Brain neurotransmitter changes in three patients who had a fatal hyperthermia syndrome.

The authors examined the autopsied brains from three patients who had a fatal hyperthermia syndrome. There was marked hypothalamic noradrenaline depletion in all three patients, severe brain choline acetyltransferase deficiency with nucleus basalis cell loss in two patients, and mild to moderate brain choline acetyltransferase loss in one patient. Striatal dopamine metabolite/dopamine ratio was below normal in two patients and not elevated, as would be expected after short-term neuroleptic administration, in the third. This suggests that reduced capability (aggravated by the cholinergic deficit) of the nigrostriatal dopamine system to respond adequately to stress and/or neuroleptic-induced receptor blockade may be important in the development and course of fatal hyperthermia syndrome.

Glucagon-like immunoreactivity in hypothalamic neurons of the rat.

Antisera specific for three different regions of pancreatic proglucagon were used to examine the distribution of such immunoreactivity in rat hypothalamus. Neurons in the supraoptic and paraventricular nuclei were immunoreactive with an antiserum against glucagon, but not with antisera directed towards the aminoterminal region of proglucagon (glicentin) or the glucagon-like peptide I sequence in the carboxyl-terminal region of proglucagon. These findings confirm a previous report of glucagon-like immunoreactivity in the supraoptic and paraventricular nuclei, but indicate that, while this material is immunochemically related to glucagon, it is not derived from a proglucagon-like precursor.

Isolation of a neuropeptide corresponding to the N-terminal 27 residues of the pituitary adenylate cyclase activating polypeptide with 38 residues (PACAP38).

A novel neuropeptide with 38 residues (PACAP38) was isolated from ovine hypothalamic tissues using the pituitary adenylate cyclase activation in rat pituitary cell cultures as a parameter of the biological activity (Miyata et al, Biochem. Biophys. Res. Commun. 164, 567-574, 1989). From the side fractions obtained during the purification of PACAP38, a shorter form peptide with 27 residues corresponding to the N-terminal 27 amino acids of PACAP38 and amidated C-terminus was isolated and named as PACAP27. Synthetic PACAP27 showed a biological activity of adenylate cyclase stimulation comparable to PACAP38. Moreover PACAP27 which shows a considerable homology with vasoactive intestinal polypeptide (VIP) demonstrated a similar vasodepressor activity as VIP, but the adenylate cyclase stimulating activity was about 1000 times greater than VIP.

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.

Hyperphagia in obesity is associated with a central peptidergic dysregulation in rats.

Hyperphagia and obesity are often associated, and the origins of the biochemical modifications leading to these syndromes might be in the hypothalamus. Indeed, food intake is regulated by numerous neuropeptides in various hypothalamic nuclei, including the paraventricular (PVN), arcuate (ARC), ventromedian (VMN) and suprachiasmatic (SCH) nuclei. Among these peptides, neuropeptide Y (NPY) is the most potent inducer of food intake whereas neurotensin (NT) decreases food intake. We measured these two peptides in microdissected hypothalamic nuclei in obese Zucker rats that ate 30% more food than their lean counterparts. Neuropeptide Y and neurotensin levels varied in opposite directions: In the hyperphagic obese Zucker rats, the NPY concentrations were significantly greater than those in the lean normophagic rats in the ARC (+30%), PVN (+60%) and SCH (+94%) nuclei, whereas the NT levels were significantly lower in the ARC (-40%), PVN (-31%) VMN (-66%) and SCH (-47%) nuclei. Both these variations tend to increase food intake. Feeding periodicity might also be modified because large variations of the two peptides have been measured in the supra-chiasmatic nucleus, which is considered the most important regulator of feeding rhythm. The results reinforce the hypothesis that hyperphagia in obesity is associated with a biochemical modification in the central nervous system because the peripheral status of NT and NPY was not modified in the obese rats. Because levels of other hypothalamic peptides, such as opioid peptides and somatostatin, are also slightly modified, it can be concluded that hyperphagia in obesity is associated with a central peptidergic dysregulation. Research on drugs reacting specifically with the receptor of these peptides might have interesting implications for the treatment of hyperphagia and, therefore, of obesity.

