Conditioned flavor preference and aversion: Role of the lateral hypothalamus.

Food-restricted rats with ibotenic acid lesions of the lateral hypothalamus (LH) and sham controls were trained to associate flavored solutions with positive or negative postingestive consequences. The LH rats learned to prefer a flavor that was paired with concurrent intragastric infusions of maltodextrin. Unlike controls, the LH rats failed to learn a preference for a flavor paired with delayed maltodextrin infusions and showed an attenuated preference for a flavor paired with concurrent fat infusions. The LH rats did not differ from controls in learning to avoid flavors paired with concurrent or delayed infusions of lithium chloride. These data indicate that the LH is not essential for all types of flavor-postingestive consequence conditioning but is critical for learning to associate flavors with delayed nutrient feedback. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Evidence that the mediobasal hypothalamus is the primary site of action of estradiol in inducing the preovulatory gonadotropin releasing hormone surge in the ewe

Although a neural site of action for estradiol in inducing a LH surge via a surge of GnRH is now well established in sheep, the precise target(s) for estrogen within the brain is unknown. To address this issue, two experiments were conducted during the breeding season using an artificial model of the follicular phase. In the first experiment, bilateral 17beta-estradiol microimplants were positioned in either the medial preoptic area (MPOA) or the mediobasal hypothalamus (MBH), and LH secretion was monitored. An initial negative feedback inhibition of LH secretion was observed in ewes that had estradiol microimplants located in the MPOA (6 of 6 ewes) or caudal MBH in the vicinity of the arcuate nucleus (4 of 4). In contrast, a normal LH surge was only found in animals bearing estradiol microimplants in the MBH (5 of 10). Detailed analysis of estradiol microimplant location with respect to the estrogen receptor-alpha-immunoreactive cells of the hypothalamus revealed that 4 of the 5 ewes exhibiting a LH surge had microimplants located bilaterally within or adjacent to the area of estrogen receptor-expressing cells of the ventromedial nucleus. Two of these ewes exhibited a LH surge without showing any form of estrogen negative feedback. In the second experiment, we used the technique of hypophyseal portal blood collection to monitor GnRH secretion directly at the time of the LH surge induced by estradiol delivered either centrally or peripherally. Central estradiol implants induced the GnRH surge. The duration and mean plasma concentration of GnRH during the surge were not different between animals given peripheral or central MBH estradiol implants. Cholesterol-filled MBH microimplants did not evoke a GnRH surge. We conclude that the ventromedial nucleus is the primary site of action for estradiol in stimulating the preovulatory GnRH surge of the ewe, whereas the MPOA and possibly the caudal MBH are sites at which estrogen can act to inhibit LH secretion. These data provide evidence for the sites within the ovine hypothalamus responsible for mediating the bimodal influence of estradiol on GnRH secretion and suggest that different, and possibly independent, neuronal cell populations are responsible for the negative and positive feedback actions of estradiol.     

Molecular diagnosis and monitoring of acute myeloid leukemia

Using an in vitro static incubation system of adult male rat hypothalami, we have studied the effect of melatonin on the release of gonadotropin-releasing hormone (GnRH) and cyclic adenosine monophosphate (cAMP). Mediobasal hypothalamus (MBH) and preoptic area (POA) were incubated separately in Minimum Essential Medium (MEM) for 6 h. The release of GnRH was measured by radioimmuno-assay in the incubation medium sampled every 7.5 min. In the MBH and POA incubation medium, the mean amount of GnRH released was 8.9 +/- 1.1 and 3.4 +/- 0.6 pg GnRH/7.5 min, respectively (P < 0.01). The mean number of GnRH pulses under basal conditions was 2 +/- 0.3 per 2 h in the MBH and 1.6 +/- 0.3 per 2 h in the POA (P > 0.05). Melatonin (10(-8) M) did not alter the release of GnRH in the presence or absence of forskolin (10(-4) M). Melatonin, which was without effect on basal cAMP, inhibited forskolin-stimulated cAMP accumulation in the medium by 50% in the MBH and 40% in the POA. These results suggest that in our incubation system, melatonin does not modify GnRH release, but probably acts through the melatonin binding sites located in the hypothalamus to inhibit forskolin-stimulated cAMP.     

