Serotonin modulates melatonin synthesis as an autocrine neurotransmitter in the pineal gland

The pineal gland secretes melatonin principally at night. Regulated by norepinephrine released from sympathetic nerve terminals, adrenergic receptors on pinealocytes activate aralkylamine N-acetyltransferase that converts 5-hydroxytryptamine (5-HT, serotonin) to N-acetylserotonin, the precursor of melatonin. Previous studies from our group and others reveal significant constitutive secretion of 5-HT from pinealocytes. Here, using mass spectrometry, we demonstrated that the 5-HT is secreted primarily via a decynium-22–sensitive equilibrative plasma membrane monoamine transporter instead of by typical exocytotic quantal secretion. Activation of the endogenous 5-HT receptors on pinealocytes evoked an intracellular Ca²⁺ rise that was blocked by RS-102221, an antagonist of 5-HT_2C receptors. Applied 5-HT did not evoke melatonin secretion by itself, but it did potentiate melatonin secretion evoked by submaximal norepinephrine. In addition, RS-102221 reduced the norepinephrine-induced melatonin secretion in strips of pineal gland, even when no exogenous 5-HT was added, suggesting that the 5-HT that is constitutively released from pinealocytes accumulates enough in the tissue to act as an autocrine feedback signal sensitizing melatonin release.

The principal role of pinealocytes of the pineal gland (PG) is to synthesize and secrete the hormone melatonin, driven by the neurotransmitter norepinephrine (NE) released at night from sympathetic nerve terminals. Acting through α₁- and β₁-adrenergic receptors on pinealocytes, the adrenergic signal generates Ca²⁺ and cyclic AMP (cAMP) to activate up to 150-fold (in rat) a key synthetic enzyme aralkylamine N-acetyltransferase (AANAT) (1). This signaling pathway is shown in Fig. 1. AANAT in turn converts serotonin (5-HT) from a constitutive pool to generate N-acetylserotonin (NAS), from which hydroxyindole-O-methyltransferase generates melatonin (1). The secretion of melatonin and NAS can be increased 100-fold at night (2). In addition to 5-HT, many other neurotransmitters are present elsewhere in the PG, including acetylcholine (ACh), glutamate, GABA, and neuropeptides (3). Their roles in modulating the activity of pinealocytes and melatonin synthesis remain to be established. Here we focus on modulatory effects of 5-HT.Open in a separate windowFig. 1.Synthesis and release of 5-HT and melatonin in rat pinealocytes. The enzymatic pathway from L-tryptophan to 5-HT and melatonin uses four enzymes. AANAT is regulated by adrenergic signaling. Two possibilities are shown (red dotted arrows) for the mechanism of release of 5-HT from pinealocytes: through vesicular exocytosis or through monoamine transporters running in reverse (orange). Released serotonin activates serotonin receptors (blue) on the plasma membrane of pinealocytes. We are suggesting that the receptors up-regulate AANAT acting as an auto- or paracrine mechanism to promote melatonin synthesis. AADC, aromatic amino acid decarboxylase; HIOMT, hydroxyindole-O-methyltransferase; TPH, tryptophan hydroxylase.Serotonergic signaling plays diverse roles in the CNS and peripheral tissues. It is critically involved in mood control, the sleep–wake cycle, breathing, locomotion, and more (4, 5) and acts through 14 distinct, mostly G protein–coupled 5-HT receptors. In the mammalian PG, 5-HT content shows a circadian rhythm, higher during daytime and somewhat lower at night while melatonin is being produced (6, 7). Compared to melatonin release, the 5-HT release from the gland shows only modest (±twofold) circadian variation, continuing in appreciable amounts throughout (8–10). The large pineal pool of 5-HT is continually turning over through constitutive synthesis and secretion (11). Exogenous NE increases 5-HT production and secretion in PGs partly by elevating tryptophan hydroxylase activity (10, 12–17).Secretion of 5-HT from the PG is larger than the elevated nocturnal release of melatonin (9, 10), but the physiological significance of this secretion has not been clear. Released 5-HT is suggested to prime the cAMP-dependent activation of AANAT for melatonin synthesis (17–20). We tested the hypothesis that 5-HT secretion acts as an autocrine signal to promote melatonin synthesis and secretion (Fig. 1) by answering the following questions: What is 1) the secretory mechanism, 2) the type of 5-HT receptor used, and 3) the effect of 5-HT on melatonin secretion? Using optical, electrical, and mass spectrometric (MS) measurements, we found that 5-HT is released from pinealocytes via a nonconventional mechanism and sensitizes NE-induced melatonin synthesis and secretion by activating 5-HT_2C receptors present in the PG. We show that 5-HT qualifies as an autocrine transmitter in the PG.     

