Identification of autonomic neuronal chains innervating gingiva and lip

The major goals of this present study were 1) to further clarify which parasympathetic ganglion sends postganglionic fibers to the lower gingiva and lip that may be involved in the inflammatory processes besides the local factors; 2) to separately examine the central pathways regulating sympathetic and parasympathetic innervation; and 3) to examine the distribution of central premotor neurons on both sides. A retrogradely transported green fluorescent protein conjugated pseudorabies virus was injected into the lower gingiva and lip of intact and sympathectomized adult female rats. Some animals received virus in the adrenal medulla which receive only preganglionic sympathetic fibers to separately clarify the sympathetic nature of premotor neurons. After 72-120h of survival and perfusion, the corresponding thoracic part of the spinal cord, brainstem, hypothalamus, cervical, otic, submandibular and trigeminal ganglia were harvested. Frozen sections were investigated under a confocal microscope. Green fluorescence indicated the presence of the virus. The postganglionic sympathetic neurons related to both organs are located in the three cervical ganglia, the preganglionic neurons in the lateral horn of the spinal cord on ipsilateral side; premotor neurons were found in the ventrolateral medulla, locus ceruleus, gigantocellular and paraventricular nucleus and perifornical region in nearly the same number on both sides. The parasympathetic postganglionic neurons related to the gingiva are present in the otic and related to the lip are present in the otic and submandibular ganglia and the preganglionic neurons are in the salivatory nuclei. Third order neurons were found in the gigantocellular reticular and hypothalamic paraventricular nuclei and perifornical area.

Distribution of hypothalamic, hippocampal and other limbic peptidergic neuronal cell bodies giving rise to retinopetal fibers: anterograde and retrograde tracing and neuropeptide immunohistochemical studies

In our present work utilizing the retrograde or anterograde transport of tracers (biotinylated dextran amine and Fluorogold, respectively) we have provided direct evidence for the cells of origin of the limboretinal pathway in rats and their termination in the retina using light microscopic approach. Administration of biotinylated dextran amine into the vitreous body resulted in nerve cell body labeling in several structures: the supraoptic and paraventricular nuclei, the hippocampus (CA1, CA3), the dentate gyrus, the indusium griseum, the olfactory tubercle, and the medial habenula, all of them belong to the limbic system. We estimated that the total number of retrogradely labeled cells is 1495+/-516. We have seen fiber labeling in the retinorecipient suprachiasmatic nucleus and in the primary visual center, the lateral geniculate body, but labeled nerve cell bodies in these structures were never seen. Iontophoretic application of Fluorogold into the hippocampal formation, where the major part of the biotinylated dextran amine-labeled cell bodies was observed, resulted in labeled fibers in the optic nerve and in the retina indicating that the retrogradely labeled cells in the hippocampus and the dentate gyrus among others are the cells of origin of the centrifugal visual fibers. Sections showing biotinylated dextran amine labeling were stained for vasoactive intestinal polypeptide, pituitary adenylate cyclase activating polypeptide or luteinizing hormone-releasing hormone immunoreactivity using immunohistochemistry. Some biotinylated dextran amine-labeled cells also showed vasoactive intestinal polypeptide, pituitary adenylate cyclase activating polypeptide or luteinizing hormone-releasing hormone immunoreactivity. We conclude that the limboretinal pathway exists and that the cells of origin are partially vasoactive intestinal polypeptide, pituitary adenylate cyclase activating polypeptide or luteinizing hormone-releasing hormone immunoreactive.

Effect of PACAP on LH release studied by cell immunoblot assay depends on the gender, on the time of day and in female rats on the day of the estrous cycle

We have previously demonstrated that pituitary adenylate cyclase activating polypeptide (PACAP) can be released from cultured rat anterior pituitary cells and when added to the medium in physiological concentration it releases LH from individual gonadotropes. In the present work, we studied whether the release of PACAP and the responsiveness of LH cells to PACAP depend on the gender, on the time of day when the animals were sacrificed, and in females on the stage of the estrous cycle. Anterior pituitary cells were cultured on nitrocellulose membrane. We found that the number of PACAP releasing cells was higher in proestrous than in diestrous female or in male rats and their number was always higher in the evening than at the other times. The effect of PACAP on LH cells was stimulatory in the morning of proestrus and diestrus. In proestrous rats, PACAP did not influence LH release in the afternoon or the evening, but in diestrous rats it decreased it in the afternoon and the evening. In males, there was a decrease of LH due to PACAP treatment at 10 and 20 h; however, PACAP did not influence LH at 16 h. It was concluded that in vivo PACAP might be involved in the circadian and episodic release of LH at pituitary level.

Cell immunoblot assay study demonstrating the release of PACAP from individual anterior pituitary cells of rats and the effect of PACAP on LH release

The presence of pituitary adenylate cyclase activating polypeptide (PACAP) was previously demonstrated in the anterior pituitary by radioimmunoassay, immunohistochemistry, and reverse transcript-polymerase chain reaction (RT-PCR). With the use of cell immunoblot assay (CIBA), when the pituitary cells were cultured on nitrocellulose membrane, the release of PACAP by individual anterior pituitary cells was observed. The released peptide, trapped by the nitrocellulose membrane forming a blot around the cells, was demonstrated by immunocytochemistry. Double labeling revealed that a part of PACAP-immunoreactive cells can release LH as well. With the use of sandwich enzyme immunoassay (S-EIA), it was found that the concentration of PACAP in the anterior pituitaries is 10(-10) M. In cell culture in a similar concentration, PACAP stimulated the LH release from female gonadotropes, but did not influence it from male ones. The stimulated release of LH was indicated by the enhancement in the diameter of LH blots compared to the untreated control cultures. We concluded that PACAP may be released from the anterior pituitary cells in a concentration which would be able to influence LH release not only in vitro but under in vivo conditions as well. The effect of PACAP on LH release was different in female and male pituitary cultures.

