Reaction of the hypothalamo-hypophyseal system of cats to stimulation of the cervical sympathetic nerve and the afferent fibers of the vagus nerve]

Data are presented on the functional morphology of the hypothalamo-hypophysial neurosecretory system of cats in stimulation of the cervical sympathetic nerve and of the afferent fibers of the vagus. Stimulation of the sympathetic nerve selectively activated the supraoptic nucleus and caused the discharge of the neurohormones from the posterior lobe of the hypophysis, whereas its infundibular portion contained much neurosecretory material. In response to the stimulation of the vagus all the portions of the neurohypophysis were released of the Gomori-positive substance; both the supraoptic and the paraventricular nucleus were activated.     

Changes in the activity of the supraoptic nuclei of the hypothalamus and distal portions of the hypothalamo-hypophyseal neurosecretory system of guinea pigs under the influence of high environmental temperature]

The keeping of guinea pigs in a thermochamber at 37 degrees C for 3 days resulted in increased releasing of neurohormones of the posterior lobe of the hypophysis. By the end of the 3d day there was no substantial difference between the average logarhythm of the volume of cell nuclei of the supraoptic nucleus of experimental animals and that of intact animals. Injection of ACTH after a preliminary three-day presence of the animal in the thermochamber caused a pronounced inhibition of the hypothalamo-hypophyseal neurosecretory system (HHNS). The HHNS of animals subjected to 3-day-long continuous exposure to high temperature, in contrast to the HHNS of intact animals is not capable to increase its activity in responses to stress (immobilization).     

State of the hypothalamo-hypophyseal neurocirculatory system of the gerbil, Rhombomys opimus, during dehydration

Big gerbils, inhabitants of desert, were found to have indices of an increased functional activity of HHNS: low content of neurosecretory material all over the system, relatively large volumes of neurosecretory cell nuclei and nucleoli, hyperemia. Under the condition of a seven-day dehydration, the neurosecretory material reduction in all links of HHNS, enlargement of neurosecretory cell nuclei and nucleoli, intensification of hyperemia were found. With the increase in dehydration time to 23 days a progressive reduction of neurosecretory material in cell processes and hypophysis are seen. However, the decrease in nuclear size takes place under the condition of continuing increase in nucleolar size both in supraoptic and paraventricular nuclei. Extremely intensive hyperemia of all regions of HHNS is seen. The activation of HHNS under the water-salt regime change, seen in big gerbils, is not as pronounced as in albino rats. This is, evidently, due to a specificity of the function and their osmoregulating system.     

Immuno-enzyme cytochemical demonstration of mesotocinergic nerve fibres in the pars intermedia of the amphibian hypophysis

Summary Immuno-enzyme cytochemical investigations showed that the whole amphibian pars intermedia of the hypophysis is innervated by an intercellular network of peptidergic varicose nerve fibres which contain mesotocin or (and) parts of the mesotocin molecule. The pars intermedia does not contain vasotocinergic fibres. The mesotocinergic fibres are branches of axons leaving the pituitary stalk and the neural lobe. In animals of which the hypothalamic magnocellular neurosecretory preoptic nuclei had been completely removed, the immuno-reactive mesotocinergic fibres of the pars intermedia had totally disappeared. From this result, it is concluded that the mesotocinergic fibres of the pars intermedia of the amphibian hypophysis are axons of neurosecretory perikarya located in the hypothalamic magnocellular neurosecretory preoptic nuclei.Dedicated to Professor Berta Scharrer on the accasion of her 70th birthdayThis investigation was supported by a grant from the Belgian Nationaal Fonds voor Geneeskundig Wetenschappelijk Onderzoek     

Rhythmicity of the activity of the supraoptic and paraventricular nuclei of the hypothalamus of the C57Bl mouse

