Syrian hamster and rat display developmental differences in the regulation of pineal arylalkylamine N-acetyltransferase.

In the Syrian hamster, the role of noradrenaline in the regulation of melatonin synthesis is less clear than in the rat. During pineal ontogenesis in the rat, noradrenaline is the major transmitter involved in the onset of melatonin synthesis and melatonin rhythm. We analysed the involvement of noradrenaline in the ontogenesis of melatonin synthesis in the Syrian hamster and compared it with that of the rat. We followed the developmental profile of melatonin content in parallel with those of mRNA expression and activity of AA-NAT, the melatonin rhythm-generating enzyme. In addition, we tested the effect of noradrenergic drugs at early steps of pineal ontogenesis. In the Syrian hamster, the night-time Aa-nat mRNA, first detected 3 days after birth, increases progressively up to a maximum reached at 30 days of age and then decreases significantly towards adulthood. The daytime level of Aa-nat mRNA remains always low. A significant day/night rhythm appears 10 days after birth, is maximal (200-fold nocturnal increase) 30 days after birth and decreases slowly towards adulthood. Ontogenesis of the AA-NAT activity rhythm is similar, although with a much lower amplitude of day/night variations (four-fold). The developmental pattern of melatonin content is similar to that of AA-NAT and could be correlated with the appearance of sympathetic innervation in the pineal gland. However, neither alpha- nor beta-adrenergic antagonists inhibit the night-time Aa-nat mRNA transcription in the 9-day-old Syrian hamster, in contrast to what is observed in the adult. For comparison, the beta-adrenergic antagonist propranolol inhibits Aa-nat gene expression in 2-day-old rat. These results show that both species are different in the regulation of the appearance of melatonin synthesis and that Syrian hamster is peculiar from birth in term of noradrenaline involvement in the activation of melatonin synthesis.

HIOMT drives the photoperiodic changes in the amplitude of the melatonin peak of the Siberian hamster.

In the pineal, melatonin (Mel) is synthesized from serotonin by arylalkylamine-N-acetyltransferase (AA-NAT) and hydroxyindole-O-methyltransferase (HIOMT). Although it is clear that AA-NAT drives the daily rhythm in Mel synthesis, the mechanisms involved in the photoperiodic changes of the amplitude of the Mel peak, as observed in the Siberian hamster, remain to be determined. We investigated the characteristics of AA-NAT and HIOMT in Siberian hamsters kept either under a short (SP) or a long photoperiod (LP). The amplitude of the nocturnal peak of Mel was about two times higher under SP than under LP, whereas AA-NAT activity was about two times smaller under SP. In contrast, a twofold increase of HIOMT activity was observed under SP compared with LP. No change in the affinity of the enzymes for their substrates was observed between the two photoperiods. Our data strongly suggest that the photoperiodic variations in the amplitude of the nocturnal peak of Mel are driven by HIOMT, thereby promoting an important physiological role for this enzyme in the seasonal regulation of Mel production.

Photoperiodic control of the rat pineal arylalkylamine-N-acetyltransferase and hydroxyindole-O-methyltransferase gene expression and its effect on melatonin synthesis.

Photoperiodic changes of pineal melatonin (MEL) profile are accompanied by parallel changes of arylalkylamine-N-acetyltransferase (AA-NAT) activity. In the present study, the authors investigated, for the first time, whether two other important variables of pineal metabolism, AA-NAT and hydroxyindole-O-methyltransferase (HIOMT) gene expression, also may be affected by the photoperiod. Evening rises in AA-NAT and HIOMT mRNA and in circulating MEL occurred concomitantly with an increased delay from dark onset as scotophase shortened. On the opposite, the morning declines of all three variables occurred with different kinetics but were locked to light onset. These observations demonstrate that the daily rhythms in AA-NAT and HIOMT gene expression are modulated by the photoperiod and bring further evidence in favor of nor adrenaline as the possible link between the endogenous clock and MEL. Interestingly, the duration of the nocturnal peak in HIOMT mRNA was positively correlated with HIOMT activity. In conclusion, this study adds two important links to the chain of mechanisms involved in the photoperiodic control of pineal metabolism. First, photoperiodic modulation of the MEL rhythm primarily results from changes in the AA-NAT gene expression. Second, the photoperiodic regulation of HIOMT activity occurs at the transcriptional level.

Photoneural regulation of rat pineal hydroxyindole-O-methyltransferase (HIOMT) messenger ribonucleic acid expression: an analysis of its complex relationship with HIOMT activity.