Neonatal PACAP administration in rats delays puberty through the influence of the LHRH neuronal system

The onset of puberty is a concerted action of many factors which leads to cyclic LHRH release in rats. It has been demonstrated that; in common with vasoactive intestinal polypeptide (VIP), pituitary adenylate cyclase activating polypeptide (PACAP) is also involved in the differentiation of the central nervous system. In our previous work, it was shown that a single PACAP injection into neonatal female rats delayed puberty. In the present work, neonatal administration of PACAP delayed the vaginal opening and decreased the weight of anterior pituitaries, the number of expelled ova at the first ovulation and the intensity of LHRH immunostaining in the septo-preoptico-infundibular system. PACAP antiserum had a reverse effect on LHRH immunoreactivity. The other studied parameters in the latter group remained unchanged compared to control rats. It was concluded that neonatal PACAP administration delayed the onset of puberty through the influence of the LHRH neuronal system.

What may be the anatomical basis that secretin can improve the mental functions in autism?

Autism was first described and characterized as a behavioral disorder more than 50 years ago. The major abnormality in the central nervous system is a cerebellar atrophy. The characteristic histological sign is a striking loss or abnormal development in the Purkinje cell count. Abnormalities were also found in the limbic system, in the parietal and frontal cortex, and in the brain stem. The relation between secretin and autism was observed 3 years ago. Clinical observations by Horváth et al. [J. Assoc. Acad. Minor. Physicians 9 (1998) 9] supposed a defect in the role of secretin and its receptors in autism. The aim of the present work was to study the precise localization of secretin immunoreactivity in the nervous system using an immunohistochemical approach. No secretin immunoreactivity was observed in the forebrain structures. In the brain stem, secretin immunoreactivity was observed in the mesencephalic nucleus of the trigeminal nerve, in the superior olivary nucleus, and in scattered cells of the reticular formation. The most intensive secretin immunoreactivity was observed in the Purkinje cells of the whole cerebellum and in some of the neurons of the central cerebellar nuclei. Secretin immunoreactivity was also observed in a subpopulation of neurons in the primary sensory ganglia. This work is the first immunohistochemical demonstration of secretin-immunoreactive elements in the brain stem and in primary sensory ganglia.

[Structure, localization and physiologic role of pituitary adenylate cyclase activating polypeptide (PACAP)]

PACAP was isolated on the basis of its ability to stimulate adenylate cyclase in primary anterior pituitary cell culture from ovine hypothalami by Miyata et al. in 1989. This peptide is structurally related to the secretin family and shows a 67% sequence homology with vasoactive intestinal polypeptide (VIP). The amino acid sequence of PACAP has been highly preserved during the evolution that may be connected with its important physiological role. Similar to other "brain-gut peptides" PACAP is localized not only in the central but in the peripheral nervous system and in non-neural tissues as well. In addition to its hypophysiotropic effects in the hypothalamo-hypophysial system PACAP exerts its effects on water-salt balance, cardiovascular functions, gastrointestinal motility and secretion and also on the regulation of reproductive functions. PACAP has a role in certain neuro-immuno-endocrine processes, in the differentiation of the nervous system, and it has neuroprotective effects in the case of ischaemia and various toxic agents. Locally PACAP takes its effects as an auto- and paracrine hormone, a neurotransmitter or a neuromodulator in different organs. Besides VIP, PACAP plays an important role in the function of the photo-neuro-endocrine system.

Comparative study on the appearance of various bioactive peptides in foregut derivates during the ontogenesis

Bioactive peptides have an important multifunctional role in the gastrointestinal tract. In the present study we have investigated the dynamism of the appearance of PACAP (pituitary adenylate cyclase activating polypeptide), VIP (vasoactive intestinal polypeptide), gastrin, and secretin immunoreactivities in human foregut derivates during the ontogenesis using an immunohistochemical approach. None of these peptides were observed in the foregut derivates of an 8-week-old embryo. VIP immunoreactive nerve fibers appeared by the 11th week in the smooth muscle layers of the stomach. No other peptide immunoreactivities were observed of this stage. In 18- and 20-week old fetuses PACAP, secretin, and gastrin immunoreactive cells appeared in the developing glands of the stomach. In the duodenum gastrin immunoreactivity was present in the Lieberkühn's glands and secretin immunoreactive cells were seen between the surface epithelial cells. In the pancreas secretin immunoreactivity was found in the Langerhans islets; however, PACAP immunreactivity was observed in the exocrine portion. The distribution of VIP fibers did not change during the fetal life and it was similar to the adult pattern. According to our results the appearance of PACAP, secretin, and gastrin in the developing glands suggests their role in the proliferation and differentiation of the epithelial derivates.

PACAP38 and PACAP27 administered intracerebroventricularly have an opposite effect on LH secretion

The effect of PACAP38 on the LH surge and ovulation was compared with that of PACAP27 and VIP in the same model. The peptides were administered intracerebroventricularly before the critical period of the proestrous stage. PACAP38 was able to inhibit ovulation and to prevent the preovulatory LH surge; however, PACAP27 did not inhibit the ovulation and VIP inhibited the ovulation in 2/11 animals. In those animals of the last two groups in which ovulation occurred, the preovulatory LH surge was higher than in control rats. It is speculated that the opposite effect of PACAP38 and PACAP27 on the preovulatory LH surge and ovulation is possibly mediated through different receptors.