Estrogen modulates the nocturnal synthesis of melatonin in peripubertal female rats

Abstract: Our objective was to evaluate the effects of estrogen deficit and of estrogen stimulation on the synthesis of pineal melatonin in female rats during the peripubertal period. The levels of melatonin and N-acetylserotonin (NAS) and the activities of N-acetyltransferase (NAT) and hydroxyindole-O-methyltransferase (HIOMT) were determined in homogenates of pineal glands obtained from peripubertal female Sprague- Dawley rats 4 to 12 weeks of age in the mid-dark during the daily light/dark cycle. Animals were ovariectomized at 4 weeks of age; daily administration of estradiol benzoate (E₂B, 1.0 μg/d, s.c.) was initiated at 4 weeks of age. A peak in the pineal levels of melatonin and NAS and in NAT activity was observed in untreated (control) rats with intact ovaries at 6 weeks. HIOMT activity increased from Week 4 to 6 and remained unchanged thereafter. Ovariectomy at Week 4 led to significant increases in the levels of melatonin and of NAS and NAT in activity at Week 8. NAT activity Week 10 resembled that of control animals, but levels of melatonin and NAS were slightly elevated. Ovariectomy did not affect HIOMT activity. Subcutaneous injection of E₂B significantly decreased the levels of melatonin and NAS and of NAT activity at Week 4, as compared with those in control rats. E₂B suppressed the ovariectomy-induced elevation of levels of melatonin and NAS and of NAT activity, similar to the effect in control animals. E₂B did not affect HIOMT activity. Our results suggest that estrogen modulates the nocturnal synthesis of melatonin in the pineal gland in peripubertal female rats. The effects of estrogen on melatonin synthesis appeared to be mediated by the modulation of NAT activity.     

Regulation of rat pineal melatonin synthesis: effect of monoamine oxidase inhibition

Inhibition of pineal monoamine oxidase (MAO) activity either by harmine or pargyline in adult male Sprague-Dawley rats housed in a 12 : 12 LD cycle resulted in increase pineal N-acetyltransferase (NAT) activity. Pineal MAO inhibition also increased pineal melatonin content, presumably as a result of the increased NAT activity. Conjunct treatment with propranolol, a beta-adrenergic receptor antagonist, nullified these effects, regardless of the MAO inhibitor (harmine, pargyline or both) used or the inhibitor dose given. MAO inhibition during continuous light resulted in increased NAT activity greater than that observed following MAO inhibition during a 12 : 12 LD cycle. On the other hand, the increase in melatonin content following MAO inhibition during continuous light was not significantly different from that following MAO inhibition during a 12 : 12 LD cycle. Conjunct propranolol administration negated the effects of MAO inhibition on both the level of NAT activity and melatonin content, regardless of the lighting conditions. The level of pineal NAT activity is apparently regulated by the level of pineal beta-adrenergic receptor stimulation. While melatonin production appears to be dependent on increases in NAT activity, biosynthesis of this methoxyindole may also be regulated, in part, by other factors or processes in metabolic pathway.     