In the pineal gland, synthesis of melatonin requires O-methylation catalyzed by hydroxyindole-O-methyltransferase (HIOMT; EC 2.1.1.4). We investigated in vivo the molecular mechanisms involved in the regulation of rat pineal HIOMT messenger RNA (mRNA) expression and activity using in situ hybridization and radioenzymatic assay. HIOMT mRNA levels and activity are both detectable during the daytime and display nocturnal increases of 100% and 30%, respectively. These variations are controlled by the endogenous clock, as they persist in constant darkness. The nocturnal increase in HIOMT mRNA mainly results from a beta-adrenergic stimulation of HIOMT gene expression without requiring de novo synthesis of a transcription factor. In contrast, the nocturnal increase in HIOMT activity appears independent of beta1/alpha1-adrenergic stimulation. A light pulse at night abolishes the nighttime increase in HIOMT mRNA, but not HIOMT activity. Constant light application for up to 11 days does not depress HIOMT mRNA levels lower than the daytime levels, but decreases enzyme activity down to 50% of the daytime level. This finding indicates that the nocturnal stimulation of HIOMT gene expression is required for sustaining a basal level of activity over a few days. Our data suggest 1) that HIOMT gene expression is partly regulated by beta1-stimulation; and 2) that HIOMT activity is regulated over the short term by a nonnoradrenergic stimulus and over the long term by noradrenergic stimulation.

Ontogenesis of hydroxyindole-O-methyltransferase gene expression and activity in the rat pineal gland.

Postnatal development of hydroxyindole-O-methyltransferase (HIOMT) mRNA expression, HIOMT activity and melatonin content was investigated in the rat pineal gland from birth to adulthood (62-day old). For each age, animals were sacrificed at two different time-points: midday and midnight. HIOMT mRNA was first detectable one day after birth and maximal diurnal levels were reached at the end of the first week. A 2-fold nocturnal increase appeared significantly 11 days after birth. HIOMT activity was detectable from 5 days of life and significant day/night variations did not appear before 21 days after birth. Appearance of melatonin synthesis and rhythm followed that of HIOMT mRNA. The 10-day delay observed between the appearance of the nocturnal increase in HIOMT activity and expression is discussed in term of differential regulation of both HIOMT mRNA expression and HIOMT activity.

Possible involvement of neuropeptide Y in the seasonal control of hydroxyindole-O-methyltransferase activity in the pineal gland of the european hamster (Cricetus cricetus).

Hydroxyindole-O-methyltransferase (HIOMT) catalyses the last step of all the 5-methoxyindoles synthesized in the pineal gland. The synthetic activity of this neuroendocrine structure is driven not only by noradrenaline but also by various neuropeptides. Recently we have established (1) that one of these neuropeptides, neuropeptide Y (NPY), stimulates specifically HIOMT activity in rat pinealocytes and (2) that the density of the NPY-immunoreactive (NPY-IR) fibers innervating the pineal gland of the European hamster (Cricetus cricetus) displays seasonal variations with a large increase in the late autumn. These findings have led us to evaluate a possible seasonal control of NPY on the European hamster pineal gland. We thus compared the nycthemeral patterns of pineal HIOMT activity and 5-methoxytryptophol (5-ML) content and of circulating MEL levels in European hamsters when NPYergic innervation is low (end of October) and when it is the highest (mid-December). We report in this study that HIOMT activity is significantly increased by 80% in mid-December compared with end of October. This increase is correlated with the appearance of a nycthemeral rhythm of pineal 5-ML levels (with a fourfold increase occurring in early dawn and decreasing slowly towards the end of the day). These observations suggest that NPY could be an important neurotransmitter involved in the seasonal control of the biochemistry of the European hamster pineal gland via a stimulatory effect on HIOMT activity.

Distribution of hydroxyindole-O-methyltransferase mRNA in the rat brain: an in situ hybridisation study.

Hydroxyindole-O-methyltransferase (HIOMT) is the enzyme involved in the last step of the melatonin synthesis pathway. Recently, a cDNA encoding HIOMT has been isolated from a rat pineal gland library. Using this cDNA, we developed a highly sensitive in situ hybridisation protocol to investigate the distribution of HIOMT mRNA in both the rat brain and dissociated pinealocytes maintained in primary cell culture. In the rat brain, HIOMT mRNA was only detected in the three parts of the pineal complex: the superficial pineal, the stalk and the deep pineal. No extra-pineal hybridisation labelling was observed. These results strongly suggest that melatonin synthesis also occurs in the deep part and the stalk of the pineal gland. HIOMT mRNA was markedly expressed in cultured pinealocytes. No particular subcellular area was observed to express HIOMT mRNA specifically, as the labelling was homogeneously distributed in the cytosol and in the axon-like processes. In conclusion, the use of in situ and in vitro hybridisation with a pineal riboprobe has detected notable HIOMT expression restricted to pinealocytes.

Adrenergic and peptidergic regulations of hydroxyindole-O-methyltransferase activity in rat pineal gland.

Mechanisms involved in the regulation of hydroxyindole-O-methyltransferase (HIOMT) activity were investigated in the rat pineal. Isoproterenol, db-cAMP, PACAP or VIP had no acute (6 h) effect whereas NPY, thapsigargin and a PKC activator stimulated HIOMT activity by 30-40%. Chronic stimulation (6 days) with isoproterenol, db-cAMP, or each peptide prevented the long-term decrease of HIOMT activity. Phenylephrine had neither short- nor long-term effect on enzyme activity. These results indicate that HIOMT activity is long- and short-term regulated by various neurotransmitters.