Distribution of pituitary adenylate cyclase activating polypeptide (PACAP) immunoreactive elements in the brain stem of rats studied by immunohistochemistry

In the present work the distribution of pituitary adenylate cyclase activating polypeptide (PACAP) immunoreactive elements in rat brain stem were described using immunohistochemistry. The following structures were PACAP immunoreactive: 1. The dorsomedial and ventrolateral cell columns of the motor nuclei of cranial nerves. 2. Primary somatosensory cells in the mesencephalic nucleus of the trigeminal nerve and central axons of the branchial cranial nerves in the spinal trigeminal tract. 3. Visceral afferent fibers in the solitary tract and cell bodies in the dorsal motor nucleus of the vagus. 4. Second and third order sensory neurons of the cochlear and vestibular systems. 5. Scattered fibers in various regions of the brain stem and well-defined fiber bundles in the interpeduncular area. 6. Cell bodies in the red nucleus, substantia niga, in some cell groups of the reticular formation and in the raphe nuclei, as well as in the pontine dorsolateral tegmentum.

Pituitary adenylate cyclase activating polypeptide (PACAP) is present in human and cat gastric glands

In the present work we have studied the occurrence of pituitary adenylate cyclase activating polypeptide (PACAP) in human and cat stomach mucosa using immunohistochemistry. As seen under a light microscope, there were many large rounded and ovoid cells that were PACAP immunopositive, mainly in the neck of the gastric glands of both species. The immunopositive material was predominant in the perinuclear area. The PACAP immunolabeling was specific because the preincubation of the antiserum with PACAP abolished the immunostaining. In human samples under electron microscope, the PACAP immunoreactive cells have shown the characteristics of parietal cells. In faintly stained cells, the localization of DAB reaction product was associated with the surface of the intracellular canaliculi. Cell labeling could not be observed besides parietal cells.

Effect of the lack of light impulses on the hypothalamic PACAP and C-fos immunoreactivities in rats

Pituitary adenylate cyclase activating polypeptide (PACAP) is a member of the secretin family. It is widely distributed in the central and peripheral nervous systems. The highest concentration of PACAP was found in the hypothalamus. In the present work it has been studied whether PACAP is involved in the mediation of photic stimuli to the anterior pituitary gland. We have examined the effect of the lack of light impulses on the hypothalamic PACAP and C-fos immunoreactivities. In adult rats 10 days after the removal of the eyes (surgical enucleation) and in those received monosodium glutamate treatment neonatally (chemical enucleation). The PACAP immunostaining enhanced in the hypothalamic magnocellular nuclei and in the extemal zone of the median eminence. C-fos immunoreactivity also enhanced in a few hypothalamic nuclei 2 hours after the surgical enucleation indicating that the lack of light impulses activated hypothalamic neurons which, in turn, might stimulate the release of PACAP into the portal circulation. It has been concluded that PACAP may be involved in photoendocrine regulations.

PACAP colocalizes with luteinizing and follicle-stimulating hormone immunoreactivities in the anterior lobe of the pituitary gland

Pituitary adenylate cyclase activating polypeptide (PACAP) and its close relative vasoactive intestinal polypeptide (VIP) were demonstrated in the anterior pituitary gland. The cells which exhibited PACAP immunoreactivity were oval or round shaped. Their distribution was similar to that of gonadotropes but the number of PACAP immunoreactive cells was less. Double labeling revealed that PACAP immunoreactivity partially colocalized with luteinizing and follicle-stimulating hormone; however, colocalization with other pituitary hormone immunoreactivities was not demonstrated. Our results suggest an autocrine or paracrine role of PACAP in the regulation of pituitary functions.

VIP fibers in rat optic chiasm and optic nerve arising from the hypothalamus

This is the first report showing VIP fibers in the optic chiasm and the optic nerves of intact rats. These fibers form a fan-shaped dorso-medial bundle in the optic nerves. After colchicine injection into the vitreous body VIP fibers could be followed farther in the optic nerve toward the eye when compared to intact rats. After removal of eyes (enucleation) the VIP fiber-bundle became more prominent and VIP immunoreactive perikarya appeared in the supraoptic and para ventricular nuclei. When five-nine months after the enucleation Phaseolus vulgaris leucoagglutinin was administered to the paraventricular or supraoptic area, the anterogradely transported tracer was demonstrated in the optic nerve. These observations suggest the existence of a hypothalamic projection to the eye, which is, at least in part, VIP immunoreactive.

New aspects of the neuroendocrine role of PACAP

The presence of PACAP was revealed in the anterior pituitary with RIA, HPLC, and with the demonstration of its mRNA. The level of PACAP mRNA in the anterior pituitary is the highest during the proestrous LH surge. In our immunohistochemical studies we were able to demonstrate PACAP immunoreactive cells in the anterior pituitary. The shape and the distribution of PACAP immunoreactive cells were very similar to that of the gonadotropes; however, the number of PACAP cells was less than that of LH cells. Additionally, another PACAP-positive cell population with small diameter appeared in the proestrous stage, during pregnancy and lactation. Double labeling revealed that the major part of large PACAP cells exhibited LH immunoreactivity and those with a small diameter contained PRL. It is not clear whether the pituitary- or the hypothalamic-born PACAP, or both, influence pituitary LH and PRL secretion. I.c.v. administration of PACAP just prior to the critical period in the proestrous stage inhibited the expected ovulation and blocked the proestrus LH and PRL surge, although i.v. administration of PACAP had no effect. PACAP antiserum did not interfere with ovulation when i.c.v. or i.v. injection was used. Our results support the view that PACAP has a role in the control of LH and PRL secretion during the estrous cycle, pregnancy, and lactation. The inhibitory effect of PACAP on ovulation is mediated through the hypothalamus.