Autoradiographic localization of [3H]RU 486 and [3H]progesterone in the uterus, pituitary and hypothalamus of the rat.

Twenty-one castrated oestrogen-primed Wistar rats, which were 2-months-old, were injected via the jugular vein with 100 mu Ci/100 g body weight of [3H]RU 486 or [3H]progesterone. Some of these received unlabelled compounds for competition studies. Samples of reproductive tract, pituitary and hypothalamus were excised after 15 min. The 4-microns frozen sections were processed for thaw-mounted autoradiography. The exposure time of the autoradiogram was approximately 6 months. After the injection of [3H]RU 486 and [3H]progesterone, the nuclear concentration of radioactivity was most distinct in muscular and stromal cells of the uterus, and the epithelial nuclei of lumina and glands showed weak labelling. Nuclear localization was also observed in muscle cells of the vagina, cervix and oviduct. After injection of [3H]progesterone, the radioactivity was found in the nuclei and cytoplasm of anterior pituitary cells and some cells showed a preferential nuclear concentration of radioactivity. The distribution of [3H]RU 486 in the anterior pituitary was more extensive than that of [3H]progesterone. In the hypothalamus, specific localization of [3H]RU 486 and [3H]progesterone existed in neurones accumulated in the preoptic nucleus, preoptic suprachiasmatic nucleus and the periventricular nucleus. No localization was found in the diaphragm. Pretreatment with RU 486, but not with dexamethasone, reduced the nuclear concentration of radioactivity of [3H]progesterone in the vagina, uterus, oviduct, pituitary and hypothalamus. The nuclear concentration of radioactivity after injection of [3H]RU 486 was also decreased by preinjection with progesterone. The autoradiographic results suggest that RU 486 and progesterone competed for the specific binding site (possibly a progesterone receptor) in the target cells at the levels of the uterus, pituitary and hypothalamus in vivo.

Neuropeptide Y expression in rat brain: effects of adrenalectomy.

Neuropeptide Y (NPY) messenger RNA was measured by hybridization of mRNA from the cortex, hippocampus, hypothalamus and striatum of rat brains. Adrenalectomized rats showed lowered level of NPY message in the striatum. A similar decline was found in the hypothalamus, while the cortex and hippocampus were unchanged. Levels of NPY message per unit total RNA were about the same for hypothalamus, cortex and striatum and about 50% less for hippocampus. Adrenalectomized rats that received replacement corticosterone had levels of NPY message that had returned to the levels found in rats receiving sham operation. Response elements consistent with our findings are reported in the NPY genomic sequence.

Effect of dietary energy, body condition and calf removal on pituitary gonadotropins, gonadotropin-releasing hormone (GnRH) and hypothalamic opioids in beef cows.

Beef cows (n = 64) were slaughtered to evaluate effects of dietary energy and calf removal (CR) on hypothalamic and adenohypophysial endocrine characteristics. From d 190 of gestation until parturition, cows received maintenance (ME; n = 32) or low (LE; n = 32) energy diets (ME = 100%, LE = 70% NRC recommendations). After parturition, half (n = 16) of each prepartum diet group received low (LE; n = 32) or high (HE = 130% NRC; n = 32) energy diets. At 30 d postpartum, cows were slaughtered 0 or 48 hr after CR. Hypothalami [preoptic area (POA), hypothalamus (HYP), stalk-median eminence (SME)] and pituitaries were collected. Basal and K(+)-induced release of GnRH from SME, and pituitary luteinizing hormone (LH) and follicle stimulating hormone (FSH) did not differ among groups (P greater than .05). Hypophyseal LH was correlated (P less than .01) with body condition score (BCS) at parturition and slaughter (r = .36 and .47, respectively). Prepartum LE diet increased (P less than .05) met-enkephalin in POA compared to prepartum ME (.59 +/- .05 vs. .44 +/- .04 pmol/mg) regardless of postpartum diet or suckling status. Concentrations of beta-endorphin in combined HYP + POA were decreased (P less than .05) by 48 hr CR (15.1 +/- 1.1 vs. 18.1 +/- 0.7 fmol/mg).(ABSTRACT TRUNCATED AT 250 WORDS)

Are putative dopamine-accumulating cell bodies in the hypothalamic periventricular organ a primitive brain character of non-mammalian vertebrates?

