PC12) cells and mouse neurons, morphine treatment caused many mitochondrial defects, including a reduction in mtDNA copy number that was mediated by autophagy. Knockdown of the Atg7 gene was able to counteract the loss of mtDNA copy number induced by morphine. The mitochondria-targeted antioxidant melatonin restored mtDNA content and neuronal outgrowth and prevented the increase in autophagy upon morphine treatment. In mice, coadministration of melatonin with morphine ameliorated morphine-induced behavioral sensitization, analgesic tolerance and mtDNA content reduction. During drug withdrawal in opiate-addicted patients and improvement of protracted abstinence syndrome, we observed an increase of serum melatonin level. Taken together, our study indicates that opioid addiction is associated with mtDNA copy number reduction and neurostructural remodeling. These effects appear to be mediated by autophagy and can be salvaged by melatonin.     

Radioimmunoassay for melatonin and its application to fowl pineal research

A radioimmunoassay for melatonin has been developed after raising anti-melatonin antibodies in rabbit. Melatonin was extracted from serum or pineal gland of chickens (Gallus domesticus). The radioimmunoassay was performed by using 3H-melatonin as tracer. The standard curve covered the range 0.022-0.345 pmol/vial and the KD value for melatonin was estimated at 1.37 x 10(10) l/mol. The antiserum specificity has been analysed, none of the common melatonin analogues influencing this method of melatonin measurement. The intra-assay variability was 7.2% for serum samples and 8.6% for pineal extract. The inter-assay variability for this biological sample was 15.3% and 6.4% respectively.     

Near-ultraviolet radiation suppresses melatonin synthesis in the chicken retina: a role of dopamine

Effects of near-ultraviolet radiation (UV-A; 325-390 nm, peak at 365 nm) on melatonin content and activity of serotonin N-acetyltransferase (AA-NAT; a key regulatory enzyme in melatonin biosynthesis) were examined in the retina of chickens. Acute exposure of dark-adapted animals to UV-A light produced a marked decline in melatonin content and AA-NAT activity of the retina. The magnitude of the observed changes was dependent upon duration of the light pulse and age of chickens, with 1-2-week old birds being more sensitive to UV-A action than 6-7-week old ones. The decrease in the nocturnal AA-NAT activity evoked by a 5-min UV-A pulse gradually deepened during the first 30 min after the return of chickens to constant darkness, then the enzyme activity began to rise, reaching nearly complete restoration within 2.5 hr. Systemic administration to chickens of alpha-methyl-p-tyrosine (an inhibitor of catecholamine synthesis; 0.3 g/kg) blocked the suppressive effect of UV-A light on retinal AA-NAT activity. Haloperidol, sulpiride (blockers of D2-family of dopamine (DA) receptors) and 2-chloro-11-(4-methylpiperazino)dibenz[b,f]oxepin (an antagonist of D4-DA receptors), given intraocularly (1-100 nmol/eye) prevented the UV-A light-evoked decrease in AA-NAT activity in the chicken retina in a dose-dependent manner, while raclopride (300 nmol/eye), an antagonist of D2/D3-DA receptors, was ineffective. In dark-adapted chickens exposure to UV-A light increased the DA content of the retina. It is concluded that UV-A radiation, similar to visible light, potently suppresses melatonin biosynthesis in the retina of chicken, with a D4-dopaminergic signal playing the role of an intermediate in this action.     

Comparison of melatonin, vitamin E and L-carnitine in the treatment of neuro- and hepatotoxicity induced by thioacetamide

This study was designed to evaluate and compare the effect of melatonin, vitamin E and L-carnitine on brain and liver oxidative stress and liver damage. Oxidative stress and hepatic failure were produced by a single dose of thioacetamide (TAA) (150 mg kg(-1)) in Wistar rats. A dose of either melatonin (3 mg kg(-1)) vitamin E (20 mg kg(-1) ) or L-carnitine (100 mg kg(-1)) was used. Blood samples were taken from the neck vasculature in order to determine ammonium, blood urea nitrogen (BUN) and liver enzymes. Lipid peroxidation products, glutathione (GSH) content and antioxidative enzymes were determined in cerebral and hepatic homogenates. The results showed a decrease in BUN and in the antioxidant enzymes activities and GSH in the brain and liver. Likewise, TAA induced significant enhancement of lipid peroxidation products levels in both liver and brain, as well as in ammonia values. Melatonin, vitamin E and L-carnitine, although melatonin more significantly, decreased the intensity of the changes produced by the administration of TAA alone. Furthermore melatonin combined with TAA, decreased the ammonia levels and increased the BUN values compared with TAA animals. Also it was more effective than vitamin E or L-carnitine in these actions. These data show the protective effect of these agents, especially melatonin, against oxidative stress and hepatic damage present in fulminant hepatic failure.     

