Immunocytochemical evidence for the presence of a mutant vasopressin precursor in the supraoptic nucleus of the homozygous Brattleboro rat

Summary CP-14, a tetradecapeptide from the predicted mutant vasopressin precursor in the homozygous Brattleboro rat was detected immunocytochemically in the supraoptic nucleus of homozygous Brattleboro but not normal rats. The staining was localized to the periphery of the perikarya. CP-14 immunoreactivity was not found in the neural lobes, paraventricular nuclei, accessory nuclei or suprachiasmatic nuclei of either homozygous Brattleboro or normal rats. Vasopressin immunoreactivity was found in the neural lobe and in the perinuclear region of neurons of the supraoptic, paraventricular, suprachiasmatic and accessory nuclei of normal rats. Vasopressin immunoreactivity was also found in homozygous Brattleboro rats, mainly in the ventral part of the supraoptic nucleus: densely stained solitary cells were found amongst other faintly stained perikarya. In both cell-types the staining was mainly in the periphery of the perikarya. No vasopressin immunoreactivity was detected in the paraventricular nuclei, suprachiasmatic nuclei, accessory nuclei or neural lobe of homozygous Brattleboro rats.CP-14 and vasopressin immunoreactivities were found to be co-localized; both were present in the periphery of the same perikarya of the supraoptic nuclei of homozygous Brattleboro rats. Differential staining was found with antioxytocin serum in both normal rats and homozygous Brattleboro rats: separate neurons were stained for either oxytocin or vasopressin and CP-14. Immunoreactive oxytocin was found mainly in the perinuclear region of the neurons from the supraoptic, paraventricular and accessory nuclei.     

Neurosecretory and microstructural changes in the hypothalamus of rats following administration of lithium chloride and 3H-thymidin

Adult male rats were intraperitoneally administered aqueous solution of lithium chloride (LiCl). Studies, including neurosecretory and microstructural changes within particular neurocytes in supraoptic (NSO) and paraventricular nuclei (NPV) were performed on hypothalamic sections. In the experimental rats the administered LiCl increased the level of GOMORI-positive neurosecretory material both in supraoptic and paraventricular nuclei. Great amounts of the neurosecretory material were markedly conspicuous in the above areas after 20 days of LiCl administration. Investigations carried out on cellular nuclei of particular neurocytes showed a significant enlargement of the nuclei, and statistical calculations revealed that, in comparison with the basic control, the difference was essentially significant (p less than 0.001). 3H-thymidin administration to the rats which had previously been on LiCl for 20 days demonstrated also that within supraoptic nuclei the incorporation of the isotope in cellular nuclei took a faster course than in control animals.     

Changes in metabolic activity of neurons in the anterior hypothalamus nuclei during hyperthermia, fever, and hypothermia

Differently directed changes in metabolic activity of anterior hypothalamic nuclei's neurons in rats during hyperthermia, fever, and hypothermia were revealed with histochemical methods. During hyperthermia, the activity of energy metabolism enzymes increased as well as RNA content in the neurons of supraoptic, paraventricular and median preoptic anterior hypothalamic nuclei. This is shown by an increase in the metabolic activity of neurons of these nuclei. Metabolic activity in neurons of median preoptic nuclei decreased and was not changed considerably in neurons of supraoptic and paraventricular nuclei during endotoxin-induced fever. The development of hypothermia was characterised by a decrease in metabolic activity of neurons of supraoptic, paraventricular and medium preoptic nuclei. It is supposed that differently directed metabolic activity changes in neurons of anterior hypothalamic nuclei during hyperthermia are connected with the mechanisms of body temperature regulation (median preoptic nuclei) and neurosecretory processes (supraoptic and paraventricular nuclei).     