Changes in mediobasal hypothalamic gonadotropin-releasing hormone messenger ribonucleic acid levels induced by mating or ovariectomy in a reflex ovulator, the ferret

The ferret is a reflex-ovulating species in which receipt of an intromission induces a prolonged (+/- 12 h) preovulatory LH surge in the estrous female. This LH surge is probably stimulated by a large release of GnRH from the mediobasal hypothalamus (MBH). In Exp 1 we asked whether GnRH messenger RNA (mRNA) levels increase in response to mating so as to replenish the MBH GnRH stores needed to sustain the preovulatory LH surge. Estrous females were killed 0, 0.25, 0.5, 1, 3, 6, 14, or 24 h after the onset of a 10-min intromission from a male. Coronal brain sections ranging from the rostral preoptic area caudally to the posterior hypothalamus were processed for in situ hybridization using a 35S-labeled oligoprobe complementary to the human GnRH-coding region. We found no evidence of increased MBH GnRH mRNA levels during the ferret's mating-induced preovulatory LH surge. Instead, the number of GnRH mRNA-expressing cells dropped significantly in the arcuate region beginning 6 h after onset of intromission and remained low thereafter. Furthermore, cellular GnRH mRNA levels decreased in the arcuate region toward the end of the preovulatory LH surge. In Exp 2 we asked whether ovarian hormones regulate MBH GnRH mRNA levels in the female ferret. Ovariectomy of estrous females significantly reduced the number of GnRH mRNA-expressing cells in the arcuate region. This decrease was probably not due to the absence of circulating estradiol. Gonadally intact anestrous females had levels of MBH GnRH mRNA similar to those in estrous females even though plasma estradiol levels were equally low in anestrous females and ovariectomized females. Ovarian hormones other than estradiol may stimulate MBH GnRH mRNA levels in anestrous and estrous females.     

Dual origins of Finns revealed by Y chromosome haplotype variation

The objective of this study was to determine effects of photoperiod and age on the circulating concentrations of LH, testosterone (T), thyroxine (T4), and semen production in male turkeys. Male turkeys from 10 or 12 wk of age were maintained under either a long-day (LD) photoperiod of 16L:8D up to 35 wk (LL), or a short-day (SD) photoperiod of 6L:18D to 29 wk and then an LD photoperiod of 16L:8D up to 35 wk of age (SL). Plasma concentrations of both LH and T increased by 17 or 18 wk of age under both photoperiods, but higher levels were attained in the LL group prior to 29 wk of age. Both LH and T levels increased significantly within days in the SL group after the group was switched to LD at 29 wk of age. Higher levels of T4 were present in the LL group prior to sexual maturation. No differences were observed in T4 concentration between lighting treatments after sexual maturation. The LL group first produced semen at 20-22 wk of age, which was about 1 wk earlier than first semen production in the SL group. A significantly larger volume of semen was produced in the LL group at most ages. No further increase in semen production was observed in the first 6 wk after the SL group was switched to the LD photoperiod at 29 wk of age. Pulsatile patterns of LH and T were characterized by serial blood sampling at 13, 23, and 35 wk of age under both the LL and SL photoperiods. The baseline levels of both LH and T in male turkeys were influenced by age and photoperiod. However, pulse characteristics (numbers, duration, and amplitude) of LH did not change with age or lighting treatment, while pulse characteristics of T did change with age. We conclude that exposing male turkeys to an LD photoperiod from 10 or 12 wk of age advanced the age of sexual maturation and induced earlier increased concentrations of LH and T.     