The brains of the chicken, Gallus domesticus, and two amphibians, the anuran Rana ridibunda and the urodele Pleurodeles waltlii, were investigated by means of immunohistochemical techniques with antibodies against dopamine (DA) and tyrosine hydroxylase (TH). As could be expected on the basis of the catecholamine biosynthetic pathway, cell bodies that are immunopositive for the DA antiserum also stain with the TH antibodies. However, a remarkable discrepancy is observed in the hypothalamic periventricular organ where liquor contacting cells exhibit DA- but no TH-immunoreactivity. Since similar results have been obtained in reptiles but not in mammals, it may be concluded that these putative DA-accumulating cells are a primitive brain character of non-mammalian vertebrates.

[Formation of S-100 containing cells of the hypothalamus and adenohypophysis in normal ontogenesis and in protein deficiency]. / Formirovanie S-100-soderzhashchikh kletok gipotalamusa i adenogipofiza v usloviiakh normal'nogo ontogeneza i pri belkovoi nedostatochnosti.

By means of the indirect immunohistochemical method distribution of S-100 containing cells has been studied in sections of the mediobasal hypothalamus (astrocytes) and adenohypophysis (follicular-stellate cells) in newborn, 10- and 21-day-old rats under normal development and under protein insufficiency. For this the animals are given the diet containing 6% of protein (control--25% of protein). S-100 containing cells are revealed in the hypothalamus and adenohypophysis in 10- and 21-day-old animals. In the brain of the newborn rats S-100 immunoreactive cells are not revealed. At the ultrastructural level the diaminobenzidine (DAB) reaction products in the immunoreactive cells are revealed diffusely along the whole cytoplasm of the cells, in nuclei the DAB reaction products are absent. Part of S-100 containing cells is essentially lowered, comparing with the control. In the rat adenohypophysis part of S-100 containing cells from the 10th up to the 21st day also decreases. Unlike the hypothalamus, however, content of cells, immunopositive to S-100 exceeds the analogous index in the control rats of the corresponding age groups.

Light and electron microscopic immunocytochemical analysis of antibodies directed against GnRH and its precursor in hypothalamic neurons.

A battery of antibodies directed against different portions of the precursor to gonadotropin-releasing hormone (GnRH), as well as to the mature decapeptide, were characterized immunocytochemically in two ways. Absorption experiments were used to determine the epitope recognized by each antiserum. Electron microscopic immunocytochemistry was then used to define the subcellular organelles that contained reaction product when tissue was incubated with these reagents. These latter observations helped to determine if the antibody recognized the epitope as part of the intact precursor or only after it had been cleaved from parent protein. Our results demonstrate that the GnRH precursor is routed from the rough endoplasmic reticulum through the Golgi apparatus to the secretory vesicles. Furthermore, we show that initial cleavage and processing of the GnRH precursor begin in the cell soma. These antibodies should be useful in the future in determining changes in processing of precursor in animals that differ in endocrine function.

Estrogen increases galanin immunoreactivity in hyperplastic prolactin-secreting cells in Fisher 344 rats.

Galanin is a widely distributed regulatory peptide which modulates the pituitary secretion of PRL and GH. Estrogen administration strongly stimulates galanin gene expression in the rat anterior pituitary. In adult female Fischer 344 rats, estrogen also induces hyperplasia of lactotropes. We used immunocytochemical analysis to assess the effects of estrogen on galanin-like immunoreactivity (Gal-IR) in the rat pituitary and hypothalamus during sc diethylstilbestrol (DES) implantation and after its removal at 30 days. In the anterior pituitary, DES implantation increased the portion of Gal-IR-containing cells from less than 2% in the control rats to 18.3% after 3 days of DES and 36% after 30 days. These changes paralleled the lactotrope hyperplasia exhibited in response to DES exposure. Ten and 30 days after removal of the DES capsules, the percentage of Gal-IR-containing cells in the anterior pituitary decreased to 6.3% and 1.5%, respectively. Colocalization studies revealed that Gal-IR-containing cells were predominantly lactotropes. Immunoelectron microscopy demonstrated that Gal-IR was concentrated in the Golgi region of these hyperplastic lactotropes and suggests that little of the synthesized galanin is secreted. The distribution of Gal-IR in the hypothalamus, median eminence, and neurohypophysis was unaffected by DES treatment. These data demonstrate that galanin is synthesized by hyperplastic pituitary lactotropes of Fischer 344 rats and that peptide accumulation is dependent on the presence of circulating estrogens. In contrast, neuronal galanin synthesis in the hypothalamus does not appear to be regulated by estrogen.