N-acetyltransferase is not the rate-limiting enzyme of melatonin synthesis at night

Abstract:  Circadian melatonin production in the pineal gland and retina is under the control of serotonin N-acetyltransferase (NAT) and hydroxyindole-O-methyltransferase. Because NAT activity varies diurnally, it has been considered both the melatonin rhythm-generating enzyme and the rate-limiting enzyme of melatonin synthesis. In rats with dramatically reduced NAT activity due to a H28Y mutation in NAT, melatonin levels remained the same as in wildtype controls, suggesting that NAT does not determine the rate of melatonin production at night. Using a combination of molecular approaches with a sensitive in vivo measurement of pineal diurnal melatonin production, we demonstrate that (i) N-acetylserotonin (NAS), the enzymatic product of NAT, is present in vast excess in the night pineals compared with melatonin; (ii) the continuous increase in NAT protein levels at late night does not produce a proportional increase in melatonin; and (iii) an increase in NAS in the same animal over several circadian cycles do not result in corresponding increase in melatonin output. These results strongly suggest that NAT is not the rate-limiting enzyme of melatonin formation at night.     

Evidence for differential photic regulation of pineal melatonin synthesis in teleosts

The aim of this study was to compare the circadian control of melatonin production in teleosts. To do so, the effects of ophthalmectomy on circulating melatonin rhythms were studied along with ex vivo pineal culture in six different teleosts. Results strongly suggested that the circadian control of melatonin production could have dramatically changed with at least three different systems being present in teleosts when one considers the photic regulation of pineal melatonin production. First, salmonids presented a decentralized system in which the pineal gland responds directly to light independently of the eyes. Then, in seabass and cod both the eyes and the pineal gland are required to sustain full night-time melatonin production. Finally, a third type of circadian control of melatonin production is proposed in tilapia and catfish in which the pineal gland would not be light sensitive (or only slightly) and required the eyes to perceive light and inhibit melatonin synthesis. Further studies (anatomical, ultrastructural, retinal projections) are needed to confirm these results. Ex vivo experiments indirectly confirmed these results, as while the pineal gland responded normally to day-night rhythms in salmonids, seabass and cod, only very low levels were obtained at night in tilapia and no melatonin could be measured from isolated pineal glands in catfish. Together, these findings suggest that mechanisms involved in the perception of light and the transduction of this signal through the circadian axis has changed in teleosts possibly as a reflection of the photic environment in which they have evolved in.     

Interruption of nocturnal pineal melatonin synthesis in spontaneous recrudescent Djungarian hamsters (Phodopus sungorus)

The duration of nighttime synthesis of the pineal hormone melatonin is believed to determine the breeding season in many mammalian species. Hamsters exposed to short days undergo gonadal involution followed by a return to normal function, suggesting a developed insensitivity to regressive photoperiods. This recrudescence may be due to either exhaustion of the pineal or to target-desensitization. Both theories have been tested previously but failed to explain this phenomenon. We performed an experiment in the Djungarian hamster (Phodopus sungorus), a well-characterized photosensitive species with a type C melatonin pattern (prolonged peak during majority of dark phase), in an attempt to resolve this issue. Among age-matched male hamsters exposed to short days for either 16 weeks (involuted) or 38 weeks (spontaneous recrudescent), marked phase differences in diurnal pineal melatonin rhythms were observed. Furthermore, in recrudescent hamsters the melatonin pattern was divided into two parts, possibly no longer recognizable as a typical short-day rhythm.     

Role of extracellular calcium on the regulation of melatonin synthesis in the Syrian hamster pineal gland

The role of extracellular calcium on the induction of cyclic AMP production, N-acetyltransferase (NAT) activity and melatonin synthesis, induced by forskolin, was investigated in Syrian hamster pineal glands. Pineals were removed from hamsters killed either in the first half of the normal dark period or late in the dark period. Forskolin immediately increased NAT activity and melatonin levels only when the glands were collected late in the dark period, while in the first half of the dark phase, hamster pineals responded to forskolin with an increase of NAT activity and melatonin production only after 6 hr of incubation. The absence of calcium prevented the induction of melatonin synthesis by forskolin only when glands were collected early in the dark phase and incubated for 6 hr. In the second half of the normal dark period removal of calcium markedly decreased NAT activity and melatonin levels in glands incubated with forskolin for either 4 or 6 hr. However, the absence of extracellular calcium had no significant effect on the induction of cyclic AMP production by forskolin in pineals collected either early in the dark period or late in the dark phase. These data indicate that at least part of the action of extracellular calcium is indirect and that it affects steps in the induction of melatonin synthesis beyond the accumulation of cAMP.     