Photoperiod-melatonin relay in deer

Long-lived mammals from cold and temperate climates, including many species of deer, express overt cycles in reproduction, moulting, fattening and other characteristics. These cycles persist under constant conditions, but are normally induced and entrained by the annual cycle in daylength. The photoperiod-relay involves the eyes, the suprachiasmatic nuclei (SCN) of the hypothalamus and the pineal gland which secretes melatonin only at night. The duration of daily melatonin secretion varies with daylength and provides an internal endocrine signal for the time-of-year. In deer, treatments with melatonin induce phase-shifts in all overt seasonal rhythms. Melatonin is thought to act on specific target cells in the brain and pituitary gland which express high affinity melatonin receptors. In sheep, micro-implants of melatonin placed in the mediobasal hypothalamus (MBH) induce a complete spectrum of short-day responses, while surgical disconnection of the pituitary gland blocks all photoperiodic responses except for the regulation of prolactin. These observations support the 'dual-site hypothesis' that melatonin acts primarily in the MBH to control gonadotrophin secretion and the reproductive axis, but acts primarily in the pituitary gland via the pars tuberalis, to control prolactin secretion and the pelage axis. This differential regulation helps explains how prolactin can be 'the hormone of summer' in all photoperiodic ungulates irrespective of their seasonal breeding characteristics.     

Modulation of prolactin receptors in the rat hypothalamus in response to changes in serum concentration of endogenous prolactin or to ovine prolactin administration

Specific binding of 125I-labeled rat prolactin (125I-rat PRL) to hypothalamic membranes was studied in Sprague-Dawley rats after ovine PRL administration and in relation to rat PRL serum variations induced by ectopic pituitary implants or by drugs which stimulate (domperidone) or inhibit (bromocriptine) PRL release. Repeated treatments with ovine PRL markedly increased specific binding values of 125I-rat PRL to hypothalamic membranes of female rats. Repeated treatments with domperidone also increased specific PRL binding in the hypothalamus. This effect was associated with an increase in PRL serum levels. Similar results were obtained in male rats after renal pituitary implants which resulted in a state of chronic hyperprolactinaemia. In contrast, a subchronic treatment with bromocriptine decreased specific PRL binding in the hypothalamus and concomitantly caused a sharp reduction in PRL serum levels. Scatchard analysis of data obtained from competition curves showed that the variations in the level of PRL binding to hypothalamic membranes were related to the number of PRL binding sites but not to the dissociation constant (Kd), which was unaffected by different treatments or by pituitary implantation. These results demonstrate a correlation between circulating concentrations of PRL and number of its receptors in the rat hypothalamus and give further support to the hypothesis that these binding sites may have a specific functional role in regulating the homeostasis of pituitary PRL secretion.     

Changes in densities of hypothalamic mu opioid receptor during cupric acete-induced preovulatory lh surge in rabbit

Decrease in activity of hypothalamic beta-endorphin (beta-EP) is an important factor for inducing the preovulatory LH surge. To study whether hypothalamic mu opioid receptor is involved in this process, changes in densities of hypothalamic mu opioid receptors were observed in this study by autoradiography and image process during cupric acetate (CuAC)-induced preovulatory LH surge in rabbits. New Zealand female rabbits were injected 1% CuAC 0.9 ml or saline 0.9 ml and sacrificed at different times after the injection. The densities of mu opioid receptor in the medial basal hypothalamus (MBH) and the medial preoptic area (MPO) were measured. A transient increase in densities of MPO mu opioid receptor were observed 1 h after CuAC injection (P < 0.05). The densities of MPO mu opioid receptor decreased significantly before the onset of the LH surge (P < 0.05) and remained at a low level during the surge. The change in densities of mu opioid receptor in the MBH was similar to those in the MPO. No change was observed in the saline control group. There was a negative correlation between the changes in densities of MBH mu opioid receptor and serum LH levels in the process of LH surge. The results suggest that the decrease of hypothalamic mu opioid receptor may be involved in the preovulatory LH surge.     

