The neurosteroid allopregnanolone modulates oxytocin expression in the hypothalamic paraventricular nucleus

Virgin, ovariectomized rats exposed to 2 wk of sequential estradiol (E(2)) and progesterone (P) followed by P withdrawal have increased hypothalamic oxytocin (OT) mRNA and peptide levels relative to sham-treated animals. This increase is prevented if P is sustained. In the central nervous system, P is metabolized to the neurosteroid allopregnanolone (3alpha-hydroxy-5alpha-pregnan-20-one), which exerts effects by acting as a positive allosteric modulator of GABA(A) receptor/Cl(-)-channel complexes. In the present study, ovariectomized rats that received sequential E(2) and P for 2 wk followed by P withdrawal were administered allopregnanolone at the time of P withdrawal. Hypothalamic and plasma allopregnanolone concentrations, serum E(2) and P concentrations, and hypothalamic OT mRNA levels were measured at death. Steroid-induced increases in OT mRNA were attenuated in animals treated with allopregnanolone at the time of P withdrawal. The results suggest that allopregnanolone plays an important modulatory role in steroid-mediated increases in hypothalamic OT.     

Hypothalamic paraventricular nucleus stimulation-induced gastric acid secretion and bradycardia suppressed by oxytocin antagonist

Unilateral microstimulation of the medial parvocellular division of the hypothalamic paraventricular nucleus (PVNmp) elicits significant increases in gastric acid secretion and bradycardia. An injection of 25 picomoles of the oxytocin antagonist dET2Tyr(Et)Orn8 Vasotocin (ETOV), suspended in 5 nanoliters of artificial of cerebrospinal fluid (CSF), into the dorsal motor nucleus of the vagus (DMN) immediately preceding microstimulation of the PVNmp suppresses this change in gastric acid secretion and heart rate. The injection of an equal volume (5 nanoliters) of artificial CSF vehicle solution into this region of the DMN, prior to PVNmp microstimulation, has no effect on either the subsequent stimulation-evoked changes in acid secretion or cardiac activity. This suppression of PVNmp stimulation-evoked changes in gastric acid levels and heart rate by the presence of the oxytocin antagonist, ETOV, within the DMN supports the hypothesis that oxytocin may be a neurotransmitter used for descending communication from the PVNmp to neurons within the DMN that regulates these two functions.     

Oxytocin, oxytocin antagonist, TRH, and hypothalamic paraventricular nucleus stimulation effects on gastric motility

The roles of thyrotropin releasing hormone (TRH) and oxytocin as central regulators of gastric motility were investigated. Picomolar (4 picomoles) quantities of TRH injected into the dorsal motor nucleus of the vagus (DMN) elicited a significant increase in gastric motility while the same quantity of oxytocin elicited a reduction in phasic contractile activity and tone. The action of these peptides mimics the excitatory and inhibitory effects of stimulating the paraventricular nucleus of the hypothalamus (PVN); it is likely that this hypothalamic structure regulates gastric function through its peptidergic connections with medullary vagal structures. This hypothesis is supported by our observations that injections of an oxytocin antagonist into the DMN produced a disinhibition of gastric motility and an increase in the motility evoked by subsequent PVN stimulation. Vagotomy eliminated all subsequent central effects on motility of these peptides.     

Lesion of central part of the dorsomedial nucleus alters vasopressin but not corticotropin releasing hormone mRNA levels in rat hypothalamic paraventricular nucleus

Functional significance of neural projections from the hypothalamic dorsomedial nucleus (DMN) to the paraventricular nucleus (PVN) was investigated using surgical lesion of the central part of the DMN. Under basal conditions, DMN lesion resulted in a decrease in magnocellular vasopressin (AVP) mRNA levels in the PVN, rise in pituitary proopiomelancortin (POMC) mRNA concentrations and elevated plasma corticosterone levels. Corticotropin-releasing hormone (CRH) mRNA levels remained unaffected. In sham operated animals, osmotic stress induced by hypertonic saline injection failed to modify AVP mRNA, but increased CRH and POMC mRNA levels and peripheral hormone release. The rise in CRH mRNA levels after osmotic stress was potentiated in DMN lesioned animals. Thus, the DMN participates in the control of hypothalamic peptide gene expression and pituitary adrenocorticotropic function.     