Effect of progesterone on the activation of neurones of the supraoptic nucleus during parturition

Parturition is driven by a pulsatile pattern of oxytocin secretion, resulting from burst firing activity of supraoptic oxytocin neurones and reflected by induction of Fos expression. Rats were injected with progesterone on day 20 of pregnancy to investigate the role of the decreasing progesterone:ratio oestrogen ratio, which precedes delivery, in the activation of supraoptic neurones. Progesterone delayed the onset of birth by 28 h compared with vehicle (control) and prolonged the duration of delivery, which was overcome by pulsatile injections of oxytocin, indicating that the slow delivery may reflect impaired oxytocin secretion. Parturient rats pretreated with progesterone had fewer Fos immunoreactive nuclei in the supraoptic nucleus than did parturient rats pretreated with vehicle. The number of Fos immunoreactive nuclei was not restored after oxytocin injection, indicating that appropriate activation of oxytocin neurones is impaired by progesterone and also that there is a lack of stimulatory afferent drive. Fos expression increased in the nucleus of the tractus solitarius during parturition in rats pretreated with either vehicle or progesterone, but not in rats that had been pretreated with progesterone and induced with oxytocin, indicating that this input was inhibited. Endogenous opioids inhibit oxytocin neurones in late pregnancy and the opioid antagonist, naloxone, increases Fos expression in supraoptic nuclei by preventing inhibition. However, progesterone attenuated naloxone-induced Fos expression in the supraoptic nucleus in late pregnancy and naloxone administered during parturition did not accelerate the duration of births delayed by progesterone administration, indicating that progesterone does not act by hyperactivation of endogenous opioid tone. RU486, a progesterone receptor antagonist, enhanced supraoptic neurone Fos expression in late pregnancy, indicating progesterone receptor-mediated actions. Thus, progesterone withdrawal is necessary for appropriate activation of supraoptic and tractus solitarius neurones during parturition.     

Transitory coexistence of oxytocin and vasopressin in the hypothalamo neurohypophysial system of parturient rats.

We used in situ hybridization and immunocytochemistry to investigate a possible coexistence of vasopressin and oxytocin in hypothalamic neurons of parturient rats. We found that a fraction of magnocellular neurons in the paraventricular and supraoptic nuclei contained immunostaining for both peptides as well as oxytocin and vasopressin mRNA hybridization. Colocalization of immunoreactive vasopressin and oxytocin could be observed in some of the Herring bodies in the median eminence and the posterior lobe. No coexistence of vasopressin and oxytocin was found in pregnant or in lactating animals, indicating that the observed coexistence is transitory, perhaps mediated through changing hormonal conditions peri partum.     

Choline acetyltransferase immunocytochemical staining of the rat supraoptic nucleus and its surroundings

Summary Two different monoclonal antibodies raised against choline acetyltransferase were used, together with preembedding immunocytochemical techniques, to visualize the possible cholinergic innervation of the supraoptic and paraventricular nuclei of the rat hypothalamus. Light microscopy confirmed the presence of a group of bipolar and multipolar immunoreactive neurones in the hypothalamus dorsolateral to the supraoptic nucleus as well as numerous immunopositive fibers. Electron microscopy showed that the immunopositive cell bodies contained the usual perikaryal organelles while most immunoreactive fibers appeared dendritic; immunonegative terminals made synaptic contact onto these profiles. Immunopositive terminals making synaptic contact onto dendritic profiles were also noted in this area. In contrast, light microscopy showed no immunoreactivity to choline acetyltransferase in the magnocellular nuclei themselves. Electron microscopy revealed some immunopositive profiles along the boundaries of both nuclei, along the optic chiasm adjacent to the supraoptic nucleus and in the ventral glial lamina but not within the nuclei proper. Surprisingly, these immunopositive profiles appeared dendritic and were often contacted by one or more immunonegative synapses. Our observations thus indicate that cell bodies and dendrites in the supraoptic and paraventricular nuclei are not directly innervated by cholinergic synapses. The functional significance of the putative cholinergic dendrites in close proximity to magnocellular neurones remains to be determined.     