Rhythmical changes in the activity of the neurosecretory processes have been compared in the supraoptic (SON) and paraventricular (PVN) nuclei in the C57Bl mice hypothalamus during vernal equinox. Parts of the neurosecretory cells, being at stages of synthesis, excretion and accumulation of secrete, volumes of the cell nuclei and nucleoli survey as criteria of their activity. Similar feature for the rhythmic of both nuclei studied is the highest activation of the processes during day time, when mice are resting; this is demonstrated as the maximal amount of actively synthesizing cells, maximal volumes of the cell nuclei and nucleoli. The peculiarities of the rhythmic display in the activity is manifested as a greater ability of the SON cells to accumulate neurosecrete. The accumulation of the secretory material in the SON cells precedes to the period of its maximal activity (1-7 PM) characterized: by making the cells free from the secrete and by a maximal increasing the volume of the nucleoli. In the PVN intensified display of the activity is noted at early hours of the day, and the amount of the cells not containing the secrete--at 6 PM. Lack of the neurosecrete accumulation in the PVN cells speaks in favour of more steady than in the SON cells excretion of the secrete. This demonstrates a more even maintenance of neurohormones concentration in the organism.     

Functional difference between the magnocellular neurosecretory nuclei of the rat hypothalamus

The supraoptic, paraventricular, and postoptic nuclei (SON, PVN, and PON, respectively) of the hypothalamus were studied under conditions of 3 months training of rats to hypoxia (exposure for 6 h daily in a low pressure chamber under 7600m of simulated altitude). All the three nuclei were activated during the first 5 days, and then the state of the SON cells normalized. Functional activity of the PVN and PON decreased (the nucleolar volume of the neurosecretory cells diminished to 70--80%, the amount of the neurosecretory substance in the cells and the posterior lobe of the hypophysis was reduced). Such a decreased activity of the PVN and PON persisted till the end of the experiment. A positive correlation of the thyroid epithelium height and the nucleolar volume of the PVN and PON cells was established for both the PVN (r=0.81, P less than 0.05) and the PON (r=0.82; P less than 0.05); no significant correlation was revealed for the SON (r=0.51; P less than 0.05). Thus, functional similarity of the PVN and the PON, and some peculiarities in the SON reaction under conditions of the experiment described was demonstrated.     

Influence of the feeding regimen on the rhythmicity of the processes of secretion of the supraoptic nucleus in C57Bl mice

During the period of vernal equinox in Leningrad 2 groups of C57Bl male mice have been investigated. Ninety-five animals are given food ecologically adequate at 9 p.m. Eighty-four animals are given foot at 9 a.m.--ecologically inverted regimen of feeding (IRF). The mice are decapitated for 4 days with an interval about 1.5 h. Serial paraffin sections are stained with aldehyde-fuchsin after Gomori and an additional staining of the nuclei with azocarmine. Criteria for the neurosecretory activity is the ratio of the cells amount at various stages of synthesis, outflux and accumulation of the secrete, volumes of the nuclei and nucleoli. Spectrum and parameters of the rhythmicity are revealed. IRF produces decrease in the amount of the ultradian component of the rhythmic parameters, characterizing active synthesis and discharge of the secrete. The part of the neurosecretory cells, those actively synthesizing and discharging the secrete, and volume of the cell nucleoli decrease. Range of ultradian component of the cell part rhythm, depositing the secrete, and the cell volume enriches. Thus, IRF produces certain changes in the rhythmicity of the cell secretion at all the stages: synthesis, discharge and accumulation of the secrete. Total intensity of the synthetic processes decreases. A conclusion is made that IRF inhibits the microsecretory process in the supraoptic nucleus (SON) and decreases adaptive possibilities of its cells. Adaptation to IRF is performed at the expense of rhythmic discharge of neurohormones, deposited in the cells, and at the expense of processes, occurring in the neuryoplasm and resulting in increase of the nuclear volume.(ABSTRACT TRUNCATED AT 250 WORDS)     

Hypothalamo-neurohypophysial complex in leukemia L 1210-bearing mice.

