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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.01 seconds)

1. Retinal tryptophan hydroxylase activity in chickens (1-4 weeks old and embryos) was estimated by determination of levels of 5-hydroxytryptophan (5HTP) in retinas at defined intervals after inhibition of aromatic L-amino acid decarboxylase with m-hydroxybenzylhydrazine (NSD1015). 2. The relationship of tryptophan hydroxylase activity to photoperiod was explored. In chickens maintained on a 12-hr light: 12-hr dark cycle, a diurnal cycle in tryptophan hydroxylase activity was observed. Activity during middark phase was 4.4 times that seen in midlight phase. Cyclic changes in tryptophan hydroxylase activity persisted in constant darkness with a period of approximately 1 day, indicating regulation of the enzyme by a circadian oscillator. The phase of the tryptophan hydroxylase rhythm was found to be determined by the phase of the light/dark cycle. The relationship of the tryptophan hydroxylase rhythm to the light/dark cycle mirrors previously described rhythms of melatonin synthesis and serotonin N-acetyltransferase (NAT) activity in the retina. 3. Light exposure for 1 hr during dark phase suppressed NAT activity by 82%, while tryptophan hydroxylase activity was suppressed by only 30%. 4. Based on the differential responses of retinal NAT activity and tryptophan hydroxylase activity to acute light exposure during dark phase, it was predicted that exposure to light during dark phase would divert serotonin in the retina from melatonin biosynthesis to oxidation by MAO. In support of this, levels of 5-hydroxyindole acetic acid (5HIAA) in retina were found to be elevated approximately two-fold in chickens exposed to 30 min of light during dark phase. In pargyline-treated chickens, 2 hr of light exposure during dark phase was found to increase retinal serotonin levels by 64% over pargyline-treated controls. 5. Cyclic changes in tryptophan hydroxylase activity and NAT activity persisted for 2-3 days in constant light. Tryptophan hydroxylase activity at mid-night gradually decreased on successive days in constant light; on the first day of constant light, tryptophan hydroxylase activity at mid-night was 70% of activity seen during middark phase of the normal light/dark cycle and decreased further on subsequent days. In contrast, on each of 3 days of constant light, NAT activity at mid-night was approximately 15% of normal middark phase activity. 6. Cycloheximide completely inhibited the nocturnal increase in tryptophan hydroxylase activity when given immediately before light offset. The nocturnal increase in NAT activity was inhibited in a similar fashion. 7. Like the development of the NAT rhythm, cyclic changes of tryptophan hydroxylase activity in the retinas of chickens began on or immediately before the day of hatching. hatching.(ABSTRACT TRUNCATED AT 400 WORDS)
Cell Mol Neurobiol 1991 Oct
PMID:Circadian rhythm of tryptophan hydroxylase activity in chicken retina. 172 Jul 7

1. Current knowledge of the mechanisms of circadian and photic regulation of retinal melatonin in vertebrates is reviewed, with a focus on recent progress and unanswered questions. 2. Retinal melatonin synthesis is elevated at night, as a result of acute suppression by light and rhythmic regulation by a circadian oscillator, or clock, which has been localized to the eye in some species. 3. The development of suitable in vitro retinal preparations, particularly the eyecup from the African clawed frog, Xenopus laevis, has enabled identification of neural, cellular, and molecular mechanisms of retinal melatonin regulation. 4. Recent findings indicate that retinal melatonin levels can be regulated at multiple points in indoleamine metabolic pathways, including synthesis and availability of the precursor serotonin, activity of the enzyme serotonin N-acetyltransferase, and a novel pathway for degradation of melatonin within the retina. 5. Retinal dopamine appears to act through D2 receptors as a signal for light in this system, both in the acute suppression of melatonin synthesis and in the entrainment of the ocular circadian oscillator. 6. A recently developed in vitro system that enables high-resolution measurement of retinal circadian rhythmicity for mechanistic analysis of the circadian oscillator is described, along with preliminary results that suggest its potential for elucidating general circadian mechanisms. 7. A model describing hypothesized interactions among circadian, neurochemical, and cellular mechanisms in regulation of retinal melatonin is presented.
Cell Mol Neurobiol 1991 Oct
PMID:Rhythmic regulation of retinal melatonin: metabolic pathways, neurochemical mechanisms, and the ocular circadian clock. 174 71