Different ultrastructural localization of VIP and prolactin in anterior pituitary cells of rats chronically treated with estrogen

In the present study we investigated the effect of a long-term estrogen treatment on the intracellular distribution of VIP immunoreactivity in pituitary prolactin cells using double-labeling immunocytochemistry. With the use of pre-embedding ABC method it was found that VIP immunoreactivity was associated with the outer surface of membrane-bound organelles, and was not found in secretory granules. However, prolactin immunoreactivity demonstrated by postembedding immunogold technique was mainly associated within the secretory granules of the same cells. The discrepancy between our and Hsu et al.'s results (1989), who observed VIP immunoreactivity in secretory granules of human anterior pituitary cells, may be owing to the overstimulation of VIP cells by estrogen. It is possible that estrogen treatment depleted the VIP content of the secretory granules and enhanced the cytosolic VIP. The appearance of an alternative form of VIP in estrogen-treated rats with preferential distribution in the cytosol cannot be excluded.

PACAP participates in the regulation of the hormonal events preceeding the ovulation

Pituitary adenylate cyclase activating polypeptide (PACAP) is a member of the secretin family. It was isolated and characterized in 1989. Its neuroendocrine role was demonstrated in vivo and in vitro systems. It seems that in vivo the effect of PACAP on the gonadotrop hormone secretion depends on the route of administration. It was reported that intravenous (i.v.) injection of PACAP elevated, while intra-cerebro-ventricular (i.c.v.) administration depressed plasma LH levels. In the present study it was demonstrated that PACAP, administered i.c.v. before the critical period of the proestrous stage, blocked the ovulation and prevented the proestrous LH surge in rats. The blocking effect of PACAP is not directly mediated by endogenous opioids because the antagonizing effect of Naloxone, an opioid receptor antagonist, was questionable. Under our experimental conditions we could not confirm the stimulating effect of i.v. administered PACAP.

Immunohistochemical localization of PACAP in the ovine digestive system

The localization of immunoreactive PACAP (PACAP-IR) in the entire length of the sheep gastrointestinal tract and the pancreas was studied by an immunohistochemical method. PACAP-IR-containing nerve fibers innervated the longitudinal smooth muscle layer of the mucosa in the esophagus, stomach, and small and large intestines, the muscular layer of the stomach and intestine, Brunner's gland of the duodenum, and the walls of small arteries. PACAP-IR fibers also innervated the exocrine acini, islets of Langerhans, and the small arteries in the connective tissue septa of the pancreas. These findings suggest a regulatory role of PACAP in the digestive system.

Pituitary adenylate cyclase activating peptide: a novel vasoactive intestinal peptide-like neuropeptide in the gut

Pituitary adenylate cyclase activating peptide (PACAP) is a vasoactive intestinal peptide (VIP)-like hypothalamic peptide occurring in two forms, PACAP-27 and the C-terminally extended PACAP-38. The predicted rat and human PACAP sequence is identical to the isolated ovine one. In the present study, the occurrence and distribution of PACAP-like peptides were examined in the gut of several species by immunocytochemistry and immunochemistry using an antibody raised against PACAP-27. PACAP-like immunoreactivity was observed in nerve fibers in the gut wall of all species examined (chicken, mouse, rat, hamster, guinea-pig, ferret, cat, pig, sheep and man). In the chicken and human gut, immunoreactive fibers were numerous in all layers. In the other species examined the fibers were predominantly found in the myenteric ganglia and smooth muscle. Delicate PACAP-immunoreactive fibers were seen in the gastric mucosa of mouse, rat, hamster and man but not in the other species examined. The chicken proventriculus harbored numerous PACAP-immunoreactive endocrine cells which were identical with the serotonin-containing cells storing gastrin-releasing peptide. PACAP-immunoreactive nerve cell bodies were numerous in the submucous ganglia and moderate in number in the myenteric ganglia of the human gut. They were few in the intramural ganglia of the other species examined. Extrinsic denervation (performed on segments of rat and guinea-pig small intestine) did not visibly affect the PACAP innervation, indicating an intramural origin of most PACAP-immunoreactive fibers. Double immunostaining for VIP and PACAP revealed co-existence of the two peptides in nerve cell bodies and nerve fibers of the human and chicken gut and in fibers in the gastric mucosa of mouse and rat. In all other species examined and in all other locations in the gut PACAP-immunoreactive nerve cell bodies and nerve fibers were distinct from those storing VIP; many of them contained gastrin-releasing peptide instead. Immunochemistry revealed PACAP-like peptides in gut extracts of all species studied; upon high performance liquid chromatography the immunoreactive material co-eluted with synthetic PACAP-27. The distribution of PACAP-immunoreactive nerve cell bodies and nerve fibers in the gut wall suggests their involvement in the regulation of both motor and secretory activities.