[Increase of noradrenaline contents in the hypothalamus of neonatal female rats under the effects of 4-hydroxyestradiol-17beta]. / Povyshenie soderzhaniia noradrenalina v gipotalamuse novorozhdennykh krys-samok pod vozdeistviem 4-gidroksiéstradiola-17beta.

Catecholamine content was studied in hypothalamus of neonatal Wistar female rats treated with 4-hydroxyestradiol-17 (4-OH-E2) in a dose of 10 mg for 1-5 days of life. 4-OH-E2 induced a reliable increase in hypothalamic noradrenaline level in 24 h after the last injection, but not on the 7th, 10th or 12th postnatal days. There was no change in dopamine level. We have postulated a relationship between the increase in hypothalamic noradrenaline content induced by 4-OH-E2 and defeminization effects of 4-OH-E2 on the developing brain of female rats.

Chicken GnRH II occurs together with mammalian GnRH in a South American species of marsupial (Monodelphis domestica).

Two molecular forms of gonadotropin-releasing hormone (GnRH) were demonstrated in hypothalamic extracts of M. domestica using high performance liquid chromatography and radioimmunoassay with specific GnRH antisera. One form eluted in the same position as synthetic mammalian GnRH and was quantified equally by two mammalian GnRH antisera, while the second form coeluted with synthetic chicken GnRH II and was quantified equally with two chicken GnRH II antisera. The finding of chicken GnRH II in a South American species of marsupial, which has previously been reported in some Australian species of marsupial and in species of Aves, Reptilia, Amphibia, Osteichthyes and Chondrichthyes, supports our hypothesis that this widespread structural variant may represent an early evolved and conserved form of GnRH.

Rat spleen lymphocytes contain an immunoactive and bioactive luteinizing hormone-releasing hormone.

An interaction between the immune and endocrine systems has been long known. This association is further strengthened by the finding that splenic lymphocytes have the capacity to produce molecules similar to if not the same as classical hormones, including several members of the opiate family, PRL, GH, and neuropeptide Y. Because of such findings and because of information from other laboratories suggesting that LHRH might have direct effects upon the immune system, we hypothesized that immune cells themselves might contain LHRH. Lymphocytes were purified from spleens of intact adult male Sprague-Dawley rats and the cells were lysed with sodium hydroxide. The concentration of immunoreactive LHRH was 403 +/- 184 pg/20 X 10(6) lymphocytes. Increasing amounts of lymphocyte lysate displaced [125-I]LHRH from LHRH antibody in a manner parallel to that produced by synthetic hypothalamic LHRH, suggesting immunologic similarity between lymphocyte and hypothalamic LHRH. Lymphocyte LHRH-like immunoactivity coeluted from Nova-Pak C18 columns with synthetic hypothalamic LHRH. When lymphocyte lysates were applied to rat anterior pituitary cells in monolayer culture, significant stimulation of LHRH secretion was seen, from 2,144 +/- 54 pg LH/ml.4 h to 15,364 +/- 587 pg LH/ml.4 h (P less than 0.001), a finding verified in five additional experiments. In other studies, this LH response evoked by lymphocyte lysates was found to be dose dependent and could be significantly inhibited by an LHRH-antagonist. Furthermore, when lymphocyte lysate and identically treated synthetic LHRH were HPLC fractionated, there was coelution of lysate and hypothalamic LHRH bioactivity. The lysate itself contained no substantial LH immunoreactivity. Thus, lymphocytes from spleens of adult male rats contain an immunoactive and bioactive LHRH, a finding further strengthening an association between the endocrine and immune systems.