The activity of arylalkylamine N-acetyltransferase (EC 2.3.1.87), the rate-controlling enzyme in melatonin synthesis is stimulated approximately equal to 100-fold by an adrenergic cyclic AMP mechanism in both neonatal and adult rat pineal glands. This stimulation is blocked in the adult gland by the depolarizing agents ouabain (1 microM) and K+ (80 mM) (Parfitt, A., Weller, J.L., Klein, D.C., Sakai, K.K., and Marks, B.H. (1975) Mol. Pharmacol. 11, 241-255). In the present study pineal glands obtained from prenatal to adult rats were used; it was found that K+ (80 microM) inhibited the adrenergic stimulation of N-acetyltransferase activity at all ages but that ouabain (1 nM to 1 mM) treatment was not inhibitory early in development. In contrast, in the neonate, ouabain (1-100 nM) enhanced adrenergic induction of N-acetyltransferase activity, and ouabain treatment alone (1-1000 nM) stimulated N-acetyltransferase activity. A small stimulation was also seen at one concentration (1 nM) in the adult. Analysis of the development of high affinity ouabain binding sites and Na+,K+-ATPase activity in the intact pineal gland indicated that the developmental pattern of both resemble the development of ouabain inhibition of the adrenergic stimulation of N-acetyltransferase activity. All are low for the first few days of life, gradually increase during the next 3 weeks of life, and then approach adult levels. Similarly, ouabain (1 nM to 1 mM) had no effect on 86Rb uptake in the 2-day-old gland but blocked (IC50 congruent to 20 nM) 86Rb uptake in the adult gland. These findings indicate ouabain probably has little inhibitory effect on the norepinephrine stimulation of N-acetyltransferase activity in the neonatal because a high affinity ouabain binding form of Na+,K+-ATPase activity, similar to the alpha + form identified in rat brain, is at very low levels in the pinealocyte. Accordingly, it appears that an ouabain-insensitive mechanism in the neonatal gland maintains membrane potential and that this mechanism plays a less important role in the adult. The explanation of why ouabain alone stimulates N-acetyltransferase activity and why it enhances the effects of norepinephrine in the neonatal pineal gland might be that ouabain acts on surviving neural elements present in the gland to cause the net release of a transmitter, perhaps norepinephrine, which then stimulates N-acetyltransferase activity.
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PMID:Developmental study of ouabain inhibition of adrenergic induction of rat pineal serotonin N-acetyltransferase (EC 2.3.1.87). 282 93

Ouabain inhibits (IC50 congruent to 200 nM) the congruent to 100-fold adrenergic cyclic AMP stimulation of rat pineal arylalkylamine N-acetyltransferase (EC 2.3.1.87, serotonin N-acetyltransferase, NAT) activity in intact pineal glands. In the present study, ouabain binding sites in pineal membranes were characterized in detail and compared to sites in isolated pinealocytes, which mediate the inhibition of Na+,K+-ATPase, as indicated by 86Rb uptake and norepinephrine (NE) stimulation of NAT activity. High affinity ouabain-binding sites were identified in crude preparations of pineal membranes (Kd congruent to 14 nM; Bmax congruent to 4 pmol/mg of protein) and similar sites were also found in ovine and bovine pineal tissue. The ouabain Kd value for the rat pineal binding sites was similar to the estimated ouabain IC50 values for 86Rb uptake and the NE stimulation of NAT activity in intact rat pinealocytes. In addition, the relative orders of potency of four cardiac glycosides in displacing [3H]ouabain from high affinity binding sites and inhibiting both 86Rb uptake and NE stimulation of NAT activity were the same (acetyldigitoxin greater than ouabain greater than digitoxin greater than strophanthidin). The similarities in the characteristics of the high affinity [3H]ouabain-binding sites and the sites involved in the inhibition of 86Rb uptake and stimulation of NAT activity indicate that an alpha +-like Na+,K+-ATPase mediates the inhibitory effects of ouabain on the adrenergic induction of pineal NAT activity.
Mol Pharmacol 1987 Dec
PMID:Characterization of the alpha +-like Na+,K+-ATPase which mediates ouabain inhibition of adrenergic induction of N-acetyltransferase (EC 2.3.1.87) activity: studies with isolated pinealocytes. 282 93