Comparative distribution of immunoreactive pituitary adenylate cyclase activating polypeptide and vasoactive intestinal polypeptide in rat forebrain

Pituitary adenylate cyclase activating polypeptide (PACAP) and vasoactive intestinal polypeptide (VIP) are structurally similar, share the same high affinity site in same peripheral tissues and increase the intracellular content of adenylate cyclase. To establish which neural circuits are signaling with each of these two peptides, we systematically compared the immunohistochemical distribution of PACAP and VIP in selected rat forebrain regions using previously characterized antiserum. The PACAP antiserum recognized both PACAP27 and PACAP38, and PACAP immunoreactivity was unaffected by preincubation with various other peptides. PACAP-immunoreactive perikarya and fibers were observed in both hypothalamic and extrahypothalamic regions. In the hypothalamus PACAP perikarya were located in the supraoptic, paraventricular, anterior commissural, periventricular, and perifornical nuclei. In intact rats PACAP immunolabeled fibers were present in the internal zone of the median eminence and posterior pituitary. One week after hypophysectomy the intensity of staining in the internal zone was enhanced and immunoreactive fibers appeared in the external zone of the median eminence. Two or 3 weeks later a dense fiber network was observed around the portal capillaries in the external zone, and immunoreactive material further accumulated in the fibers of the internal zone. PACAP-immunoreactive perikarya and fibers were also observed in several extrahypothalamic regions including central thalamic nuclei, amygdaloid complex, bed nucleus of stria terminalis, septum, hippocampus and cingulate, and entorhinal cortices. In the lateral septum and entorhinal cortex PACAP fibers surrounded unstained neuronal cell bodies and small blood vessels. In intact rats, VIP-immunoreactive perikarya were present in all regions of the cerebral cortex, hippocampus, amygdaloid complexus and in the suprachiasmatic nucleus, but not in the paraventricular and supraoptic nuclei. In colchicine-treated rats the VIP perikarya appeared in the preoptic area and paraventricular nucleus. The fibers were organized in two main pathways: the stria terminalis and an ascending pathway from the suprachiasmatic nucleus to the paraventricular area. Hypophysectomy induced the appearance of VIP-immunoreactive fibers in the internal zone of the median eminence and perikarya in the supraoptic and paraventricular nuclei in addition to the suprachiasmatic nucleus. The dissimilar distributions of PACAP and VIP suggest that PACAP neural circuits are independent of that of VIP in the rat forebrain. These findings support possible multifunctional roles for PACAP as a posterior pituitary hormone, a hypophysiotrophic factor, and a neurotransmitter/neuromodulator.

Immunohistochemical localization of the neuropeptide, pituitary adenylate cyclase activating polypeptide (PACAP), in human and primate hypothalamus

A 38 residue neuropeptide was recently isolated from ovine hypothalamus in our laboratory, and named pituitary adenylate cyclase activating polypeptide (PACAP38) based on its biological activity. Rabbit antisera against synthetic PACAP27 were characterized by ELISA for immunohistochemical use. PACAP-immunoreactive neuronal elements having similar distributions were demonstrated in both human and spider monkey hypothalami. Many PACAP-immunoreactive cell bodies were present in the supraoptic and paraventricular nuclei. Immunopositive nerve fiber networks were stained throughout the hypothalamus, including in both external and internal zones of the tuber cinereum, close to the transition of the pituitary stalk (median eminence). These results suggest that PACAP plays multifunctional roles as a hypophysiotropic hormone, neurohypophysial hormone, neurotransmitter or neuromodulator in higher vertebrate species including man.

Immunohistochemical demonstration of a novel hypothalamic peptide, pituitary adenylate cyclase-activating polypeptide, in the ovine hypothalamus

We recently reported isolation, characterization and synthesis of a novel ovine hypothalamic peptide with 38 residues which stimulates accumulation of cAMP in rat anterior pituitary cell cultures. The peptide was named PACAP38 (pituitary adenylate cyclase-activating polypeptide with 38 residues). The presence of another peptide corresponding to the N-terminal 1-27 residues (PACAP27) was also demonstrated. Both PACAP38 and PACAP27 have an amidated C-terminus. Antisera against synthetic PACAP27 were generated in rabbits. These antisera were tested for titer and specificity in enzyme-linked immunosorbent assay. One of the antisera (no. 88121-3) exhibited a high titer of antibody, which was specific to PACAP27 and PACAP38 with exception of slight cross-reactivity with ovine CRF (oCRF). Therefore, the antibodies against oCRF were removed from the antiserum using a solid phase method. Removal of oCRF antibodies was confirmed by enzyme-linked immunosorbent assay. A dense immunoreactive fiber network was found in both external and internal zones of the median eminence and pituitary stalk. The fibers were demonstrated to be in close contact with the hypophysial portal capillaries. The preabsorption of antiserum with vasoactive intestinal polypeptide or with the mixture containing TRH, LHRH, oCRF, ovine GH-releasing factor, somatostatin, and bovine thyroglobulin did not affect the immunostaining. On the other hand, the preabsorption of antiserum with an excess of PACAP27 or PACAP38 abolished the immunostaining. Therefore, the staining is considered specific for PACAP27 and PACAP38. Stained fibers were also present in the posterior pituitary. A dense fiber network was observed and the lateral hypothalamus the fibers appeared to cling to unstained neuronal cell bodies and their dendrites. In the lateral septum the fibers surrounded some blood vessels. Immunolabeled cell bodies were found in the paraventricular and supraoptic nuclei. These findings support the view that PACAP may play a multifunctional role, including that of a hypophysiotropic hormone, neurotransmitter, neuromodulator, and vasoregulator.