Mice of the DBA strain were inoculated with 4.5 x 10(6) L1210 ascites cells and the time response of the hypothalamo-neurohypophysial complex was studied. The amount of neurosecretory material was determined in the neuroendocrine cells of supraoptic and paraventricular nuclei, throughout the hypothalamo-neurohypophysial tract and in the neural lobe of the hypophysis. Three methods of response evaluation were employed: the amoount of neurosecretory material was estimated according to an arbitrary scale, by cytophotometry while for the hypothalamic cell-nuclei the karyometric method was used. The existence of a functional interrelation between the presence of leukemic cells and the activity of the hormonogenic sites in the hypothalamus is suggested. A clear response to the tumor inoculation was established both in the amount of stainable substance and in the nuclear volume of the secretory neurones. It is suggested that an accelerated synthesis and release of neurosecretory material in tumor recipient mice reduces renal excretion in order to compensate a dehydration caused by the production of ascitic fluid.     

Cellular and Subcellular Aquaporin-4 Distribution in the Mouse Neurohypophysis and the Effects of Osmotic Stimulation

Water channel aquaporin-4 (AQP4) is the most abundant water channel in the rodent brain and is mainly expressed in cerebral areas involved in central osmoreception and osmoregulation. The neurohypophysis is the release site of hypothalamic neurohormones vasopressin and oxytocin, which are involved in the regulation of the water balance. The authors investigated the cellular and subcellular distribution of AQP4 in the mouse neurohypophysis before and after chronic osmotic stimulation, using immunofluorescence microscopy and immunoperoxidase electron microscopy. They showed that AQP4 was abundant in the mouse hypophysis, mainly in the neural lobe. AQP4 was discontinuously distributed along pituicytes plasma membranes, in the dense neurosecretory granules and microvesicles of nerve endings and fibers, and along the luminal and abluminal membranes of fenestrated capillary endothelial cells. After chronic osmotic stimulation, AQP4 immunolabeling was enhanced. Taken together, these results suggest that AQP4 could be involved in the pituicyte sensor effect during osmoregulation, the modification and/or maturation mechanism of neurosecretory granules during neurohormone release, and the blood perfusion of the hypophysis.     

Cholinesterase activity of the hypothalamo-hypophysial neurosecretory system in rats during the ontogenetic development

Summary The hypothalamic region and the neural lobe of rats from the 16th foetal day to adult animals have been studied for acetylcholinesterase and cholinesterase activity after Karnovsky. The attention was focused on the magnocellular nuclei-supraoptic and paraventricular, the median eminence and the neural lobe. Acetylcholinesterase activity appears in the paraventricular nucleus on the 18th foetal day, i.e. prior to that in the supraoptic nucleus. Heterochronic development and heteromorphism of paraventricular neurosecretory cells have been noticed. The median eminence shows no clear acetylcholinesterase activity. There are acetylthiocholine and butyrylthiocholine positive structures in the posterior pituitary. These structures are especially pronounced in 30–47-day rats. The cholinergic mechanism of release of neurohormones from the neural lobe is suggested. The results are discussed in functional and phylogenetic aspects.     

Immuno-cytochemical demonstration,in the external region of the amphibian median eminence,of separate vasotocinergic and mesotocinergic nerve fibres

Summary By means of single and double immuno-enzyme cytochemical staining techniques, it was shown that the external region of the amphibian median eminence contains separate vasotocinergic and mesotocinergic nerve fibres. Moreover, it was demonstrated that the vasotocinergic fibres also contain neurophysin. In animals in which the hypothalamic magnocellular neurosecretory preoptic nuclei had been completely removed, the immuno-reactive vasotocinergic and mesotocinergic fibres of the median eminence had disappeared. From this result, it is concluded that, at least the great majority of the vasotocinergic and mesotocinergic fibres of the external region of the amphibian median eminence are processes of neurosecretory perikarya located in the hypothalamic magnocellular preoptic nuclei. On the other hand, our results do not exclude the possibility that a minority of these neurosecretory fibres originate from small immuno-reactive perikarya which were found in the tuber cinereum. The observation that both kinds of processes accumulate around blood capillaries of the hypophysial portal system strongly suggests that they play a role in the control of the activity of the pars distalis of the hypophysis.This investigation was supported by a grant from the Belgian Nationaal Fonds voor Geneeskundig Wetenschappelijk Onderzoek     

The hypothalamo-hypophysial system in the ground squirrel,Citellus erythrogenys Brandt