The effect of substance P (SP) infusion above the supraoptic nuclei of hypothalamus on the vasopressin content in the posterior pituitary lobe after haemorrhage in rats

Dekanski's method was used to estimate the pressor activity of the extracts of the posterior pituitary lobe in anaesthetized rats, after the infusion of 0.9% NaCl solution above the supraoptic nuclei and haemorrhage in the amount of 1.5% of body weight or after the infusion of Substance P solution above the supraoptic nuclei and haemorrhage. It has been found that the vasopressin content in the posterior pituitary lobe decreased about 20% after the infusion of 0.9% NaCl solution and haemorrhage. The infusion of Substance P above the supraoptic nuclei inhibits the loss of vasopressin from the pituitary caused by haemorrhage.     

The development of the corticoliberin- and vasopressinergic elements of the rat hypothalamus during postnatal ontogeny

In 10--81-day and adult Wistar rats, neurosecretory cells were revealed which react with antisera to corticoliberin and vasopressin. Morphometric analysis of these cells in the supraoptic, paraventricular and anterior commissural nuclei shows that in the latter vasopressinergic cells develop somewhat later than in the supraoptic and paraventricular nuclei. Complete differentiation of neurosecretory cells in all the centres investigated is observed in 2-month animals. Studies were also made on the amount of corticoliberin- and vasopressinergic terminals in the external zone of the median eminence. Vasopressin-immunoreactive fibers are more numerous in young rats than in adult ones. Corticoliberin-positive neurosecretory fibers are more abundant in adult animals. Earlier development of vasopressinergic elements corresponds to a hypothesis of a more ancient origin of nonapeptidergic structures as compared to those producing liberins and statins.     

Cytophotometric study of the DNA concentration in the supraoptic neurosecretory nuclei of the hypothalamus

DNA content and distribution in supraoptic neuronal nuclei and in their satellites was studied in human subjects died under different conditions of hypothalamo-hypo-physeal neurosecretory activity: moderate (control) and high. In control observations, prevalence of diploid and paradiploid nuclei both in the secretory neurons and in the nuclei of glial satellites was noted. High neurosecretory activity was connected with a tendency towards increased DNA content in the neuronal nuclei, up to the appearance of some tetraploid elements. In the glial nuclei of the satellites, events of poliploidization were observed, that is, evidently, of adaptive character to maintain active functioning of the neurons under certain intensified conditions.     

Distribution of oxytocin and vasopressin neurons in the diencephalon of the Japanese horseshoe bat, Rhinolophus ferrumequinum. An immunohistochemical study.

The distribution of oxytocin (OXT) and vasopressin (VP) neurons in the diencephalon of the hibernating Japanese horseshoe bat, Rhinolophus ferrumequinum, was immunohistochemically investigated by the avidin-biotin complex method. Magnocellular OXT and VP neurons were localized mainly in the paraventricular nucleus and the supraoptic nucleus. In addition to these main nuclei, both kinds of magnocellular neurons were also found in the periventricular nucleus, perifornical area and lateral hypothalamic area. Extensively distributed parvocellular neurons containing only VP were observed in the rostral and middle portions of the suprachiasmatic nucleus. The size of OXT and VP magnocellular neurons was almost equal in the paraventricular and ventromedial supraoptic nuclei, whereas VP neurons were significantly larger than OXT neurons in the dorsolateral supraoptic nucleus. The OXT and VP cells in the ventral supraoptic nucleus showed a distinctive elliptical shape. Both OXT and VP fibers were distributed in the lateral habenular nucleus, stria medullaris thalami, lateral preoptic area, stria terminalis, and medial and supracapsular part of the bed nucleus of the stria terminalis. Moreover, OXT fibers were found in the substantia nigra, and VP fibers were noted in the nucleus reunions and the paraventricular nucleus of the thalamus.     