Neural levels of cholecystokinin peptide and mRNA during dietary stimulation of growth and LH secretion in growth-retarded lambs

Chronic feed restriction of prepubertal male lambs adversely affects reproductive development by inhibiting the pulsatile release of luteinizing hormone (LH). Because this effect can be reversed by ad libitum feeding, the associations between diet-induced increases in LH release and concurrent changes in body weight gain, serum glucose. CCK peptide, and CCK mRNA were examined. Neonatally castrated male lambs received a restricted ration to maintain their respective weaning weights beginning at 8 wk of age. At 23 wk of age, lambs were assigned randomly to receive additional feed equivalent to 0%, 50%, or 100% of their previous daily intake. Serum profiles of LH and glucose were determined 2 and 4 wk after onset of the increased intakes. At 27 wk of age, lambs were euthanized and both hypothalamic and cerebral cortical tissues were collected for analysis of CCK peptide and CCK mRNA. With additional intakes, body weight gain increased (P < 0.001) proportional to the graded increases in feed intake. Mean serum LH concentrations, LH peak frequencies, and serum glucose concentrations also increased (P < 0.05) progressively among the 0%, 50%, and 100% dietary intake groups. Neither CCK peptide nor CCK mRNA differed (P > 0.05) among dietary groups suggesting that endogenous CCK in the whole hypothalamus did not change with the feeding-induced increase in LH release. Concentrations of CCK peptide in cerebral cortex were greater (P < 0.05) than hypothalamic concentrations, but there were no differences between hypothalamus and cerebral cortex in the relative abundance of CCK mRNA. In summary, dietary stimulation of growth-retarded male lambs resulted in progressive increases in body weight gain, mean serum LH, serum glucose, and LH peak frequencies. Because hypothalamic levels of CCK peptide and CCK mRNA did not change during feeding-induced secretion of LH, endogenous CCK in the hypothalamus seems unlikely as a chronic mediator of nutrition-sensitive LH release.     

Estrogen increases affinity of oxytocin receptors in the medial preoptic area-anterior hypothalamus

Analysis of binding data from saturation experiments using a radiolabeled oxytocin antagonist ([125I]OTA) demonstrated an increase in binding affinity after treatment with 5 micrograms estradiol benzoate (EB) for 3 days in membrane fractions from the medial preoptic area-anterior hypothalamus (MPOA-AH) of ovariectomized (OVX) rats. Analysis of data from competition experiments revealed high- and low-affinity [125I]OTA binding sites in the MPOA-AH, the medial basal hypothalamus (MBH), and hippocampus of OVX controls. Three days of EB treatment reduced low-affinity binding sites in the MPOA-AH and MBH, but not in the hippocampus. Treatment of membrane fractions from the MPOA-AH of oil-treated OVX rats in vitro with 100 nM OT or with estrogen or progesterone conjugated to bovine serum albumin (E-BSA and P-BSA) also reduced low-affinity [125I]OTA binding sites but BSA alone did not.     

Studies on stannous fluoride toothpaste and gel (1). Antimicrobial properties and staining potential in vitro