Neuropeptide FF and neuropeptide VF inhibit GABAergic neurotransmission in parvocellular neurons of the rat hypothalamic paraventricular nucleus

Neuropeptide FF (NPFF) and neuropeptide VF (NPVF) are octapeptides belonging to the RFamide family of peptides that have been implicated in a wide variety of physiological functions in the brain, including central autonomic and neuroendocrine regulation. The effects of these peptides are mediated via NPFF1 and NPFF2 receptors that are abundantly expressed in the rat brain, including the hypothalamic paraventricular nucleus (PVN), an autonomic nucleus critical for the secretion of neurohormones and the regulation of sympathetic outflow. In this study, we examined, using whole cell patch-clamp recordings in the brain slice, the effects of NPFF and NPVF on inhibitory GABAergic synaptic input to parvocellular PVN neurons. Under voltage-clamp conditions, NPFF and NPVF reversibly and in a concentration-dependent manner reduced the evoked bicuculline-sensitive inhibitory postsynaptic currents (IPSCs) in parvocellular PVN neurons by 25 and 31%, respectively. RF9, a potent and selective NPFF receptor antagonist, blocked NPFF-induced reduction of IPSCs. Recordings of miniature IPSCs in these neurons following NPFF and NPVF applications showed a reduction in frequency but not amplitude, indicating a presynaptic locus of action for these peptides. Under current-clamp conditions, NPVF and NPFF caused depolarization (6-9 mV) of neurons that persisted in the presence of TTX but was abolished in the presence of bicuculline. Collectively, these data provide evidence for a disinhibitory role of NPFF and NPVF in the hypothalamic PVN via an attenuation of GABAergic inhibitory input to parvocellular neurons of this nucleus and explain the central autonomic effects of NPFF.     

Feeding inhibition by urocortin in the rat hypothalamic paraventricular nucleus

Ventricular administration of urocortin (UCN) inhibits feeding, but specific site(s) of UCN action are unknown. In the current studies we examined the effect of UCN in the hypothalamic paraventricular nucleus (PVN) on feeding. We tested UCN administered into the PVN in several paradigms: deprivation-induced, nocturnal, and neuropeptide Y (NPY)-induced feeding. We compared the effect of equimolar doses of UCN and corticotrophin releasing hormone (CRH) on NPY-induced and nocturnal feeding, determined whether UCN in the PVN produced a conditioned taste aversion (CTA) and induced changes in c-Fos immunoreactivity (c-Fos-ir) after UCN and NPY administration in the PVN. UCN in the PVN significantly decreased NPY and nocturnal and deprivation-induced feeding at doses of 1, 10, and 100 pmol, respectively. UCN anorectic effects lasted longer than those attributed to CRH. Ten and thirty picomoles UCN did not induce a CTA, whereas 100 pmol UCN produced a CTA. UCN (100 pmol) in the PVN neither increased c-Fos-ir in any brain region assayed nor altered c-Fos-ir patterns resulting from PVN NPY administration. These data suggest the hypothalamic PVN as a site of UCN action.     

Cell swelling induced secretion of TRH by posterior pituitary,hypothalamic paraventricular nucleus and pancreatic islets: effect of L-canavanine

The aims of this study were to test if ethanol induces thyrotropin-releasing hormone (TRH) secretion in vitro from the posterior pituitary and hypothalamic explants by a mechanism involving cell swelling, and to characterize the pathway of stimulated secretion. Ethanol, at a concentration of 80 mM, stimulated the release of TRH from the posterior pituitary, the hypothalamic paraventricular nucleus, the median eminence, and the brain septum, when administered only in isosmolar but not in hyperosmolar medium. This indicates the involvement of a cell swelling-inducing mechanism. L-canavanine in a concentration of 3 mM, increased the basal and hyposmosis-induced TRH secretion from the posterior pituitary and the paraventricular nucleus, and both basal and ethanol-induced TRH secretion from isolated pancreatic islets. This indicates the presence of both constitutive and regulatory secretory pathways. Our results suggest that cell swelling induces exocytosis from clathrin coated granules.     

Vasopressin and oxytocin excite MCH neurons, but not other lateral hypothalamic GABA neurons