Demonstration of specific binding sites for pituitary adenylate cyclase activating polypeptide (PACAP) in rat astrocytes

The high and low affinity binding sites for PACAP were identified in rat astrocytes using [125I]PACAP27 as the labeled ligand. Scatchard analysis of displacement of the bound tracer by unlabeled PACAP27 indicated the existence of two classes of binding sites, with the dissociation constant (Kd) = 1.22 +/- 0.4 nM, the binding maximal capacity (Bmax) = 821 +/- 218 fmols/mg protein for the high affinity binding site, and Kd = 0.59 +/- 0.06 microM, Bmax = 563 +/- 12 pmols/mg protein for the low affinity binding site, respectively. The specificity of [125I]PACAP27 binding was tested using PACAP38 and peptides structurally related to PACAP, such as VIP, GHRF, PHI, secretin and glucagon. PACAP38 completely displaced the binding of [125I]PACAP27 and Scatchard analysis also indicated the presence of two classes of binding sites with similar Kd and Bmax to those for PACAP27. VIP and GHRF competed with [125I]PACAP27, but to a much lesser extent than unlabeled PACAP27 in binding. Other peptides tested did not displace the binding of [125I]PACAP27 at 10(-6) M.

Presence of immunoreactive vasoactive intestinal polypeptide in anterior pituitary of normal male and long term estrogen-treated female rats: a light microscopic immunohistochemical study

The presence and synthesis of vasoactive intestinal polypeptide (VIP) has been demonstrated in the rat anterior pituitary. It was recently confirmed that immunoreactive VIP is present in the anterior pituitary, and in a thyroid-deficient state, VIP could be detected by light microscopic immunohistochemistry. It has also been suggested that VIP plays a stimulatory role in PRL secretion. To gain more detailed information on the localization of VIP and the conditions that alter the synthesis of VIP, we examined VIP immunoreactivity using immunohistochemistry in pituitaries of normal male and cycling female rats and in those states in which PRL secretion was enhanced (pregnancy, lactation, long term estrogen treatment, and pituitary implanted under kidney capsule of normal or estrogen-treated female rats). In situ, implanted and cultured pituitary cells were stained for VIP immunoreactivity using the peroxidase-antiperoxidase method. VIP immunoreactivity was observed in about 45% of the male rats, in all estrogen-treated female rats, in the implanted pituitaries under the kidney capsule (three of five from estrogen-treated and one of five from intact females, respectively), and in the pituitary cell cultures derived from estrogen-treated rats. Using a double labeling procedure we have also observed PRL immunoreactivity in a small population of the VIP-positive cells. These results suggest a positive regulatory role of estrogen in expression of the VIP gene. The physiological and pathophysiological significance of VIP in PRL secretion, however, remains to be clarified.

Gonadotropin-releasing hormone binding sites in ovaries of normal cycling and persistent-estrus rats

The gonadotropin-releasing hormone (GnRH) binding capacity in ovaries and pituitaries of normal cycling rats at different stages of the estrous cycle and in ovaries of persistent-estrus rats was measured using radioligand-receptor assay (RRA). Persistent estrus was induced either by neonatal administration of testosterone propionate (1.25 mg s.c.) on the second day of life or by a hypothalamic suprachiasmatic frontal cut made with Halász' knife. All animals were killed during the critical period (1400-1600 h), and GnRH receptor was assayed. GnRH receptor levels in both ovaries and pituitaries changed during the estrous cycle. The total number of ovarian GnRH binding sites was significantly higher in proestrus than in diestrus 1, the stage in which the lowest level was found. When binding sites were expressed in fmol/mg ovary, the highest level was observed in diestrus 2; however, no changes were observed during the estrous cycle when GnRH binding sites were expressed as fmol/mg protein. Changes noted were very similar to those demonstrated in pituitary GnRH receptors in our present and previous experiments. Higher levels of pituitary binding sites were found in diestrus 2 and proestrus than in estrus and diestrus 1. The changes in the GnRH receptor levels were more striking in the pituitary than in the ovaries. It appears that the total number of ovarian GnRH binding sites was not altered in either of the two persistent-estrus groups, but that their concentration was significantly higher (expressed in fmol/mg ovary or fmol/mg protein) than on any day during the estrous cycle.(ABSTRACT TRUNCATED AT 250 WORDS)

Solid-phase adsorption method for removing undesired antibodies from polyclonal antiserum

We have developed a novel and simple method, requiring only a small amount of antigen, for removal of undesired antibodies from antiserum. The method was established using a well-characterized antiserum against rat luteinizing hormone (anti-rLH). Wells of polystyrene tissue culture plates were coated with rat LH (rLH). Anti-rLH diluted 1:3000 was added to rLH-coated wells and shaken to remove LH antibodies. Control anti-rLH was treated in a similar manner in non-rLH-coated wells. Both antisera were tested by immunocytochemistry on rat pituitaries. Antiserum from rLH-coated wells stained no cells, whereas the control serum stained cells that were morphologically typical of LH cells. The effectiveness of this antibody removal was also confirmed in a modified ELISA. In another experiment, anti-rLH and anti-hTSH beta sera were mixed. The final dilution of both antisera was 1:10,000. Anti-rLH was removed by the purification method described. Completeness of antibody removal was confirmed by a double-immunohistochemical staining of rat pituitary in which sections were first stained by the PAP method and then stained with an immunofluorescence procedure after elution of the first antigen-antibody complex. The mixed antiserum incubated in rLH-coated wells did not stain LH cells. There was no co-localization between the LH immunopositivity demonstrated by an anti-rLH serum using immunofluorescence and cells immunostained with the purified antiserum using the PAP method. As indicated in ELISA, the titer of the TSH beta antiserum was not decreased compared to that of the untreated, mixed control antiserum, and the LH antibodies were eliminated by the treatment. This new purification method has four distinct advantages: (a) antiserum is not treated chemically; (b) it requires only a small amount of antigen compared with the amount required for affinity chromatography; (c) neither the undesired antigen-antibody complex(es) nor an excess amount of antigen is present in the purified antiserum; and (d) removal of undesired antibodies can be monitored by ELISA.