Although there is evidence that endogenous opioids, and in particular beta-endorphin (beta-EP), may mediate some of the suppressive effects of hyperprolactinemia on the hypothalamic-pituitary-gonadal (HPG) axis, there is controversy about the effects of prolactin (PRL) on beta-EP and its precursor, proopiomelanocortin (POMC), in the hypothalamus. In this study we have therefore examined the effects of chronic peripheral and intracerebroventricular (i.c.v.) infusion of ovine PRL on POMC gene expression and beta-EP levels in the medial basal hypothalamus (MBH) of castrated male and female rats. Endogenous pituitary and plasma PRL levels were determined by RIA with an antiserum to rat PRL which does not crossreact with oPRL. Suppression of endogenous rPRL levels was used as a confirmation of the biological effectiveness of the infused oPRL. POMC mRNA was measured in the MBH by solution hybridization assay. In the first experiment oPRL (5 microg/microl/h) or vehicle was infused for 2 weeks by osmotic minipump into the right lateral ventricle of ovariectomized rats. The mean plasma concentration of rPRL declined from 3.7+/-1.0 ng/ml in the controls to 1.4+/-0.13 ng/ml in the oPRL infused animals (P<0.05); pituitary rPRL content similarly decreased from 39.1+/-4.6 microg to 20.4+/-3.7 microg (P<0.02). There was no significant change in the concentration of POMC mRNA or beta-EP in the MBH of the oPRL treated animals. In the second experiment oPRL was infused for 1 week into the third ventricle of orchiectomized rats. Again despite a fall in endogenous PRL levels, there was no significant change in POMC or beta-EP in the MBH. In the third experiment oPRL was infused subcutaneously into orchiectomized rats for 2 weeks. Mean plasma oPRL levels were 150+/-7.3 ng/ml after 1 week and 58+/-7.5 ng/ml after 2 weeks. Pituitary rPRL content was again suppressed in the oPRL treated animals but no change in POMC or beta-EP was detected in the MBH. We conclude that oPRL can be infused both peripherally and centrally for up to 2 weeks with resulting suppression of endogenous pituitary PRL content and release. Under these conditions no effects on the concentrations of POMC mRNA or beta-EP could be demonstrated in the hypothalamus. These results suggest that either PRL has nongenomic effects on hypothalamic beta-EP or that endogenous opioids other than beta-EP mediate the suppressive effects of PRL on the HPG axis.     

Melatonin binding in the house sparrow song control system: sexual dimorphism and the effect of photoperiod

Avian song is a sexually dimorphic behavior which is regulated seasonally. This regulation involves the construction and growth of song control structures: the high vocal center (HVC), nucleus robustus archistrialis (RA), nucleus magnocellularis anterior (MAN), and Area X. Song behavior and its neural correlates are controlled by steroid-dependent and independent processes. The avian circadian system is known to be involved in both daily processes and seasonal reproduction. A major part of this system is the circadian secretion of melatonin by the pineal gland. To determine possible interactions of the circadian and song control systems, the distribution and density of 2-[125I]iodomelatonin (IMEL) binding, an indicator of melatonin sensitivity, were determined in male and female house sparrow brains. Specific binding was found in visual system centers of both genders, but binding in HVC, RA, and Area X was present only in males. Binding in MAN was present in both sexes. Although the effects of short and long photoperiods on male house sparrow IMEL binding in song structures revealed no systematic changes, there were significant differences in binding under different photoperiods in HVC and RA. IMEL binding in the tectofugal nucleus rotundus, however, was consistently highest under short day conditions. IMEL binding in song control nuclei was independent of testicular influence, since castration did not affect it significantly. The data point to a role for the circadian system of house sparrows in song control, but a specific role for melatonin in the daily or seasonal regulation of the song control system in birds, could not be determined.     

Preoptic rather than mediobasal hypothalamic amino acid neurotransmitter release regulates GnRH secretion during the estrogen-induced LH surge in the ovariectomized rat

Inhibitory and excitatory amino acid neurotransmitters have been suggested to participate in the feedback actions of estradiol (E2) on LH secretion. In the rat estrogen-receptive neurons have been demonstrated in the preoptic/anterior hypothalamic area (POA) and mediobasal hypothalamus/median eminence (MBH) and many of these neurons utilize gamma-aminobutyric acid (GABA) as neurotransmitter. The actions of excitatory amino acids (EAA) differ in ovariectomized (ovx) and ovx E2-substituted rats indicating that EAAs also participate in the positive feedback action of E2 on LH release. However, little information is available as to whether in vivo these transmitters exert their effects in the POA, where most of the GnRH perikarya are located, or in the MBH, i.e. at the nerve terminals. Therefore we conducted push pull cannula perfusions to compare the release rates of GABA, aspartate (ASP) and glutamate (GLU) in the MBH and POA. A subcutaneous implant of a silastic tube containing E2 resulted in LH surges in the afternoon of all treated animals. Prior to and during this LH surge the MBH release rates of neither GABA nor ASP nor GLU were significantly altered. In contrast, a conspicuous drop in preoptic GABA release occurred prior to and during the time of estrogen-induced LH surges and this was accompanied by enhanced preoptic secretion of ASP and GLU. In conclusion, we present the first data about amino acid release in the MBH during the E2-induced LH surge. Since only in the POA the LH surge is associated with changes in amino acid release, it appears that both inhibitory and excitatory amino acids act at the level of the GnRH cell bodies and/or dendrites and not on GnRH nerve terminals to mediate the feedback mechanism of E2 on LH release.     