Fetal/placental regulation of maternal melatonin in rats

Abstract:  We investigated how maternal melatonin is regulated in pregnant rats. To examine the involvement of the conceptus (fetus and placenta) in serum melatonin concentrations, the number of conceptuses was experimentally reduced to one on day 7 of pregnancy (1-conceptus group). Maternal circulating nighttime melatonin levels increased toward day 21 of pregnancy and rapidly decreased to the non-pregnancy levels after parturition, whereas the maternal serum nighttime melatonin levels of the 1-conceptus group on day 21 of pregnancy were significantly lower than normal pregnancy bearing dams more than 10 conceptuses. When the fetuses were removed by fetectomy (all fetuses but not the placentae) on day 12 of pregnancy, serum melatonin concentrations were not decreased. To examine the source of circulating maternal melatonin, mRNA expression of N -acetyltransferase (NAT), which is a late limiting enzyme for melatonin synthesis, was examined in the placenta and fetal pineal. NAT was not expressed in the placenta and was negligible in the pineal gland of the fetus compared with the mother's pineal gland. To examine the effect of placental hormones on maternal melatonin production, a conditioned medium, which was made by incubating placenta of day 20 of pregnancy with medium, was injected into the 1-conceptus dams from day 17 to day 20 of pregnancy. Injection of conditioned medium significantly increased serum melatonin concentrations compared with the control values whereas charcoal treatment abolished the stimulatory effect of conditioned medium. In conclusion, maternal circulating melatonin is from the maternal pineal gland and is increased by placental hormones during pregnancy.     

Moderate alcohol intake in humans attenuates monocyte inflammatory responses: inhibition of nuclear regulatory factor kappa B and induction of interleukin 10

BACKGROUND: In contrast to the deleterious effects of chronic excessive alcohol consumption on the liver and cardiovascular system, modest alcohol intake, such as 1 to 2 drinks per day, has benefits on cardiovascular mortality. Little is known about the length of time or the amounts of alcohol consumed that may cause alterations in inflammatory cells such as monocytes that are crucial to atherosclerotic vascular disease. Here, we determine in vivo effects of acute alcohol consumption on inflammatory cytokine production and nuclear regulatory factor kappaB (NF-kappaB) binding in human monocytes. METHODS: Human blood monocytes were isolated by plastic adherence before and after acute alcohol consumption (2 ml vodka/kg body weight). Lipopolysaccharide (LPS)- and superantigen-induced tumor necrosis factor alpha (TNF alpha), interleukin (IL)-1beta, and IL-10 production were then determined in monocytes by ELISA. Nuclear regulatory factor-kappaB activity of monocytes before and after alcohol consumption was estimated by electromobility shift assay and promoter-driven reporter activity. IkappaBalpha was determined by Western blotting in the cytoplasmic extracts. RESULTS: Eighteen hours after moderate alcohol consumption, we found a significant reduction in monocyte production of inflammatory mediators, TNF-alpha and IL-1beta, in response to LPS or staphylococcal enterotoxin B stimulation. Acute alcohol consumption inhibited LPS-induced DNA binding of the p65/p50 NF-kappaB in monocytes that regulates the expression of both the TNF-alpha and the IL-1beta genes. Consistent with this, acute alcohol treatment (25 mM) significantly reduced LPS-induced activation of an NF-kappaB-driven reporter gene suggesting inhibition of this proinflammatory signaling pathway. Further, LPS-induced IkappaBalpha degradation was not affected by acute alcohol consumption indicating an IkappaBalpha-independent mechanism, as observed earlier in the in vitro acute alcohol studies. In contrast, monocyte production of the anti-inflammatory cytokine, IL-10, was augmented by acute alcohol intake. CONCLUSIONS: Our findings suggest that acute alcohol consumption has dual anti-inflammatory effects that involve augmentation of IL-10 and attenuation of monocyte inflammatory responses involving inhibition of NF-kappaB. These mechanisms may contribute to the beneficial effects of moderate alcohol use on atherosclerosis.     