Immunohistochemical and electron microscopic study of the rat hypothalamic nuclei and cell clusters under various experimental conditions

Summary In untreated, pregnant and thirsting rats the neurosecretory hypothalamic areas were investigated by means of the immunoperoxidase technique in order to demonstrate vasopressin- and oxytocin containing elements at the light- and electron microscopic level. In addition, chromalum-hematoxylinphloxin (CHP) staining and conventional double staining of ultrathin sections were used. The areas investigated included the anterior and posterior supraoptic nuclei, the paraventricular nuclei, the numerous accessory cell clusters in the region between the tractus opticus and the third ventricle as well as the median eminence. In all nuclei and in the accessory cell clusters, the number of vasopressin-reactive neurons exceeds that of oxytocin-reactive neurons. Compared with the anterior supraoptic nucleus, the posterior supraoptic nucleus and the accessory cell clusters react more heavily to prolonged thirst. In the median eminence the neurosecretory axons display close contacts with the portal vessels not only in its lateral portion but in thirsting animals also around the mid-line. There the internal layer is broadened and vasopressin-positive tanycytic processes reach the external zone. Parasagittally, fine vasopressin-positive material can be traced from the internal layer to small deposits at the portal vessels. In long term thirsting animals the typical feature of swollen axons exhibits a characteristic distribution in the median eminence and renders a distinct positive reaction to anti-vasopressin. The release of peptide hormones from the perikarya and from the axons within the nuclei as well as the mode of release within the median eminence are discussed. The significance of the positive immunostaining of the ependymal tanycytes and of some perikarya of the suprachiasmatic nucleus must be reconsidered by further studies.Supported by the Deutsche Forschungsgemeinschaft (Grant Nr. Kr 569/1) and Stiftung VolkswagenwerkDedicated to Professor Berta Scharrer on the occasion of her 70th birthdayThe author wishes to express her special gratitude to Dr. L.A. Sternberger for supplying the peroxidaseantiper oxidase-complex and to Dr. H. Stein (Pathologisches Institut der Universität Kiel) for supplying Anti-IgG. The skilful technical assistance of Mrs. H. Prien and Mrs. H. Schöning is thankfully acknowledged     

Lateral septal projections onto tubero-infundibular neurons in the hypothalamus of the guinea pig

Efferent projections of the lateral septal nucleus (LS) to the preoptic area and the hypothalamus were identified in 20 female guinea pigs after iontophoretic injection of the anterograde axonal tracer Fluoro-Ruby. Tubero-infundibular (TI) neurons of the preoptic area and the hypothalamus were retrogradely labeled after intracardiac injection of Granular Blue or Fluoro-Gold. Magnocellular neurons of the supraoptic and paraventricular nuclei were also labeled. The double labeling procedure allowed an estimation of the extent of the direct relationship between LS efferents and TI neurons. Contacts between lateral septal fibers and TI cell bodies were mainly observed at the light-microscopical level in the preoptic area. A group of labeled fibers coursing along the third ventricle established sparse connections with hypothalamic periventricular TI neurons. A few appositions was observed in the infundibular (arcuate) nucleus, suggestive of a monosynaptic regulation of TI neurons by a septo-arcuate tract. Close association with labeled magnocellular neurons was also noted at the edge of the supraoptic and paraventricular nuclei. The sparse but direct connections between LS and TI neurons may be involved in the neuroendocrine functions of the LS.     

The implantation of puromycin into the neurosecretory nuclei of the rat

Summary Following the bilateral implantation of puromycin into the paraventricular nuclei of rats, the neurosecretory cells became atrophic and the amount of aldehyde-fuchsin (AF) positive material in the neural lobe decreased. In these rats, urine excretion and water intake increased remarkably. The supraoptic nuclei of the rats were not affected by this treatment. After the unilateral implantation of puromycin in the paraventricular nucleus, the neurosecretory cells of the implanted side became atrophic, while those of the unimplanted side hypertrophied. The neural lobe contained similar amounts of AF-positive material to those of the control rats with unilateral cholesterol implants. In the rats implanted bilaterally with puromycin immediately above the supraoptic nucleus, the neurosecretory cells of this nucleus contained little or no AF-positive material, and urine excretion and water intake increased greatly. The cells of the paraventricular nucleus remained unchanged in these rats.     

