Melatonin biosynthesis in the mammalian pineal gland

Summary Rhythmic production of melatonin by the mammalian pineal occurs in response to noradrenergic stimulation which produces a cascade of biochemical events within the pinealocyte. In the rat, massive changes in NAT activity result from an increase in intracellular c-AMP levels produced by a synergistic interaction whereby an ₁ activation amplifies -adrenergic stimulation. The intracellular events mediating this effect are described. A major aspect of the temporal control of melatonin production is the programmed down-regulation of responses to noradrenergic stimulation once the initial surge of c-AMP is produced. Noradrenergic activation of the gland also influences other enzymic functions, including tryptophan hydroxylase and HIOMT activities, and produces a dramatic increase in intracellular c-GMP levels. Other neurotransmitters and neuropeptides, e.g. VIP, may also influence pineal function and comparisons are, made between the rat, the subject of the bulk of experimental studies, and other species.     

Effects of estrogens and progesterone upon the biosynthesis of melatonin by the pineal gland

Zusammenfassung Da die Aktivität der Pinealdrüse bei weiblichen Ratten mit dem Cyklus wechselt, wurde die Wirkung von Oe tradiol und Progesteron auf ihre Aktivität bei kastrierten weiblichen Ratten untersucht. Oestradiol bewirkte Gewichtsabnahme und Funktionssteigerung, während Progesteron die Pinealis-Aktivität herabsetzte.     

Concrement formation encountered in the rat pineal gland

Summary Morphological evidence is given for the concrement formation encountered in the rat pineal gland, the occurrence of which has not been reported so far (for the rat).     

Ultrastructure of the pineal gland after hypohysectomy

Résumé Nous avons étudié les modifications de l'ultrastructure de la glande pinéale du rat après hypophysectomie et constaté: (a) une atrophie du réticulum endoplasmique, (b) réduction des ribosomes, (c) dépletion du matériel sécrétoire des granules, (d) altération des mitochondries, (e) réduction dans le volume des noyaux et des nucléoles et (f) un agrandissement de l'espace périvasculaire. Il est très probable que l'hypophyse antérieure est nécessaire pour maintenir la structure et la sécrétion de la glande pinéale, mais le mécanisme par quoi s'exerce ce contrôle reste encore inconnu.     

Melatonin biosynthesis in the thymus of humans and rats

Melatonin is an indoleamine widely distributed in the evolution that shows a great functional versatility, playing an important role as a transmitter of photoperiodic information and exhibiting antioxidant, oncostatic, anti-aging and immunomodulatory properties. In vertebrates, this molecule is produced by the pineal gland and other extrapineal sites. The present study was carried out to investigate the presence of melatonin in thymus and the possibility of an endogenous melatonin synthesis in this organ, in which T cells are matured. In this work, we demonstrate in humans and rats that thymus contains melatonin, expresses the mRNAs encoding N-acetyltransferase and hydroxyindol-O-methyltransferase, the two key enzymes of the melatonin synthesis, and has this biosynthetic machinery activated. In addition, rat thymocytes cultured for 24 h exhibited high levels of melatonin. The results presented here suggest that human and rat thymuses are able to synthesize melatonin, which could have intracrine, autocrine and paracrine functions. Received 30 September 2006; received after revision 30 December 2006; accepted 15 February 2007     

Ascorbic acid biosynthesis in the mammalian kidney

Summary The egg-laying mammals (Prototheria) synthesize L-ascorbic acid only inkidney, as is characteristic of reptiles. Bandicoots (Marsupialia) synthesize it in both kidney and liver. 2 other species of marsupials (kangaroos) synthesize it primairly in liver, but some individuals also synthesize in kidney.This study was supported by NSF grant INT77-15934; the Carnegie Museum of Natural History provided one field assistant. We thank M. Birney, D. Dellow, K. Jenness, and L. Robbins for field assistance, A. G. Lyne for providing the live bandicoots, and the New South Wales National Parks and Wildlife Service for issuance of collecting permits (SLF52 and SLF84).     

Ascorbic acid biosynthesis in the mammalian kidney

The egg-laying mammals (Prototheria) synthesize L-ascorbic acid only in kidney, as is characteristic of reptiles. Bandicoots (Marsupialia) synthesize it in both kidney and liver. 2 other species of marsupials (kangaroos) synthesize it primarily in liver, but some individuals also synthesize in kidney.     

Autoradiographic localization of 5-hydroxytryptamine in monkey pineal gland

Zusammenfassung Die Verteilung von aus 5-Hydroxy-Tryptophan entstandenem Serotonin in der Zirbeldrüse von Affen wird beschrieben.     

5-Hydroxytryptamine in mammalian thyroid gland

Zusammenfassung Schilddrüsen von Ratten und Schafen enthalten relativ grosse Mengen von 5-Hydroxytryptamin. In der Thyreoidea von Hunden wird dieser Stoff nur in einer hundertmal kleineren Konzentration vorgefunden. Weiter wird gezeigt, dass in der Rattenthyreoidea eine nicht identifizierte, acetonlösliche Substanz vorhanden ist, welche Uteruskontraktionen auszulösen vermag.

---

---

This work was supported by a grant from the U.S. Public Health Service (H-2205).     

Scanning electron microscope observations of the canaliculi in the rat pineal gland

Summary The scanning electron microscope has shown rich ramifications of the parenchymal canaliculi forming a three-dimensional network of anastomosing intercellular spaces in the rat pineal gland. Every pineal cell seems to be in contact with this channel system. An abundance of cellular processes can be found within the canaliculi which may play an important role in the histophysiology of the pineal body. Dedicated to Prof. Dr. med.W. Bargmann on the occasion of his 70th birthday.     

Aromatization of androgens to estrogens by the rat pineal gland

Résumé Des homogénats de glande pineale de rat mâle métabolisèrent de la testostérone-C¹⁴ in vitro en stradiol-C¹⁴ et en strone-C¹⁴. Les métabolites furent identifiés chiomatographiquement et dans le cas de l'stradiol par recristallisation à activité spécifique constante. La conversion de la testostérone en stradiol fut de 0.19–0.27% et en strone de 0.02–0.04%. Ces résultatsci indiquent que la pinéale ressemble à d'autres régions du cerveau soumises au contrôle de la sécrétion de gonadotropines.

---

---

These studies were supported by grants from the Comisión Nacional de Estudios Geo-Heliofísicos, Argentina and the World Health Organization. D.P.C. and C.A.N. are established investigators of the Comisión Nacional de Estudios Geo-Heliofísicos. J.M.R. is an established investigator of the Consejo Nacional de Investigaciones Cientificas y Técnicas, Argentina.