Neurons that synthesize melanin-concentrating hormone (MCH) colocalize GABA, regulate energy homeostasis, modulate water intake, and influence anxiety, stress, and social interaction. Similarly, vasopressin and oxytocin can influence the same behaviors and states, suggesting that these neuropeptides may exert part of their effect by modulating MCH neurons. Using whole cell recording in MCH-green fluorescent protein (GFP) transgenic mouse hypothalamic brain slices, we found that both vasopressin and oxytocin evoked a substantial excitatory effect. Both peptides reversibly increased spike frequency and depolarized the membrane potential in a concentration-dependent and tetrodotoxin-resistant manner, indicating a direct effect. Substitution of lithium for extracellular sodium, Na(+)/Ca(2+) exchanger blockers KB-R7943 and SN-6, and intracellular calcium chelator BAPTA, all substantially reduced the vasopressin-mediated depolarization, suggesting activation of the Na(+)/Ca(2+) exchanger. Vasopressin reduced input resistance, and the vasopressin-mediated depolarization was attenuated by SKF-96265, suggesting a second mechanism based on opening nonselective cation channels. Neither vasopressin nor oxytocin showed substantial excitatory actions on lateral hypothalamic inhibitory neurons identified in a glutamate decarboxylase 67 (GAD67)-GFP mouse. The primary vasopressin receptor was vasopressin receptor 1a (V1aR), as suggested by the excitation by V1aR agonist [Arg(8)]vasotocin, the selective V1aR agonist [Phe(2)]OVT and by the presence of V1aR mRNA in MCH cells, but not in other nearby GABA cells, as detected with single-cell RT-PCR. Oxytocin receptor mRNA was also detected in MCH neurons. Together, these data suggest that vasopressin or oxytocin exert a minimal effect on most GABA neurons in the lateral hypothalamus but exert a robust excitatory effect on presumptive GABA cells that contain MCH. Thus, some of the central actions of vasopressin and oxytocin may be mediated through MCH cells.     

Dopamine antagonism does not potentiate the effects of oxytocin and vasopressin on prolactin secretion

The roles of oxytocin and vasopressin on prolactin secretion were studied. Adult female Sprague-Dawley rats ovariectomized for two weeks and treated with a long-acting estrogen, polyestradiol phosphate for one week were used. Hormone administration and serial blood sampling were accomplished through indwelling intra-atrial catheters which were implanted two days before the experiment. Both oxytocin (20 micrograms/rat) and vasopressin (5 micrograms/rat) stimulated prolactin secretion within 10 min after injection and the effects were diminished by 30 min. In animals pretreated with a small dose of dopamine antagonist, sulpiride (1 microgram/rat), the effect of TRH on prolactin secretion was repeatedly shown to be potentiated. Same pretreatments with two different time intervals (30 and 60 min) between sulpiride and oxytocin/vasopressin administration, however, had no effect on oxytocin- or vasopressin-stimulated prolactin secretion. A vasopressin analog, 1-deamino-[D-Arg8]-vasopressin (dDAVP), with antidiuretic but no vasopressor activity was also used in the study. It was found that unlike vasopressin, dDAVP had no effect on prolactin secretion. In conclusion, both oxytocin and vasopressin can have a stimulatory effect on prolactin secretion when given in vivo. Unlike TRH, however, the action of oxytocin or vasopressin was not augmented by pretreatments of dopamine antagonist. The action of vasopressin on prolactin secretion may be a side effect of its vasopressor activity.     

下丘脑室旁核的心血管调节功能研究进展

下丘脑室旁核 (PVN)是自主性和内分泌性反应的重要整合中枢 ,且在维持心血管活动的动态平衡中起着关键作用。本文简要归纳了PVN的形态结构、纤维联系 ,并详细叙述其对心血管活动的调节及与心血管疾病的关系。     

Coexistence of CRF peptide and oxytocin mRNA in the paraventricular nucleus

Several studies have reported coexistences of peptides in parvocellular neurons of the paraventricular nucleus (PVN). However, the coexistence of peptides in the magnocellular PVN is less clear. Controversy exists in particular about the coexistence of corticotropin-releasing factor (CRF) and oxytocin (OX). Although these peptides are present in distinct areas of the PVN, some overlap may exist. This study investigated a potential coexistence of OX and CRF in magno- and parvocellular PVN. The data demonstrate with clarity that neurons containing both the mRNA for OX and the peptide CRF are present in subpopulations of magnocellular and parvocellular neurons of the PVN.     

Effects of naloxone on basal and stress-induced prolactin secretion,in intact,hypothalamic deafferentated,adrenalectomized, and dexamethasone-pretreated male rats

The effects of naloxone (Nal) on basal and stress-induced PRL secretion were investigated in intact (N) adult male rats, as were its effects in rats with complete hypothalamic deafferentiation (CHD), in adrenalectomized (adrenX) rats, and in rats pretreated with dexamethasone (dex). Forty-five minutes subsequent to Nal administration (5mg/kg, BW, IP) basal serum levels of PRL were reduced by approximately 25% (p<0.05), in both N and CHD groups. PRL secretory responses to acute exposure to both photic and acoustic stress were markedly attenuated in Nal-injected, as compared to vehicle-injected animals. Basal serum PRL concentrations were elevated by 40% in adrenX rats (p<0.05), as compared to controls. In (p<0.05) in dex-treated rats, as compared to controls. In both these experimental groups, Nal administration caused significant reductions in serum PRL. This study demonstrates that stress-induced, as well as basal PRL secretion, is attenuated by Nal, and points to a hypothalamic site of action in this regard. Furthermore, these Nal effects are independent of glucocorticoid interactions with the CNS.     