Vasopressinergic axon collaterals and axon terminals in the magnocellular neurosecretory nuclei of the rat hypothalamus

Axon collaterals emerging from the vasopressinergic neurons of the supraoptic (SON) and paraventricular (PVN) nuclei and recurving back towards their respective nuclei have been previously reported. Since such axon collaterals can play a role in the neuromodulation of SON and PVN, these nuclei have been further investigated immunohistochemically under the light and electron microscope. The PAP technique, using a commercial antibody, was employed. Vasopressin-positive axon collaterals were seen to recurve towards their nuclei of origin. In the latter, vasopressinergic intrinsic neurons were also observed. Under the electron microscope, axon terminals containing vasopressin-immunoreactive neurosecretory granules were noted. Such terminals presumably arise from the vasopressin-positive recurrent axon collaterals or from the intrinsic neurons for the purpose of neuromodulation within the SON and PVN.     

Central blockade of oxytocin receptors during mid-late gestation reduces amplitude of slow afterhyperpolarization in supraoptic oxytocin neurons

The neurohypophysial hormone oxytocin (OT), synthesized in magnocellular paraventricular (PVN) and supraoptic (SON) nuclei, is well known for its effects in lactation. Our previous studies showed that central OT receptor (OTR) binding is increased during gestation and that blockade of central OTRs, specifically during mid-late gestation, causes a delay in OT release during suckling and reduces weight gain in pups, suggesting decreased milk delivery. In the present study, we tested whether central OTR blockade during late gestation disrupts the gestation-related plasticity in intrinsic membrane properties. Whole cell current-clamp recordings were performed in OT neurons from pregnant rats (19-22 days in gestation) that were infused with an OTR antagonist (OTA) or artificial cerebrospinal fluid (aCSF) and from virgin rats infused with aCSF into the third ventricle via an osmotic minipump beginning on days 12-14 of gestation. The amplitudes of both Ca(2+)-dependent afterhyperpolarizations (AHPs), an apamin-sensitive medium AHP (mAHP) and an apamin-insensitive slow AHP (sAHP), were significantly increased during late gestation in control pregnant animals. However, the amplitude of the sAHP from pregnant rats treated with the OTA was significantly smaller than that of pregnant control rats and similar to that of virgins. These results indicate that the diminished efficiency in lactation due to OTR blockade may be partly a result of an altered sAHP that would shape OT bursting. These findings suggest that central actions of OT during late gestation are necessary for programming the plasticity of at least some of the intrinsic membrane properties in OT neurons during lactation.     

Variations in concentration of oxytocin and vasopressin in the paraventricular nucleus of the hypothalamus during the estrous cycle in rats

Oxytocin (OT) and arginine-8-vasopressin (AVP) were measured by radioimmunoassay in micropunched hypothalamic neurosecretory nuclei of estrous cycling female Sprague-Dawley rats. In the paraventricular nucleus (PVN): the concentration (pg/microgram protein) of OT was significantly higher in rats in diestrus than during proestrus, estrus, or metestrus, while the concentration during metestrus was significantly greater than in proestrus and estrus; the concentration of AVP was significantly lower in animals in estrus than during the other three stages; because the paraventricular OT levels dropped before proestrus, the AVP/OT ratio was significantly greater in animals in proestrus than in diestrus, metestrus, and estrus. In the supraoptic nucleus (SON) a similar trend was noted: the concentration of OT was highest during diestrus, and AVP was lowest during estrus, though neither was significantly different from other stages. Because the OT and AVP cycles in the SON were asynchronous, the ratio of AVP to OT was significantly higher in proestrus than in metestrus or diestrus and significantly greater in estrus than during diestrus. In contrast to these two areas, peptide concentrations did not vary significantly across the estrous cycle in other sites of nonapeptide synthesis, i.e. the anterior commissural nucleus (ACN) and the suprachiasmatic nuclei (SCN).     