A Single Radioimmunological Assay for Serotonin, N-Acetylserotonin, 5-Methoxytryptamine, and Melatonin

Abstract: A radioimmunoassay of melatonin using a new iodinated derivative has been developed. Simple chemical treatments have then been designed to convert serotonin, N-acetylserotonin, and 5-methoxytryptamine to melatonin. Thus these four molecules, belonging to the same metabolic pathway, were separately assayed in the same radioimmunological system at the same sensitivity level (0.01 pmol). Some biological results on the circadian variations of melatonin and serotonin in blood, pineal, and miscellaneous brain structures are presented.     

Regional concentrations of melatonin in the rat brain in the light and dark period

The levels of melatonin in five brain regions, whole brain, pineal and serum samples were studied in rats adapted under a photoperiod of 12h light and 12h dark. It was found that the melatonin levels for all the tissues obtained in the dark period were significantly higher than those obtained in the light period. Regional study of melatonin levels in the brain in the light and dark period demonstrated a high level in the hypothalamus, intermediate levels in the mid-brain, cerebellum and pons-medulla and low level in the telencephalon. Our findings indicate that melatonin in the brain is unevenly distributed and that there are diurnal rhythms of melatonin in all the five brain regions studied.     

Influence of Altered Photoperiods on Serum Melatonin and Its Receptors (MT1 and MT2) in the Brain,Retina, and Ovary in Carp Catla catla

Daily variation in melatonin receptor (MT1 and MT2) density in three specific tissues—brain, retina, and ovary—and its temporal relationship with serum melatonin were evaluated for the first time in a freshwater teleost, the carp Catla catla, under natural as well as altered photoperiods in different reproductive phases of the annual cycle. Cosinor analysis was used to determine rhythmic features of the serum melatonin and receptors (MT1 and MT2) in different tissues. In each photoperiodic group, irrespective of season, the daily minimum serum melatonin level was noted at midday. However, the daily peak value of melatonin varied in relation to both photo-schedules and reproductive phases. Under natural photoperiods (NPs; duration varied with seasons) and short photoperiods (SPs; light [L]:dark [D] 8:16), it occurred in the late dark phase during the preparatory phase, and at midnight in the remaining parts of the annual cycle. On the other hand, in each reproductive phase, compared to corresponding NP carp, the daily melatonin peak under long photoperiods (LPs; L:D 16:8) exhibited a phase delay of ～2–3?h (occurring during the late dark phase). The melatonin levels at each sampling point were highest during the postspawning phase and lowest during the spawning phase, irrespective of the photoperiodic history of the fish. In each tissue, Western blot analysis revealed a band at ～37?kDa and a band at ～36?kDa corresponding to the molecular weights of native MT1 and MT2 receptor proteins, respectively, with the band intensity of MT1 always being higher than that of a 36-kDa protein. The content of both melatonin receptor proteins varied significantly according to the studied tissue (being highest in the retina, intermediate in the brain, and lowest in the ovary), time in the daily cycle (peak at midnight and fall at midday), and reproductive phase in the annual cycle (highest in the spawning phase and lowest in the postspawning phase). Remarkably, no significant effects of altered photoperiod were detected on any rhythm parameters of either MT1 or MT2 in any of the studied tissues. Collectively, the results of the present study suggest a role of photoperiod in determining daily and seasonal profiles of serum melatonin, but not its receptor proteins, on the ovary or on any nongonad tissues in carp. (Author correspondence: dgp_skmaitra@yahoo.co.in)     

Melatonin content of cat cerebrospinal fluid and blood following intravenous injection of melatonin as measured by Xenopus laevis skin melanophore test.

Melatonin content of the cerebrospinal fluid (CSF), serum and choroid plexus was measured in untreated and melatonin-injected cats using the Xenopus laevis melanophore-contracting bioassay. CSF and choroid plexus had a considerable melanophore contracting activity in the untreated animals. Intravenously injected melatonin considerably enhanced the melanophore-contracting activity of the CSF and choroid plexus. Two hours later, melatonin was still present at high concentrations in these tissues, whereas it had considerably diminished in the blood. It is concluded that the choroid plexus concentrates and secretes melatonin into the CSF in a bioactive form.     