HPLC validation of a circadian melatonin rhythm in the pineal gland of inbred mice

Abstract: Production of melatonin in the pineal gland of inbred mice such as C57B1/6J, B ALB/c and AKR strains is still a matter of debate. In previous studies, we and other authors showed that these strains of inbred mice have a clear-cut circadian rhythm of serum melatonin and urinary 6-hydroxy-melatonin-sulphate. In contrast, other groups claimed these mice are unable to synthesize melatonin. These studies were based on RIA measurements and/or estimates of N-acetyltransferase (NAT) and hydroxyindole-O-methyltransferase (HIOMT) activities. In the present study we validate the presence of melatonin in the pineal gland of C57B1/6, BALB/c, and AKR mice by HPLC determinations. We found a short-term melatonin peak in the middle of the dark period with a pattern which mirrors that found previously in the serum. The possibility remains, although it seems unlikely, that the pineal melatonin rhythm measured here represents melatonin produced elsewhere which then was subsequently taken up by the pineal gland.     

Characterization of melatonin high-affinity binding sites in purified cell nuclei of the hamster (Mesocricetus auratus) harderian gland

In the present paper, binding of melatonin to purified cell nuclei from harderian glands of male and female hamsters was assessed. Binding of 125I-melatonin to cell nuclei fulfills the criteria for binding to a receptor site. Binding kinetics exhibit properties such as dependence on time and temperature as well as reversibility, saturability, high affinity and specificity. The dissociation constants (K(D)) and the number of binding sites (B(max)) for the binding of 125I-melatonin to harderian gland nuclei were 260 +/- 56 pm and 12.2 +/- 0.8 fmol/mg protein in male glands, and 280 +/- 43 pm and 9.8 +/- 0.6 fmol/mg protein in female glands, respectively. Competition experiments showed IC50 values for melatonin of 250 +/- 45 pm and 290 +/- 68 pm in male and female glands, respectively. Other indoleamines such as N-acetylserotonine and 5-metoxytryptamine showed IC50 values in the micromolar range, suggesting that the binding sites are specific for melatonin. Hill analyses of the data show nH values of 0.96-0.98, suggesting the existence of a single class of binding sites. These data indicate that specific 125I-melatonin binding sites exist in the cell nuclei of Harderian glands in male as well as in female hamsters, without significant differences between them. The K(D) and B(max) values obtained from the binding in both sexes correlates well with the concentration of melatonin described in these respective Harderian glands. It is hypothesized that the nuclear binding sites of melatonin here described could be a physiological melatonin receptor, which may be involved in the genomic-dependent antioxidant effects of melatonin on hamster Harderian glands elsewhere reported.     

High repeatability of the amplitude and duration of the nycthemeral rhythm of the plasma melatonin concentration in the Ile-de-France ewe

Abstract: A role for melatonin in humans is becoming evident in an increasing number of clinical situations. Marked variations in the magnitude of the nocturnal melatonin peak are observed throughout the human lifespan. The highest levels occur in children and then fall during puberty and further during adulthood. A negative correlation between circulating melatonin and sex steroids has been observed in a number of instances, and appears to be independent of concomitant gonadotrophins. No clear melatonin pattern has been observed in pituitary tumors, but in large lesions that involve the hypothalamus, a reduced nocturnal rise has been reported. Reported effects of exogenously administered melatonin are variable, probably reflecting differences in dose and timing; a slight stimulation of prolactin, as well as a partial inhibition of gonadotrophins, has been reported, which explains its utility as an oral contraceptive, associated with a progestogen. A potential clinical use of melatonin as an oncostatic drug still awaits confirmation, although experimental data firmly support this possibility. The indole has also been used to hasten entrainment of subjects travelling across various time zones, and has been found to be specially useful in eastward travel. Finally, changes in the normal melatonin circadian pattern have been reported in psychiatric diseases and in sudden infant death syndrome.