Summary Monthly observations of the Gomori-positive hypothalamo-hypophysial neurosecretory system (HHNS) of the ground squirrel, Citellus erythrogenys Brandt, were carried out light microscopically using several quantitative methods. From the beginning of hibernation, formation of neurosecretory material (NSM) in the neurosecretory cells (NSC) progressively decreases and release of neurohormones from the HHNS is almost fully inhibited. A maximal accumulation of NSM in the perikarya of the NSC and in the posterior pituitary (PP) is found in December. By this time the volume of the cell nuclei and nucleoli is at a minimum. Signs of activation of the HHNS appear and become more conspicuous as the time of arousal from torpor approaches. The amount of NSM in the NSC and the PP decreases simultaneously with the increase in volume of the NSC. Hyperemia and activation of glial elements is visible throughout the HHNS. The morphological signs of activation reach their peak in March. After reproduction is completed (April to beginning of May), the NSC and the PP are almost devoid of NSM. Beginning with June and during the summer and autumn months a progressive accumulation of NSM in the NSC and the PP parallels gradual diminution in the volume of the NSC structures and the glial cells. Mechanisms and effector pathways by which the HHNS influences seasonal adaptation of the organism and reproduction are discussed.     

Electrophysiology of the Human Hypophysis

Electrical activity was recorded in the human hypophysis from the neurosecretory fibres of the posterior lobe. In seven patients undergoing trans-sphenoidal hypophysectomy, electrophysiological recording was carried out with a special fine-shielded bipolar concentric electrode with a tip diameter of 30 microns. The rate of unit impulses was modified by anesthetic agents and after intravenous injections of drugs acting at the hypothalamic level.This technique was used to detect the limit between the anterior and posterior lobe in order to perform a selective adeno-hypophysectomy by implantation of yttrium-90 seeds.     

Morphofunctional state of hypothalamic and epiphyseal structures in relatively wild and domesticated silver foxes during estrus

Histochemical and cytometric analyses of the hypothalamo-hypophysial neurosecretory system (HHNS), suprachiasmatic and arcuate nuclei, as well as the pineal gland in mature female silver foxes during oestrus revealed activation of peptidergic and monoaminergic neurosecretory units alongside with activation of the glial and vascular components. The increase of the secretory activity of the HHNS and pineal gland was more evident in domesticated animals. The data obtained show more intense production and excretion of neurohormones which are involved in regulation of reproduction, in domesticated foxes. These peculiarities may account for changes in the oestral cycle in domesticated animals.     

Morphology of the neural lobe of the hypophysis in rats treated with furosemide. I. Neurosecretory axons

The changes found in the neurosecretory axons of the neural lobe of the hypophysis were studied in rats treated with furosemide for three days: over the whole period of treatment, the animals, according to each group, were deprived or not of water. In the animals with free access to water the axons contained neurosecretory granules with scarce content and low electron density; only some of them had vacuoles and autophagic bodies. In the animals deprived of water axon morphology was variable and axons showing vacuoles and autophagic bodies were abundant, as well as those presenting lamellar and dense bodies and also those in which filaments prevailed. The most outstanding modifications in this last group of animals were related to the dehydration and were not found in those animals which were given access to water again and which were in consequence rehydrated.     

Functional connections between the tegmentum mesencephali and supraoptico-hypophyseal hypothalamic neurosecretory system in albino rats

Bilateral electrolytic destruction of the paramedian zones of the caudal part of the tegmentum mesencephali caused an increase in the number of neurosecretory cells with low functional activity and the appearance of degenerating forms in the supraoptic nucleus of the hypothalamus (mainly in the medial part of the nucleus, adjacent to the optic chiasma); destruction of individual Herring's bodies was observed in the posterior lobe of the pituitary. The subnormal content of neurosecretory substance in all parts of the supraoptico-hypophyseal neurosecretory system was matched by a low plasma level of vasopressin-antidiuretic hormone. In animals with destructive lesions in the tegmentum mesencephali exposure to nociceptive stimulation activated mainly the neurosecretory cells in the lateral part of the supraoptic nucleus; the loss of neurosecretion from the posterior pituitary was partial; the plasma neurohormone level was much lower than in the control animals after nociceptive stimulation. It is postulated that changes in the response of the supraoptico-hypophyseal system to stress were probably the result of interruption of afferent pathways to the hypothalamus from the tegmentum mesencephali. The result of these experiments suggest that the paramedian zones of the tectum mesencephali exert a modulating influence on the function of this system during stress.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 9, No. 2, pp. 157–164, March–April, 1977.     