The level of major proteins and minerals in the blood serum of chickens fed diets with pure cellulose

The aim of the research was to determine the concentration of total protein and its fractions as well as the concentration of selected mineral components in the blood serum of male broiler chickens Cobb 500 fed diets with different cellulose content. Blood samples were collected for examination from the birds' pterygoid canal veins on their 42 day of age. There was no influence of cellulose preparation on the content of total protein and its fractions: albumins, alfa1-, alfa2-, beta-, gamma-globulins, albumin to globulin ratio, inorganic phosphorus, sodium, potassium, chloride and iron concentrations in blood serum. The highest calcium concentration (P < 0.05) was detected in the blood serum of males fed a diet with the highest cellulose content (0.75-0.95%). Simultaneously, a tendency of increased calcium content was observed along with an increased amount of pure cellulose in diets. The lowest magnesium level (P < 0.05) was observed in the blood of birds fed diets with the lowest amount of cellulose (0.25-0.45%). The magnesium level in the blood of birds fed a diet with higher amounts of cellulose did not considerably differ from the control group. Results from the current study suggest that introduction of a limited amount of pure cellulose into the diet of broiler chickens does not affect total protein concentration and protein fractions but can influence the mineral content in the blood serum.     

Effects of melatonin in reducing the toxic effects of doxorubicin

Anthracycline antibiotics, such as doxorubicin and daunorubicin, constitute a group of wide spectrum therapeutic agents. Application of these drugs in chemotherapy is limited because of their toxic effects. Melatonin, the main secretory product of pineal gland, was recently found as a free radical scavenger and antioxidant.We decided to evaluate the tissue protective effect of melatonin against toxic effects of doxorubicin in six groups of rats. Rats were given doxorubicin (Dx) (45 mg/kg dose), melatonin (MEL) (10 mg/kg), first doxorubicin and then melatonin (DM), first melatonin and then doxorubicin (MD).The degree of kidney, lung, liver and brain cells' alterations were examined biochemically.In doxorubicin-treated group, malondialdehyde (MDA) levels of kidney, lung, liver and brain tissues were significantly increased but glutathione (GSH) levels were decreased compared to control rats. In the group in which first doxorubicin and then melatonin were given, MDA levels were significantly decreased compared to the doxorubicin-treated group.In doxorubicin-treated group, serum levels of creatinine, uric acid, blood urea nitrogen (BUN), Gamma-glutamyl transpeptidase (GGT) and Lactic acid dehydrogenase (LDH) were significantly increased while serum albumin and total protein levels were significantly decreased compared to control rats.Melatonin decreased the intensity of the changes produced by the administration of doxorubicin alone. Melatonin was quite efficient in reducing the formation of lipid peroxidation, restoring the tissue GSH contents and alterations of serum levels.     

Influence of altered photoperiods on serum melatonin and its receptors (MT1 and MT2) in the brain, retina, and ovary in carp Catla catla

Daily variation in melatonin receptor (MT1 and MT2) density in three specific tissues-brain, retina, and ovary-and its temporal relationship with serum melatonin were evaluated for the first time in a freshwater teleost, the carp Catla catla, under natural as well as altered photoperiods in different reproductive phases of the annual cycle. Cosinor analysis was used to determine rhythmic features of the serum melatonin and receptors (MT1 and MT2) in different tissues. In each photoperiodic group, irrespective of season, the daily minimum serum melatonin level was noted at midday. However, the daily peak value of melatonin varied in relation to both photo-schedules and reproductive phases. Under natural photoperiods (NPs; duration varied with seasons) and short photoperiods (SPs; light [L]:dark [D] 8:16), it occurred in the late dark phase during the preparatory phase, and at midnight in the remaining parts of the annual cycle. On the other hand, in each reproductive phase, compared to corresponding NP carp, the daily melatonin peak under long photoperiods (LPs; L:D 16:8) exhibited a phase delay of ～2-3?h (occurring during the late dark phase). The melatonin levels at each sampling point were highest during the postspawning phase and lowest during the spawning phase, irrespective of the photoperiodic history of the fish. In each tissue, Western blot analysis revealed a band at ～37?kDa and a band at ～36?kDa corresponding to the molecular weights of native MT1 and MT2 receptor proteins, respectively, with the band intensity of MT1 always being higher than that of a 36-kDa protein. The content of both melatonin receptor proteins varied significantly according to the studied tissue (being highest in the retina, intermediate in the brain, and lowest in the ovary), time in the daily cycle (peak at midnight and fall at midday), and reproductive phase in the annual cycle (highest in the spawning phase and lowest in the postspawning phase). Remarkably, no significant effects of altered photoperiod were detected on any rhythm parameters of either MT1 or MT2 in any of the studied tissues. Collectively, the results of the present study suggest a role of photoperiod in determining daily and seasonal profiles of serum melatonin, but not its receptor proteins, on the ovary or on any nongonad tissues in carp.     