Long-term results of cobalt 60 curietherapy for uveal melanoma

Gonadotropin secretion by the pituitary gland is under the control of luteinizing hormone-releasing hormone (LHRH) and the putative follicle stimulating hormone-releasing factor (FSHRF). Lamprey III LHRH is a potent FSHRF in the rat and seems to be resident in the FSH controlling area of the rat hypothalamus. It is an analog of mammalian LHRH and may be the long sought FSHRF. Gonadal steroids feedback at hypothalamic and pituitary levels to either inhibit or stimulate the release of LH and FSH, which is also affected by inhibin and activin secreted by the gonads. Important control is exercised by acetylcholine, norepinephrine (NE), dopamine, serotonin, melatonin, and glutamic acid (GA). Furthermore, LH and FSH also act at the hypothalamic level to alter secretion of gonadotropins. More recently, growth factors have been shown to have an important role. Many peptides act to inhibit or increase release of LH and the sign of their action is often reversed by estrogen. A number of cytokines act at the hypothalamic level to suppress acutely the release of LH but not FSH. NE, GA, and oxytocin stimulate LHRH release by activation of neural nitric oxide synthase (nNOS). The pathway is as follows: oxytocin and/or GA activate NE neurons in the medial basal hypothalamus (MBH) that activate NOergic neurons by alpha, (alpha 1) receptors. The NO released diffuses into LHRH terminals and induces LHRH release by activation of guanylate cyclase (GC) and cyclooxygenase. NO not only controls release of LHRH bound for the pituitary, but also that which induces mating by actions in the brain stem. An exciting recent development has been the discovery of the adipocyte hormone, leptin, a cytokine related to tumor necrosis factor (TNF) alpha. In the male rat, leptin exhibits a high potency to stimulate FSH and LH release from hemipituitaries incubated in vitro, and increases the release of LHRH from MBH explants. LHRH and leptin release LH by activation of NOS in the gonadotropes. The NO released activates GC that releases cyclic GMP, which induces LH release. Leptin induces LH release in conscious, ovariectomized estrogen-primed female rats, presumably by stimulating LHRH release. At the effective dose of estrogen to activate LH release, FSH release is inhibited. Leptin may play an important role in induction of puberty and control of LHRH release in the adult as well.     

Assessment of pituitary function after transsphenoidal hypophysectomy in beagle dogs