Melatonin is synthesized from serotonin by the enzymes serotonin N-acetyltransferase (SNAT) and hydroxyindole-O-methyl-transferase (HIOMT). We have previously reported that C57BL/6 mice do not have SNAT activity because of a mutation in an autosomal gene which is responsible for the absence of normal SNAT activity. In the present study, we have tried to map the loci of Nat-2 (the locus controlling SNAT activity) on chromosomes using a set of the BxH recombinant inbred strains which were derived from an initial cross between C3H/He with SNAT and C57BL/6 without the enzyme. Based on strain distribution patterns (SDPs), a close linkage on chromosome 11 was found between Nat-2, Es-3 (esterase-3), Glk (the locus controlling galactokinase activity) and Myla (myosin alkali light chains expressed in cardiac atrial muscle). The linkage between Nat-2 and Es-3 was confirmed by a conventional linkage test and the recombination frequency between these loci was estimated to be 16.1 +/- 3.6% (mean +/- S.E.M.).
Brain Res Mol Brain Res 1994 Feb
PMID:The locus controlling pineal serotonin N-acetyltransferase activity (Nat-2) is located on mouse chromosome 11. 817 Mar 56

1. Innervation of the mammalian pineal gland is mainly sympathetic. Pineal synthesis of melatonin and its levels in the circulation are thought to be under strict adrenergic control of serotonin N-acetyltransferase (NAT). In addition, several putative pineal neurotransmitters modulate melatonin synthesis and secretion. 2. In this review, we summarize what is currently known on the pineal cholinergic system. Cholinergic signaling in the rat pineal gland is suggested based on the localization of choline acetyltransferase (ChAT) and acetylcholinesterase (AChE), as well as muscarinic and nicotinic ACh binding sites in the gland. 3. A functional role of ACh may be regulation of pineal synaptic ribbon numbers and modulation of melatonin secretion, events possibly mediated by phosphoinositide (PI) hydrolysis and activation of protein kinase C via muscarinic ACh receptors (mAChRs). 4. We also present previously unpublished data obtained using primary cultures of rat pinealocytes in an attempt to get more direct information on the effects of cholinergic stimulus on pinealocyte melatonin secretion. These studies revealed that the cholinergic effects on melatonin release are restricted mainly to intact pineal glands since they were not readily detected in primary pinealocyte cultures.
Cell Mol Neurobiol 1995 Apr
PMID:Cholinergic signaling in the rat pineal gland. 859 Apr 50

Tryptophan hydroxylase (TPH) is the first enzyme in both serotonin and melatonin biosynthesis in neuroendocrine cells of the pineal gland. The lack of immortalized neuroendocrine pineal cell lines has been a major obstacle to the study of the tissue-specific and circadian regulation of TPH gene expression in the pineal gland. Previously, we demonstrated that a 6.1 kb 5' upstream region of the mouse TPH gene directs the restricted expression of a lacZ reporter gene to the pineal gland and the raphe nuclei of transgenic mice. Therefore, to develop TPH-expressing pineal cell lines we first established transgenic mice carrying a construct consisting of 6.1 kb of 5' flanking region fused to the SV40 T-antigen. These animals developed highly invasive pineal tumors and died at 12-15 weeks of age. The pineal tumors obtained from the transgenic mice were utilized to establish the immortalized pinealocyte-derived cell lines. These cells express two marker enzymes, TPH and serotonin N-acetyltransferase (NAT). In pineal gland TPH and NAT expressions have been known to be regulated during circadian cycle. The two established cell lines therefore promise to be a valuable in vitro model system for the study of the rhythmic nature of the pineal function at molecular level in mammal.
Brain Res Mol Brain Res 1996 Apr
PMID:Immortalization of neuroendocrine pinealocytes from transgenic mice by targeted tumorigenesis using the tryptophan hydroxylase promoter. 873 33