Immunocytochemical identification of an LHRH-producing system originating in the preoptic nucleus of the duck

Summary A fluorescent technique applying specific LHRH and vasotocin antisera was used for the immunocytochemical localization of the respective neurosecretory systems in the hypothalamus of gonadectomized, testosteronetreated and/or serotonin injected male domestic ducks. An immunoreactive (IR) LHRH-producing system, with perikarya located in the preoptic nucleus, could be traced through the ventral hypothalamus down to the external layer of the rostral and caudal ME, in close vicinity to the hypophysial portal system. An IR-vasotocin system originating in the paraventricular and supraoptic nuclei ran through the ventral hypothalamus, but terminated in (i) the external layer of the rostral ME, and (ii) in the posterior lobe of the hypophysis.Dr. B. Kerdelhué, Laboratoire des Hormones polypeptidiques du CNRS, F-91190 Gif-sur-Yvette, France     

Involvement of accessory neurosecretory nuclei of hypothalamus in the formation of hypothalamohypophyseal system during prenatal and postnatal development in rats

We studied the development of direct axonal connections of the accessory neurosecretory hypothalamic nuclei with the posterior pituitary lobe on the fixed rat brain from day 15 of embryogenesis until day 10 of postnatal development using the retrograde diffusion method of the lipophilic fluorescent carbocyanine dye 1,1'-dioctadecyl-3,3,3',3'-tetramethylindocarbocyanine perchlorate along the neuronal membranes. The marker was applied onto the posterior pituitary lobe and, after incubation in a fixative, fluorescing bodies of nerve cells were visualized in the hypothalamus. Neuronal axons of the retrochiasmatic nucleus were the first of the accessory nuclei to ingrow in the posterior pituitary lobe (on days 16-17 of embryogenesis). Neurons of the circular and dorsolateral nuclei and the nuclei of the median bundle of the forebrain sent their axons to the posterior pituitary lobe starting from the first days of postnatal development. No direct connections of the anterior commissure and perifornical accessory nuclei with the posterior pituitary lobe were found in perinatal development. These facts are discussed in the light of concepts about the different functional role of accessory peptidergic hypothalamic nuclei in rats.     

Effect of progesterone and estrogens on the state of the hypothalamo-hypophyseal neurosecretory system in pregnancy and labor

Morphofunctional state of the hypothalamo-hypophyseal neurosecretory system was studied in rats at late stages of pregnancy. No special differences both in function of the supraoptical and praventricular nuclei, and in the hypophysis of intact and pregnant rats at administration of progesterone were noted. When estrogenes were administered to pregnant animals, a sharp increase in functioning of the supraoptic and especially of the paraventricular nuclei was noted. The greatest activity of the supraoptic nucleus was observed at delivery that could be resulted from a stress reaction to pain.     

The development of connections of the magnocellular hypothalamic nuclei with the posterior hypophyseal lobe in rat prenatal ontogeny]

The development of projections of the hypothalamic nuclei into the posterior lobe of the pituitary was studied on the fixed brain of rat fetuses from day 15 until day 19 of embryogenesis using retrograde staining with the fluorescent carbocyanine dye DiI. The formation of connections of the supraoptic and retrochiasmatic nuclei of the hypothalamus with the posterior lobe of the pituitary takes place during prenatal development on days 15 and 16-17, respectively, while only an insignificant number of the paraventricular nucleus neurons send their axons to the posterior lobe of the pituitary in rat fetuses. These facts suggest different temporal involvement of the above nuclei in formation of the hypothalamic-hypophysial neurosecretory system in rat fetuses.