Pituitary gonadotropin-releasing hormone binding sites in persistent estrous rats

Pituitary gonadotropin-releasing hormone (GnRH) binding sites were studied in persistent estrous rats. For comparison females at different stages of the estrous cycle, ovariectomized animals, and intact males were examined. Persistent estrus was induced by a hypothalamic knife cut, administering testosterone to neonatal rats, or by constant illumination. Rats showing spontaneously such alteration were also used in the experiment. Besides pituitary GnRH-binding sites, the GnRH content of the median eminence and plasma luteinizing hormone, follicle-stimulating hormone, estradiol, and progesterone concentrations were determined. Pituitary GnRH receptors changed during the estrous cycle with the highest concentrations observed on proestrus. In rats in persistent estrus, pituitary GnRH-binding sites varied between proestrous and estrous values of cyclic females. Ovariectomy resulted in a significant increase in receptors. Depending on how the persistent estrous syndrome was induced, very different amounts of GnRH were found in the median eminence of the various groups. Our data indicate that the GnRH-binding sites on pituitary cells of persistent estrous rats are in essence not changed.

Hypothalamus and puberty

The effect of a transitory increase in plasma FSH and LH levels during the prepubertal period on puberty has been investigated. Twenty-day-old rats had been bilaterally ovariectomized and 24 hr later they received two ovaries of infantile rats beneath the kidney capsule. These rats exhibited precocious puberty. Animals into which two additional ovaries had been transplanted first and the next day their own ovaries removed showed puberty at the same time as controls. Additional investigations provided evidence that the ovariectomized and ovary implanted rats plasma FSH and LH levels were in the control range four days after implantation. The findings support the assumption that the hypothalamic lesion-induced precocious puberty is due rather to a transitory enhanced release of gonadotropin releasing hormone by the lesion than to the destruction of sex-steroid sensitive structures inhibiting the release of gonadotropic hormones in prepubertal rats.

Neural control of ovulation

Pituitary gonadotrophin function is controlled to a great extent by the central nervous system and by the feedback action (positive and negative) of sex steroids. Neural structures involved in this mechanism may be divided into two levels. The first level is represented by the nervous structures releasing gonadotrophin-releasing hormone (GnRH) in a pulsatile manner into the portal circulation. The gene encoding the precursor protein for GnRH has been described recently. The precursor protein appears to be composed of 92 amino acids, in which the GnRH decapeptide is preceded by a signal peptide and followed by a peptide termed GAP for GnRH-associated peptide. The GnRH-synthesizing neurones and the nervous structures synchronizing the GnRH discharge (pulse generator) in the monkey, and probably also in the human, reside in the medial basal hypothalamus, which appears to have a highly integrated structure. The GnRH pulse generator is influenced by nervous structures outside the medial basal hypothalamus (second level of control) as well as by ovarian and other hormones. These influences probably impinge directly or indirectly on the hypothalamic oscillator. Concerning the chemical nature of the substances mediating the action, a large number of neurotransmitters and neuropeptides have been reported to influence GnRH secretion.

Data suggesting that milk of early lactation period might be involved in sexual differentiation of rat brain

The contribution of a hypothetic milk factor in the masculinization process of gonadotropin secretion pattern was investigated using a cross-fostering model. Adult female rats whose nipples had been previously excised were mated. At the time of delivery their pups were given to recipient dams that had given birth one week earlier. Pups remaining with their own (intact) mother served as control group. At the age of 37-39 days (birth = day 0) male rats from the experimental and the control groups were castrated and also control females were ovariectomized. Ten days later gonadectomized animals received ovarian grafts excised from 20-day-old rats. Four and seven days after transplantation the grafts were processed for histology. Corpus luteum formation suggests that male rats nursed by recipient dams did not undergo the masculinization process normally occurring during the first few days of postnatal life. In a separate experiment, male pups nursed by dams being at the early lactation (control) or at the midlactation period were decapitated on postpartum day 1 and serum testosterone levels were measured by RIA. Mean testosterone concentration was almost twice as high in the control group than in pups nursed by recipient dams of the midlactation period. These data suggest that milk of the early lactation period might be necessary for the normal masculinization process of the male rat.