Pineal and serum melatonin at midday and midnight following pinealectomy or castration in male rats.

Melatonin has been extractkd by chloroform from rat serum and quantified by the Rana pipiens tadpole bioassay. Like pineal melatonin, serum melatonin was high at mid-dark and low at mid-light. This finding suggests a diurnal rhythm of serum melatonin in the rat. Serum samples obtained at mid-dark had melatonin levels ranging from 0.02 to 0.05 ng per ml of serum. When rats were pinealectomized, melatonin activity in the serum was abolished. Thus, rat serum melatonin may originate primarily from the pineal. There was no significant change in pineal melatonin content nor in serum melatonin concentrations 7 or 12 days following orchidectomy.     

Oral administration and distribution of melatonin in human serum, saliva and urine

In order to evaluate for future physiological and pharmacological studies the extent to which orally administered melatonin is found in human serum and saliva and excreted into urine we measured serum, saliva and urine concentrations of melatonin by radioimmunoassay after oral administration of 100 mg melatonin. Elevated melatonin concentrations were observed with peak values of 435 nmol/l in serum and 241 nmol/l in saliva at 60 min. Elimination was monophasic following first-order kinetics. The half-lives for serum and saliva melatonin were 41 and 38 min, respectively. The results suggest that melatonin is passively secreted into saliva which reflects closely the changes in serum melatonin. Saliva sampling is thus useful in studies on peripheral melatonin both in physiological and experimental conditions. Urinary excretion of melatonin was 0.01 % of the amount of melatonin ingested. In high-performance liquid chromatography urine extracts were found to contain also a minor unknown immunoreactive component which we suggest to be some unknown metabolite of melatonin.     

Effects of orally-administered melatonin and long-term exposure to light and dark on serum indices and gene expression of insulin and glucagon in male Wistar rats

We investigated influence of endogenous and exogenous melatonin on genetic and serologic aspects of secretory function of pancreas in rats. Thirty adult Wistar rats were divided into six groups. To achieve variable levels of endogenous melatonin, 10-day long-term exposure to light and darkness was implemented. Exogenous melatonin was administered orally (10 mg/kg of body weight). Blood glucose and serum levels of insulin, glucagon, and melatonin were measured by ELISA. Gene expression levels of insulin and glucagon were determined using the real time PCR. Results showed increase of blood glucose and decrease in serum levels of insulin after administration of melatonin without any significant difference in serum levels of glucagon. Gene expression levels of insulin in melatonin group were significantly lower than control group, while their glucagon was more. We concluded that oral administration of melatonin leads to increasing blood glucose, due to inhibition of insulin and stimulation of glucagon synthesis.     

Effects of halothane, pentobarbital and ketamine on serum melatonin levels in the early scotophase in New Zealand white rabbits

In mammals, the nocturnal rise in pineal melatonin is regulated by signals from the endogenous clock, the hypothalamic suprachiasmatic nuclei. There have been few reports on whether anaesthetics which modulate multisynaptic neuronal functions affect melatonin secretion. We studied the effects of three commonly used anaesthetics, halothane, pentobarbital and ketamine, on serum melatonin levels in male New Zealand white rabbits. Seven blood samples were collected, 30-60 min apart, before, during and after anaesthesia. Experiments were performed in the late light and early dark period, so that changes in melatonin secretion would be reflected in the onset and/or level of nocturnal serum melatonin. Serum melatonin levels were determined by radioimmunoassay. Our results indicated that halothane attenuated the release of melatonin and pentobarbital had no apparent effect, whereas ketamine potentiated the release of melatonin. These findings suggest that melatonin levels may be affected in patients anaesthetized with halothane or ketamine, resulting in disturbed biological rhythms, especially the sleep-wake cycle following recovery.     