Evidence for high molecular weight immunoreactive thyrotropin-releasing hormone (TRH) precursor forms in the developing mouse hypothalamus. Simultaneous immunolocalization with TRH in cultured neurons.

Two antisera (Anti-P7 and Anti-P10) were raised against (-Gln-His-Pro-Gly-) elongated peptides: P7 Gln-His-Pro-Gly-Lys-Arg-Phe) and P10 (Ser-Lys-Arg-Gln-His-Pro-Gly-Lys-Arg-Phe). They recognized TRH extended peptides but not TRH. A RIA against P7 and a highly sensitive enzyme immunoassay against P10 were used to identify two major high mol wt forms of 25-35 K and 6-8 K in chromatography fractions of adult and fetal mouse as well as adult rat hypothalami. The existence of the largest form was confirmed by immunoblotting with Anti-P7. During mouse hypothalamus development in vivo and in vitro, the ratio of TRH content vs. P10-associated immunoreactivity increased several times. This suggests that these Pro-TRH peptides are precursors of TRH biosynthesis and indicate an acceleration of TRH processing during development. Double immunostaining with A-TRH and A-P7 of hypothalamic cells taken on the 16th fetal day and cultured for 6, 12, and 18 days in vitro (DIV) revealed three populations of neurons: 1) a very minor population (approximately 2%) of small round cells positive with A-TRH only; 2) a major population of neurons positive with both A-TRH and A-P7. 3) multipolar neurons positive with A-P7 only (up to approximately 45% after 18 DIV). The respective distribution of TRH and P7 along neurites also varied with time in culture. Whatever perikarya staining, TRH was restricted to short neurites and growth cones before synapse formation and, during synapse development, to varicosities and terminal boutons. However even at the latest stage examined some varicosities and terminal boutons were positive with A-P7 only. These results suggest a preferential processing of pro-TRH at a post-Golgi step during axonal transport to growth cones and synaptic boutons.

Oxytocinergic neurons in rat hypothalamus. Dexamethasone-reversible increase in their corticotropin-releasing factor-41-like immunoreactivity in response to osmotic stimulation.

Recent results have demonstrated altered corticotropin-releasing factor (CRF)-41 content of the neurointermediate lobe (NIL) of the pituitary gland in response to various manipulations including osmotic stimulation. This study was undertaken to determine whether changes in CRF-41 content of the NIL are accompanied by changes in intensity of CRF-41-like immunoreactivity (CRF-41-LI) of neurosecretory neurones of the hypothalamus in response to osmotic stimulation. Wistar rats of both sexes given either tap water ad libitum, 2% NaCl solution, or access to tap water was limited to 20 min daily, for 7 days. Subsets of rats from each group were adrenalectomized (ADX) or treated with dexamethasone (DEX). Thirty-six hour before perfusion with fixative consisting of buffered formaldehyde and picric acid, animals received 75 micrograms colchicine i.c.v. Forty micrometer thick vibratome sections were stained for CRF-LI, arginine vasopressin (AVP-LI) and oxytocin (OXY-LI) using the avidin-biotin-peroxidase complex method. In response to both types of osmotic stimulation magnocellular neurones of the paraventricular (PVN) and supraoptic nuclei (SON) showed increased CRF-LI, AVP-LI and OXY-LI, while CRF-LI of parvocellular perikarya of the PVN decreased. The enhanced CRF-LI seemed to appear in a subset of magnocellular neurones with OXY-LI but not AVP-LI. Increased staining intensities were also observed in magnocellular neurones in ADX rats challenged osmotically. In contrast, systemic DEX administration, as well as implantation of DEX in the area on the SON, sharply attenuated CRF-LI but not AVP-LI or OXY-LI of magnocellular neurones in osmotically stimulated rats.(ABSTRACT TRUNCATED AT 250 WORDS)

Identification of neurophysin immunoreactivity in hypothalamus by a monoclonal antibody to a carcinoma cell surface antigen.