Effect of various hypothalamic deafferentations injuring different parts of the GnRH pathway on ovulation, GnRH content of the median eminence, and plasma LH and FSH levels

Various supra- and retrochiasmatic cuts injuring different parts of the septo-preoptico-infundibular GnRH pathway were made in adult female rats, and their effects on ovulation, median eminence (ME) GnRH content and on plasma LH and FSH levels were studied. Extended retrochiasmatic frontal cut just behind the optic chiasm, or a frontal cut in front of the suprachiasmatic nucleus presumably interrupting the whole GnRH pathway blocked ovulation, led to persistent estrus with polyfollicular ovaries, and reduced the ME GnRH content to 10 and 32%, respectively, expressed in percentage of unoperated control value. Severance of the GnRH pathway on one side or partial interruption of the pathway on the two sides in the retrochiasmatic area did not interfere with ovulation, and the ME GnRH content was 50% or more of the control value. Disconnection of the GnRH fibers coming from the septum resulted in a more than 30% decrease in the GnRH content of the ME, but did not block ovulation. Two separate symmetrical lateral cuts in the suprachiasmatic area leaving intact the presently known GnRH pathway reduced the ME GnRH content to 40% of the intact value, but did not interfere with ovulation. Plasma LH and FSH levels of the animals with different knife cuts were considerably dissociated and there were no apparent correlations between brain interventions and the concentrations of these two hormones in the blood. Our previous findings together with the present data suggest that: half of the GnRH pathway, medial or lateral bundles of the pathway on the two sides are sufficient for ovulation and cyclic gonadotrophic function; persistent estrus develops if the ME GnRH content is below 40% of the control value, and about 60% of the ME GnRH originates outside the preoptic, supra- and retrochiasmatic region. Half of this 60% may come from the septum and the vertical part of the diagonal band of Broca, the other half from the region in front of the preoptic area. The remaining 40% presumably arises from the preoptic (7-10%), supra- (15-20%) and retrochiasmatic region (8-10%).

Is the knife-cut in the hypothalamus a permanent barrier to regrowth of nerve fibers? -an affirmative answer

The regenerative capacity of nerve fibers was studied in adult female rats. Horseradish peroxidase was injected into the anterior hypothalamus lateral to the suprachiasmatic nucleus 4 days, 6 weeks and 4 months, respectively, following an archiform retrochiasmatic knife-cut. The trajectory of the stained fibers was examined on horizontal sections of the hypothalamus. No nerve fibers could be seen sprouting across the scar-tissue of the knife-cut regardless of the survival time. In one rat (6-week survival time) a bundle of fine nerve fibers turned in a medial direction at the caudal end of the knife-cut, suggesting that sprouting fibers were destined to reinnervate parts of the deafferented medial-basal hypothalamus.

(D-Met2,Pro5)-enkephalinamide-induced blockade of ovulation and its reversal by naloxone in the rat

The effects of (D-Met2,Pro5)-enkephalinamide--a superactive enkephalin analogue--on the preovulatory discharge of gonadotrophic hormones and on ovulation were investigated. Injection of the opioid (16 nmol) into a lateral cerebral ventricle of regularly cycling female rats immediately before the critical period on the day of proestrus resulted in a blockade of ovulation and in a concomitant depression of the preovulatory plasma luteinizing hormone and follicle-stimulating hormone levels. A smaller dose of the opioid (2 nmol) did not inhibit ovulation. The inhibition of the preovulatory gonadotrophic hormone discharge and the blockade of ovulation by the opioid were reversed by naloxone administration. Our data are consistent with the view that the endogenous opioid peptides may be involved in the physiological regulation of the central neural events which lead to ovulation in the rat.

Direct neural connection from the medial preoptic area to the hypothalamic arcuate nucleus of the rat

Direct neural connections from the medial preoptic area (MPOA) to the arcuate nucleus were studied on light and electron microscope level by a multistep experimental procedure. The hypothalamic deafferentation technique of Halász and Pupp (1965) was used in itself or was combined with electrolytic lesions. In order to eliminate all fibers of more rostral source traversing the medial preoptic area an extended rostral preoptic deafferentation was made, and a survival time of at least 3 weeks was chosen to allow for the complete disappearance of the degenerated fragments from the arcuate nucleus. In the main experimental group the medial preoptic area was destroyed by an electrolytic lesion 3 or more weeks following such rostral preoptic deafferentations. In these animals degenerated fibers and terminals certainly of preoptic origin were found distributed bilaterally, with a predominance on the side of the lesion. - These data suggest that axons originating from medial preoptic neurons terminate in the arcuate nucleus, thus constituting a preoptico-tuberal pathway.

Data on the absence of axon terminals of medial preoptic area neurons in the surface zone of the median eminence

In order to investigate whether neurons of the medial preoptic area (MPOA) project to the surface zone (zona palisadica) of the median eminence (ME) and proximal part of the pituitary stalk, an electrolytic lesion or a frontal cut was placed in the pre- and suprachiasmatic region of the rat hypothalamus and the mentioned zone examined under the electron microscope. Degenerated nerve profiles were not observed int the zona palisadica following a lesion restricted to the MPOA or after a frontal cut at the posterior border of the MPOA. Altered elements were seen only in those cases in which the posterior part of the suprachiasmatic region was destroyed. The present data indicate that neurons of the MPOA do not terminate in the zona palisadica of the ME but presumably end on the nerve cells of the medial basal hypothalamus.

Data on protein synthesis of deafferented hypothalamic arcuate neurons

Protein synthesizing activity of the rat hypothalamic arcuate nucleus following partial or total deafferentation of the medial basal hypothalamus was studied by light and electron microscopic autoradiography when administering tritiated leucine into the lateral ventricle. There were significantly more grains over the arcuate nucleus 21 days after disconnection of this hypothalamic region than over the intact nucleus. Isolation of a temporal cortical region induced similar changes in the isolated area, although this effect was not so pronounced as in the arcuate region. Data suggest that the protein synthesizing activity of arcuate neurons increases significantly after interruption of neural connections of the medial basal hypothalamus. It is assumed that the effect is primarily due to transneuronal alteration and/or interruption of inhibitory afferents.