Pituitary function was assessed in healthy adult beagle dogs before and after hypophysectomy. Anterior pituitary function was tested by use of the combined anterior pituitary (CAP) function test, which consisted of sequential 30-sec intravenous injections of four hypothalamic releasing hormones, in the following order and doses: 1 microgram of corticotropin-releasing hormone (CRH)/kg, 1 microgram of growth hormone-releasing hormone (GHRH)/kg, 10 micrograms of gonadotropin-releasing hormone (GnRH)/kg, and 10 micrograms of thyrotropin-releasing hormone (TRH)/kg. Plasma samples were assayed for adrenocorticotropin (ACTH), cortisol, GH, luteinizing hormone (LH), and prolactin (PRL) at multiple times for 120 min after injection. Pars intermedia function was assessed by the alpha-melanotropin (alpha-MSH) response to the intravenous injection of the dopamine antagonist haloperidol in a dosage of 0.2 mg/kg. Posterior pituitary function was assessed by the plasma vasopressin (AVP) response to the intravenous infusion of 20% saline. Basal plasma ACTH, cortisol, thyroxine, LH. PRL, and AVP concentrations were significantly lower at 10 wk after hypophysectomy than before hypophysectomy. In the CAP test and the haloperidol test, the peaks for the plasma concentrations of ACTH, cortisol, GH, LH, PRL, and alpha-MSH occurred within 45 min after injection. At 2 and 10 wk after hypophysectomy, there were no responses of plasma GH, LH, PRL, and alpha-MSH to stimulation. In four of eight hypophysectomized dogs, there were also no plasma ACTH and cortisol responses, whereas in the other four dogs, plasma ACTH and cortisol responses were significantly attenuated. The basal plasma ACTH and cortisol concentrations were significantly lower in the corticotropic nonresponders than in the responders. Plasma AVP responses were completely abolished by hypophysectomy, although water intake by the dogs was normal. Histopathological examinations at 10 wk after hypophysectomy revealed that adrenocortical atrophy was much more pronounced in the corticotropic nonresponders than in the responders. No residual pituitary tissue was found along the ventral hypothalamic diencephalon. However, in all hypophysectomized dogs that were investigated, islets of pituitary cells were found embedded in fibrous tissue in the sella turcica. A significant positive correlation was found between the number of ACTH-immunopositive cells and the ACTH increment in the CAP test at 10 wk after hypophysectomy. It is concluded that 1) stimulation of the anterior pituitary with multiple hypophysiotropic hormones, stimulation of the pars intermedia with a dopamine antagonist, and stimulation of the neurohypophysis with hypertonic saline do not cause side effects that would prohibit routine use, 2) in the routine stimulation of the anterior pituitary and the pars intermedia, blood sampling can be confined to the first 45 min, 3) the ACTH and cortisol responses to hypophysiotropic stimulation are the most sensitive indicators for residual pituitary function after hypophysectomy, 4) small islets of pituitary cells in the sella turcica, containing corticotropic cells, are the most likely source of the attenuated corticotropic response that may occur after hypophysectomy, and 5) residual AVP release from the hypothalamus after hypophysectomy is sufficient to prevent diabetes insipidus, despite the fact that the AVP response to hypertonic saline infusion is completely abolished.     

Effects of melatonin in the mediobasal hypothalamus on the secretion of gonadotrophins in sheep: role of dopaminergic pathways

Previous studies have shown that treatment with micro-implants of melatonin in the mediobasal hypothalamus (MBH) of sexually inactive Soay rams exposed to long days induces an increase in the secretion of FSH and reactivation of the testicular axis, as normally occurs in response to short days. The current study was conducted to investigate the possible involvement of hypothalamic dopaminergic (DA) systems in this melatonin-induced effect. At 10 weeks under long days, sexually inactive Soay rams were treated in the MBH with micro-implants containing bromocriptine (DA agonist) or sulpiride (DA antagonist), given alone or in combination with melatonin, to establish whether the DA drugs would mimic or negate the effects of melatonin. All micro-implants were inserted bilaterally and left in place for 14 weeks; the study lasted a total of 28 weeks (14 weeks implant period and 14 weeks post-implant period) while the animals remained under long days. The ability of the micro-implants to release bromocriptine and sulpiride for 14 weeks was confirmed by incubating implants in vitro and testing for the presence of the compounds in the incubate using a pituitary cell bioassay. Profiles of FSH, determined in blood samples collected three times weekly, were significantly different among treatments (time x treatment interaction, P < 0.001, ANOVA). Melatonin in the MBH induced a marked increase in the concentrations of FSH during the implant period, and a decrease during the post-implant period (P < 0.001). Bromocriptine given alone in the MBH induced a decrease in the concentrations of FSH which became statistically different from the control during the post-implant period (P < 0.05). Treatment with sulpiride alone also resulted in a suppressive effect during the post-implant period (P < 0.01). When given in combination with melatonin, bromocriptine or sulpiride significantly reduced the melatonin-induced increase in the concentrations of FSH observed during the implant period (P < 0.001). The results support the view that DA pathways in the MBH play an important role in the inhibitory regulation of gonadotrophin secretion in the ram. The inhibitory effect of bromocriptine is likely to result from the direct activation of the hypothalamic DA receptors linked to GnRH neurones regulating the secretion of FSH. The apparent paradoxical inhibitory effect of sulpiride is thought to be due to enhanced gonadal steroid negative feedback resulting from blockade of the inhibitory DA pathways, as evidenced by significantly increased secretion of testosterone (P < 0.05) in the animals receiving sulpiride in combination with melatonin.(ABSTRACT TRUNCATED AT 400 WORDS)     

Infusion of neurotoxic doses of N-methyl-D-aspartate into the lateral hypothalamus in rats produces stomach erosions, hyperthermia, and a disruption in eating behavior.