Mouse monoclonal antibody (mAb) L6 identifies an antigen expressed on the cell surface of many different human carcinomas. While studying the binding activity of mAb L6 to intracerebral tumor xenografts of human lung carcinoma LX-1 cells in nude rats using immunohistological techniques, we observed that L6 can also bind to a cytoplasmic antigen expressed in the magnocellular component of the hypothalamo-neurohypophysial system. Double-labeling experiments with antisera to vasopressin and oxytocin confirmed the localization of L6 immunoreactivity within both peptide-containing cell groups. L6 immunoreactivity in Brattleboro rats (with genetic deletion in the vasopressin gene) was exclusively localized within oxytocin neurons. Oxytocin and vasopressin failed to block L6 staining which suggested that its target epitope resides within the neurophysin sequence, and this explanation was supported by the finding that adsorption of L6 with porcine neurophysin completely eliminated hypothalamic immunoreactivity. Western blot analysis of bovine neurophysin and human pituitary extracts identified L6-immunoreactive bands which corresponded to the position of neurophysin and pro-pressophysin, confirming that L6 immunoreactivity in hypothalamus is related to neurophysin. Thus, monoclonal antibody L6, which is highly reactive with a membrane antigen of human lung cancer cell line LX-1, recognizes a cytoplasmic epitope in hypothalamic neurons identified as neurophysin by immunohistochemistry and Western analysis.

The immunostaining for the hypothalamic vasoactive intestinal peptide, but not for beta-endorphin, dynorphin-A or methionine-enkephalin, is affected by the glucocorticoid milieu in the rat: correlation with the prolactin secretion.

Effects of the glucocorticoid milieu on the basal and ether stress-induced prolactin (PRL) release and on the immunostaining for hypothalamic vasoactive intestinal peptide (VIP), beta-endorphin (beta-EP), dynorphin-A (DYN-A) and methionine-enkephalin (Met-ENK), were examined in separate groups of male rats. After colchicine treatment in intact rats, VIP-containing cell bodies were observed only in the suprachiasmatic nucleus (SCN). Adrenalectomy (ADX), performed 7 days previously, resulted in the additional appearance of VIP-immunoreactive neurons in the parvocellular subdivision of the paraventricular nucleus (PVN), as well as in significantly higher basal and stressed PRL levels than intact values. Treatment of intact rats with a high dose (500 micrograms/kg body weight (s.c.) daily for 7 days) of dexamethasone (DEX), but not with a low dose (50 micrograms/kg) of DEX, significantly reduced both the basal and stressed PRL release. Administration of either the low or high dose of DEX to ADX rats prevented the appearance of the PVN-VIP neurons. In addition, the ADX-induced high basal and stressed PRL levels were restored to intact values by the low dose of DEX, and completely suppressed by the high dose of DEX. The staining of SCN-VIP-, beta-EP-, DYN-A or Met-ENK neurons was not affected by any treatment employed in this study. These results suggest that the appearance of PVN-VIP immunostaining in ADX rats may, at least in part, be responsible for the enhanced PRL secretion observed in this group. However, SCN-VIP-, beta-EP-, DYN-A- or Met-ENK neurons do not seem to play a pivotal role in the glucocorticoid regulation of PRL secretion.

Alleviation of hysteria in laying hens with dietary tryptophan.

A commercial layer breeder flock that was suffering from hysteria was fed a diet containing 5 grams tryptophan/kg for six days. The incidence of episodes of hysteria declined from five times/hour on day 0 to once/hour on day 6 and none on day 8. Feed consumption increased from 107 g to 145 g/hen/day and egg production increased 23% during the six day feeding period. The tryptophan concentration in plasma doubled (from 95.6 to 188.2 mumol/mL). Plasma phenylalanine and tyrosine also increased. Birds that were not in lay, by postmortem examination, had significantly higher plasma valine concentrations (476.4 vs 372.7 mumol/mL). Tryptophan, serotonin and related metabolites increased in both the hypothalamic region and the remainder of the brain following tryptophan feeding, and subsequently declined. High levels of dietary tryptophan may be useful in alleviating hysteria in poultry.