Immunohistochemical localization of human pituitary glycopeptide (HPGP)-like immunoreactivity in the hypothalamus and pituitary of normal and homozygous diabetes insipidus (Brattleboro) rats

Sections of the hypothalami and pituitary glands of normal (Sprague-Dawley) and homozygous diabetes insipidus (Brattleboro) rats were stained with antiserum to a human pituitary glycopeptide (HPGP) by using the immunohistochemical peroxidase-antiperoxidase method at the light microscopic level. Our results show in normal rats that immunoreactive HPGP was localized in the perikarya of the magnocellular neurons of the hypothalamus, in the posterior pituitary, and in the nerve fibers distributed in the median eminence (ME) and in the areas between the supraoptic nuclei (SON), paraventricular nuclei (PVN), and median eminence and also in the suprachiasmatic nuclei (SCN), a part of the parvocellular system. In the Brattleboro rats, however, no staining was found either in the hypothalami or pituitary glands. The present data strongly support our previous hypothesis that HPGP, a 39 residue glycopeptide isolated from human neurohypophysis, may be part of the precursor of arginine-vasopressin and its neurophysin II (Pro-NP-AVP).     

Adrenomedullin-like immunoreactivity in the rat hypothalamo-neurohypophysial tract.

Adrenomedullin-like immunoreactivity in the hypothalamo-neurohypophysial tract in colchicine-treated and hypophysectomized rats was examined by immunohistochemistry. Adrenomedullin-like immunoreactive (AM-LI) neurons were localized in the hypothalamic areas, including the paraventricular nuclei and the supraoptic nuclei. Abundant AM-LI fibers and varicosities were found in the hypothalamoneurohypophysial tract and the internal zone of the median eminence in the colchicine-treated and hypophysectomized rats, whereas in control rats few AM-LI fibers were observed. These results suggest that the axons of the AM-LI neurons in the hypothalamus may terminate in the neurohypophysis.     

Immunocytochemical localization of the vasopressinergic and the oxytocinergic neurons in the human hypothalamus

Summary The human hypothalamic-neurohypophysial hormone-producing nuclei were investigated with the unlabeled antibody peroxidase-antiperoxidase complex (PAP) technique at the light microscopic level. The size, shape and location of the supraoptic, paraventricular, accesssory supraoptic and suprachiasmatic nuclei were determined. It was demonstrated in the human hypothalamus, as well as in the hypothalamus of other mammals, that vasopressin and oxytocin are synthesized in separate neurons. In each of the nuclei of the magnocellular neurosecretory system, the distribution, ratios and structural features of the vasopressinergic and oxytocinergic neurons were determined. It was shown that the human suprachiasmatic nuclei contain numerous neurophysin-vasopressin-producing neurons.This investigation was supported by a grant from the Belgian Nationaal Fonds voor Geneeskundig Wetenschappelijk Onderzoek     

Analysis of the neurohypophyseal components accumulating in the supraoptic nucleus of the rat after injection of colchicine

[35S]Cysteine has been injected into the supraoptic nuclei of normal rats and of animals given 7 micrograms colchicine into the cerebrospinal fluid to inhibit transport of neurosecretory granules. Analysis of extracts of the supraoptic nuclei 20 min or 6 h after isotope injections showed that (i) colchicine does not affect biosynthesis, i.e., incorporation of tracer into the common precursors of neurohypophyseal hormones and their associated neurophysins, and (ii) processing of precursors inside the arrested granules proceeds normally.