Mammalian pineal function is regulated by norepinephrine acting through alpha1beta- and beta1-adrenergic receptors (ARs). Noradrenergic stimulation of alpha1beta-ARs potentiates the beta1-AR-driven increase in cAMP, serotonin N-acetyltransferase, and melatonin production. In the present study, we describe a 3-fold daily rhythm in mRNA-encoding alpha1beta-ARs in the pineal gland, with a peak at midnight. Pharmacological studies indicate that this increase in alpha1beta-AR mRNA is due to activation of beta-ARs. Second messenger studies indicate that alpha1beta-AR mRNA is increased by agents that increase cAMP, including dibutyryl cAMP, cholera toxin, forskolin, or vasoactive intestinal peptide. These observations indicate that alpha1beta-AR mRNA can be physiologically regulated by a beta-AR-dependent enhancement of cAMP. It also was observed that in vivo and in vitro changes in alpha1beta-AR mRNA are not accompanied by similar changes in alpha1beta-AR binding, indicating that turnover of alpha1beta-AR protein is significantly slower than that of alpha1beta-AR mRNA and that post-transcriptional mechanisms play an important role in regulating alpha1beta-AR binding.
Mol Pharmacol 1997 Apr
PMID:Regulation of pineal alpha1B-adrenergic receptor mRNA: day/night rhythm and beta-adrenergic receptor/cyclic AMP control. 910 18

Melatonin (N-acetyl-5-methoxytryptamine) and the activities of two melatonin-synthesizing enzymes, serotonin N-acetyltransferase (acetyl coenzyme A: arylalkylamine N-acetyltransferase EC 2.3.1.87; NAT) and hydroxyindole-O-methyltransferase (S-adenosyl-L-methionine: N-acetylserotonin-O-methyltransferase EC 2.1.1.4; HIOMT), were assayed in extracts of ovaries obtained from virgin Wistar-derived rats (7-9 week-old) during the light period of a 12 h light/12 h dark cycle. Melatonin was detected in the rat ovary using reverse-phase high-performance liquid chromatography (HPLC) coupled with fluorometric detection and radioimmunoassay (RIA). In addition, NAT and HIOMT activities were found in rat ovary. The apparent Michaelis constants (Km) for the substrates of NAT and HIOMT in the rat ovary were similar to those reported for the pineal gland and retina. These data suggest that the rat ovary, like the pineal gland and the retina, may synthesize melatonin from serotonin by the sequential action of NAT and HIOMT.
Mol Cell Endocrinol 1997 Dec 31
PMID:Detection of melatonin and serotonin N-acetyltransferase and hydroxyindole-O-methyltransferase activities in rat ovary. 951 62

Pineal melatonin synthesis (serotonin --> N-acetylserotonin --> melatonin) is severely compromised in most inbred strains of mice, in many cases because serotonin is not acetylated by serotonin N-acetyltransferase (arylalkylamine N-acetyltransferase, AANAT). We have found that in the C57BL/6J strain, AANAT mRNA encodes a severely truncated AANAT protein, because a pseudo-exon containing a stop codon is spliced in. This is the first identification of a natural mutation which knocks down melatonin synthesis. The decrease in melatonin signaling may have been a selective factor in the development of laboratory strains of mice because melatonin can inhibit reproduction and modify circadian rhythmicity.
Brain Res Mol Brain Res 1998 Dec 10
PMID:Natural melatonin 'knockdown' in C57BL/6J mice: rare mechanism truncates serotonin N-acetyltransferase. 983 7


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