Elektronenmikroskopische Untersuchungen zur funktionellen Morphologie des Tubero-hypophys�ren Systems der Ratte

The Versatile Tanycyte: A Hypothalamic Integrator of Reproduction and Energy Metabolism

The fertility and survival of an individual rely on the ability of the periphery to promptly, effectively, and reproducibly communicate with brain neural networks that control reproduction, food intake, and energy homeostasis. Tanycytes, a specialized glial cell type lining the wall of the third ventricle in the median eminence of the hypothalamus, appear to act as the linchpin of these processes by dynamically controlling the secretion of neuropeptides into the portal vasculature by hypothalamic neurons and regulating blood-brain and blood-cerebrospinal fluid exchanges, both processes that depend on the ability of these cells to adapt their morphology to the physiological state of the individual. In addition to their barrier properties, tanycytes possess the ability to sense blood glucose levels, and play a fundamental and active role in shuttling circulating metabolic signals to hypothalamic neurons that control food intake. Moreover, accumulating data suggest that, in keeping with their putative descent from radial glial cells, tanycytes are endowed with neural stem cell properties and may respond to dietary or reproductive cues by modulating hypothalamic neurogenesis. Tanycytes could thus constitute the missing link in the loop connecting behavior, hormonal changes, signal transduction, central neuronal activation and, finally, behavior again. In this article, we will examine these recent advances in the understanding of tanycytic plasticity and function in the hypothalamus and the underlying molecular mechanisms. We will also discuss the putative involvement and therapeutic potential of hypothalamic tanycytes in metabolic and fertility disorders.

Ultrastructural demonstration of neurohaemal contacts in the internal zone of the median eminence of the Mongolian gerbil (Meriones unguiculatus): correlation with synaptophysin immunohistochemistry

Electron microscopy of the median eminence (ME) of the Mongolian gerbil (Meriones unguiculatus) revealed that, unlike most other mammalian species, abundant neurohaemal contacts were present not only in the external zone (EZ), but also in the internal zone (IZ) up to the subependymal layer. In the IZ, nerve terminals with dense core vesicles and/or small clear vesicles abutted on the outer basal lamina of the perivascular space of portal capillaries, alternating with tanycyte processes. In addition to these neurohaemal contacts, several layers of vesicle-filled varicosities surrounded the portal vasculature. An analysis of serial thin sections showed that the latter varicosities could also reach the perivascular basal lamina or contact it through small extensions in other planes of section. Apparently at least some of the nerve terminals making neurohaemal contacts were en passant in nature. A correlative investigation of synaptophysin (a major integral membrane protein of small synaptic vesicles) immunoreactivity at the light microscopical level demonstrated a conspicuously dense immunostaining around portal capillaries in both EZ and IZ of the proximal and distal ME (neural stalk). Since this perivascular accumulation of immunoreactivity coincides precisely with the ultrastructural accumulation of vesicle-filled axons which establish numerous neurohaemal contacts, it is concluded that this pattern of synaptophysin immunostaining indicates sites of neurohaemal contacts at the light microscopical level. During postnatal development, the perivascular concentration of synaptophysin immunoreactivity in the IZ appeared concomitantly with the early postnatal expansion of long portal capillary loops into the IZ.(ABSTRACT TRUNCATED AT 250 WORDS)

Ultrastructural demonstration of oxytocin and vasopressin release sites in the neural lobe and median eminence of the rat by tannic acid and immunogold methods

We have investigated the localization of oxytocin (OXT) and vasopressin (AVP) release sites in the neural lobe and median eminence (ME) of the rat. Ultrastructural and post-embedding immunocytochemical studies with protein A-gold as a marker were used for the identification of OXT and AVP neurosecretory granules (NSG). Release of the contents of these OXT and AVP NSG by exocytosis has been clearly demonstrated with the tannic acid-Ringer incubation method in axon terminals of the neural lobe and in varicose fibres with OXT and AVP NSG in the internal zone of the ME. As these fibers lack synaptic specializations, and are not located in the direct vicinity of capillaries of the primary portal plexus, these observations suggest that OXT and AVP are released in a paracrine way in the ME of the rat.

Suckling decreases dopamine turnover in both medial and lateral aspects of the median eminence in the rat

The effect of suckling on dopamine (DA) turnover was studied in the medial and lateral aspects of the median eminence. In 10-day postpartum lactating rats suckling decreased DA turnover 2.2-fold in the medial and 2.1-fold in the lateral median eminence. Norepinephrine turnover did not differ in suckled and non-suckled rats. These results are consistent with the hypothesis that decreased DA release is a component of the neuroendocrine reflex mediating suckling-induced prolactin release. The results further indicate that dopaminergic neurons distributing to both medial and lateral aspects of the median eminence are involved in the suckling response.

Origin and termination of dorsal raphe-median eminence projection

The origin and termination of the dorsal raphe (DR)-median eminence (ME) projection were studied by combining well-limited small electrolytic lesions of different parts of the DR, the axonal degeneration and the serotonin content in the median eminence. Our results show that the rostral third of the DR is a source of serotonergic innervation to the ME and that the rest of the nucleus does not contribute to this projection. The light microscopy study revealed that degenerating fibers occupy the internal layer of the ME. These results were confirmed by electron microscopy which in addition showed degenerating terminals.

The hypothalamo-hypophysial system of hypophysectomized rats. II. Structure and ultrastructure of the median eminence

The median eminence (ME) of hypophysectomized rats was studied by means of light and electron microscopy. Paraldehyde-fuchsin (PAF)-positive material is seen in the external zone (EZ) of the ME 2--5 days after the operation. Its amount gradually increases especially in the caudal part of the ME during the following few days. Some PAF-positive fibers make contact with the subependymally located blood capillaries. In the most caudal region of the recessus infundibuli they penetrate into the third ventricle. PAF-positive material decreases markedly from the ME of rats two months after hypophysectomy and exposure to a 1% salt load. Fibers of types A1, A2 and B containing granules of 120--220 nm, 100--150 nm and 80--100 nm in diameter, respectively, are seen in the EZ of the ME in hypophysectomized rats, although almost exclusively A2- and B-type structures make contact with the primary portal capillaries in intact animals. All types of neurosecretory fibers establish contact with the subependymal nonfenestrated blood capillaries and penetrate the recessus infundibuli. Some neurosecretory terminals of different types make direct contact with the glandular cells of the pars tuberalis or are separated from them by a thin basal lamina. It is assumed that mainly neurosecretory fibers of types A2 and B are permanently connected with the primary portal capillaries in the EZ of the ME in intact mammals, while the overwhelming majority of fibers of A1-type shows ingrowth during the course of postoperative reparation. The possible physiological significance of the described changes is discussed.

Simultaneous changes of the perivascular contact area and HIMOT activity in the pineal organ after bilateral adrenalectomy in the rat

In the pineal organ of the female rat, proportional changes in the area of contact of pinealocyte processes and glial processes with the perivascular space were found after bilateral adrenalectomy. The contact area was evaluated by measuring the length of pinealocyte and glial cell membranes directly abutting on the basal lamina. In the normal female rat, 40% of the contact area is occupied by pinealocyte and 60% by glial cell processes. Fourteen days after bilateral adrenalectomy, this proportion is reversed. In addition, cell counts demonstrate that more pinealocytes gain access to the pericapillary space due to the experimental conditions. In order to prove whether or not these results indicate an increase of pineal endocrine activity, the melatonin-forming enzyme hydroxyindole-O-methyltransferase (HIOMT, E.C. 2.1.1.4) was assayed. After bilateral adrenalectomy the HIOMT activity was found to significantly increase.