The present study examined whether damage to intrinsic lateral hypothalamic (LH) neurons induced by microinfusions of N-methyl-D-aspartate (NMDA) would produce effects similar to those seen after electrolytic LH lesions. In Experiment 1, rats receiving electrolytic (1.2 mA anodal current, 10 s) LH lesions displayed motor impairments, whereas those receiving NMDA (20 μg/μl) infusions did not. Both electrolytic lesions and NMDA infusions were associated with eating deficits, hyperthermia, and gastric erosion formation 24 hr after surgery. In Experiment 2, either 20 μg/μl or 10 μg/μl NMDA destroyed LH cells and produced dose-dependent gastric mucosal erosions as well as similar increases in body temperature. These results indicate that an alteration in the acute activity of intrinsic LH neurons plays a role in the production of gastric mucosal injury and hyperthermia and lend support to other studies implicating a role of LH neurons in eating behavior. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Prolonged suppression of human immunodeficiency virus type 1 (HIV-1) viremia in persons with advanced disease results in enhancement of CD4 T cell reactivity to microbial antigens but not to HIV-1 antigens

In rats, the septo-hippocampal system is important for memory encoding. Previous reports indicate that muscimol, a specific GABAergic agonist induces learning and memory deficits when infused into the medial septal area. The basolateral nucleus of the amygdala (BLA) modulates memory encoding in other brain areas, including the hippocampus. To explore the interactions between the septo-hippocampal system and amygdala in memory, we studied the effects of intra-medial septal infusions of muscimol in rats with BLA lesions. Animals received sham surgery or excitotoxic BLA lesions and were given infusions of either vehicle or muscimol (5 nmol) into the medial septal area 5 min prior to training sessions in inhibitory avoidance and water maze tasks. In the inhibitory avoidance task, muscimol-induced memory impairment was potentiated by BLA amygdala lesions. Additionally, in the water maze task, BLA-lesioned rats given muscimol infusions into the medial septal also showed memory impairment. These findings indicate that the MSA interacts with the BLA in the processing of memory storage.     

Post partum thyroiditis: is early detection of risk patients during pregnancy worthwhile?]

IL-12, which play a fundamental antitumor role, would be also involved in the physiological regulation of neuroendocrine and immune interactions. At present, however, there are no data about the endocrine effects of IL-12. This preliminary study was performed to investigate the acute endocrine effects of IL-12 in metastatic renal cell cancer patients. Each IL-12 injection consisted of 0.5 micrograms/kg/bw subcutaneously in the morning. The study has evaluated the effects of 6 different injection cycles. Serum samples were collected before, and 4, 8 and 12 hours from IL-12 injection. In each sample, we have measured by the RIA method serum levels of GH, PRL, TSH, FSH, LH, T3, T4, cortisol, testoterone, estradiol and the pineal hormone melatonin. No significant change occurred in TSH, FSH, LH, T3, T4, testoterone and melatonin mean serum levels in response to IL-12 administration. In contrast, cortisol, PRL and estradiol significantly increased after Il-12 injection. GH also increased in response to IL-12, without however, significant differences with respect to the baseline values. This preliminary study shows that the acute subcutaneous injection of IL-12 may influence the endocrine secretions in humans. In particular, IL-12 would stimulate the secretions of cortisol, PRL and estradiol. Therefore, this study would further confirm that IL-12 may act as biological response modifier in humans, not only on the immune system, but also on the neuroendocrine functions.