Prophylactic action of melatonin against cyclophosphamide-induced oxidative stress in mice

The present study investigated the prophylactic influence of melatonin against cyclophosphamide-induced oxidative stress in mouse tissues. Lipid peroxidation, reduced glutathione (GSH), glutathione disulphide (GSSG), glutathione peroxidase (GSH-Px) and serum phosphatase levels were analyzed in brain, spleen liver, lungs, kidney and testes. Fifteen days oral administration with melatonin (0.1 mg/kg bw per day) before treatment checked the augmentation of the level of lipid peroxidation, blood GSSG and acid phosphatase caused by an acute treatment with a radiomimetic drug, cyclophosphamide (75 mg/kg bw). Cyclophosphamide-induced depletion in the level of GSH, GSH-Px and alkaline phosphatase was made up statistically significant by chronic melatonin administration given orally. The results indicate the antioxidative properties of melatonin resulting into its prophylactic property against the cyclophosphamide-induced biochemical alterations. The finding support the idea that melatonin is a potent free-radical scavenger and antioxidant.     

Melatonin Effects on Serotonin Synthesis and Metabolism in the Striatum,Nucleus Accumbens,and Dorsal and Median Raphe Nuclei of Rats

This work examined the influence of the pineal gland and its hormone melatonin on the metabolism of serotonin (5-HT) in discrete areas of the forebrain, such as the Striatum and the nucleus accumbens, and the midbrain raphe. The content of 5-HT and its major oxidative metabolite, the 5-hydroxyindoleacetic acid (5-HIAA), as well as the in-vivo tryptophan hydroxylation rate were examined after long-term pinealectomy (one month) and daily melatonin treatment (500 g/kg; twice daily for ten days) in pinealectomized rats. Pinealectomy did not alter 5-HT content in any of these brain areas, but it significantly increased the content of 5-HIAA in Striatum and the 5-HIAA/5-HT ratio in nucleus accumbens. The normal values of these parameters were recuperated after administration of exogenous melatonin, but it also increased the rate of tryptophan hydroxylation in both areas. In addition, melatonin treatment decreased the levels of 5-HIAA in dorsal raphe nucleus. These data suggest that the pineal gland, through the secretion of melatonin, modulates the local metabolism of 5-HT in forebrain areas by acting on the oxidative deamination. Moreover, melatonin injected in pinealectomized rats derives in a more extended effect than pinealectomy and induces a stimulation of 5-HT synthesis in the striatum, probably due to a pharmacological effect. These results point to the striatum as a target area for the interaction between pineal melatonin and the serotonergic function, and suggest a differential effect of the melatonin injected on areas containing serotonergic terminals and cell bodies, which may relevant for the mode of action of melatonin and its behavioral effects.     

Direct measurement of free radicals in the brain cortex and the blood serum after nociceptive stimulation in rats

The concentrations of ROS were measured in samples of the sensorimotor brain cortex and in the rat blood. We measured the following parameters: The six lines spectra, nitroxide radical, free hydroxyl radical and singleton oxygen. Their concentration was measured under physiological conditions, after the nociceptive stimulation and after the application of melatonin, both in normal and stimulated animals. In the brain cortex only the singleton oxygen decreased after the nociceptive stimulation, whereas the nitroxide radicals and six lines spectra increased. The free hydroxyl radicals did not change significantly. In the blood serum the six lines spectra and nitroxide radical increased, the concentration of the free hydroxyl radicals did not change. Melatonin increased both the hydroxyl and nitroxide radicals. There was a non-significant decrease in the six lines spectra. The estimation of ROS can be used as a tool for detecting metabolic changes and the consequences of different environmental influences, in our case the influence of nociception and melatonin.     

Negative correlation of age and the levels of pineal melatonin, pineal N-acetylserotonin, and serum melatonin in male rats

Pineal concentrations of N-acetylserotonin and melatonin and serum levels of melatonin were studied in 3-wk-old (prepubertal), 8-wk-old (adult), and 17-mo-old (senile) male rats. They were adapted to a photoperiod of 12 h light/12 h darkness for a minimum of 1 wk and killed at mid-light and mid-dark. Melatonin and N-acetylserotonin were determined by radioimmunoassay. The concentrations of pineal N-acetylserotonin and melatonin were high in the dark period and low in the light period. Statistical analysis indicated that pineal N-acetylserotonin and melatonin levels per 100 gm body weight declined with age. Similarly, serum melatonin demonstrated diurnal changes in all the age groups studied. In addition, there was a significant reduction in the levels of serum melatonin with age. The parallel patterns of decrease in pineal and serum melatonin levels with age suggest a decline in pineal secretion of melatonin in the older animals.