下丘脑室旁核内雌激素受体的表达与意义

下丘脑室旁核 (paraventricularnucleus ,PVN)包括大细胞部、小细胞部和背侧帽部等几个部分 ,其中大细胞部主要合成催产素和加压素 ,小细胞部主要合成促肾上腺皮质激素释放激素、甘丙肽等多种神经肽。研究发现PVN的神经内分泌活动受到雌激素的调节 ,进而影响动物的分娩、摄食、脂肪代谢、体重增加等生理功能。雌激素有α和 β两种受体 (即ER α和ER β)。在不同种属动物的PNV内两种雌激素受体的表达水平不同 ,如大鼠PVN主要表达ER β ,而小鼠PVN内除了表达ER β以外也能表达少量ER α ,提示两种ER在不同动物的PVN内功能可能不同 ,它们单独或协同介导雌激素在PVN内参与多种肽能神经元有关的生理功能。     

Lesions of the hypothalamic paraventricular nucleus and norepinephrine turnover in rats

The effects of bilateral lesions of the hypothalamic paraventricular nuclei (PVN), of rats with a mean weight of 260 g body, on eating habits and body weight, as well as on sympathetic nervous system (SNS) activity in interscapular brown adipose tissue (IBAT) were investigated. In 59 of 131 Sprague-Dawley female rats, PVN lesions resulted in hyperphagia and obesity. Although lesions were considered successful when more than 50% of the PVN was destroyed histologically, such lesions were observed in 35.9% (47/131) of all lesioned rats and all of these 47 rats were obese. Therefore, in this study, these 47 rats which were confirmed histologically, were designated as "PVN-lesioned rats". Plasma insulin levels in these 47 PVN-lesioned ats were more than double those of the controls. However, no significant differences were observed between plasma glucose levels in PVN-lesioned and control groups. Norepinephrine turnover, a reliable indicator of SNS activity, in IBAT, heart and pancreas was similar in PVN-lesioned and sham-operated control animals, even under contrasting conditions of feeding (ad libitum and fasting) and temperature (22 degrees C and 4 degrees C). It is concluded that PVN lesions produce hyperphagia, obesity and hyperinsulinemia in rats with an average body weight of 260g without affecting the SNS activity in IBAT, heart or pancreas.     

Knife cuts lateral but not dorsal to the hypothalamic paraventricular nucleus abolish gonadal responses to photoperiod in female hamsters (Mesocricetus auratus)

Horizontal and parasagittal knife cuts in the hypothalamus of female hamsters (Mesocricetus auratus) were employed to investigate the neural pathways that mediate gonadal responses to photoperiod. Bilateral horizontal knife cuts placed dorsal to the paraventricular nucleus (PVN) did not prevent short-day-induced acyclicity and uterine regression. On the other hand, regardless of photoperiod, animals with bilateral parasagittal knife cuts placed lateral to the PVN continued to exhibit regular 4-day estrous cycles and stimulated uteri. Thus, parasagittal cuts prevented the effects of short days on reproductive physiology. This finding suggests that the lateral efferent projections from the PVN represent an important component of the neural pathway mediating reproductive photoperiodism in female hamsters.     

Immunoneutralization of oxytocin attenuates stress-induced corticotropin secretion in the rat

Recent studies have demonstrated that oxytocin (OT) is released during certain stresses and that OT can potentiate the activity of CRF in vitro. To better define the role of OT during stress, the effect of injections of anti-OT antiserum on stress-induced corticotropin (ACTH) secretion was studied in vivo. A dose of antiserum which completely neutralized the increase in plasma OT levels during tail-hang stress caused a 59% decrease in plasma ACTH concentrations (P less than 0.005). The data support a physiologic role for OT in the regulation of ACTH secretion.     

Role of AgRP on Ghrelin-induced feeding in the hypothalamic paraventricular nucleus

MT II, agonist for MC3/4-Rs, inhibited Ghrelin's orexigenic effect in the paraventricular nucleus of the hypothalamus (PVN). To further investigate the role of the melanocortin system as mediator of ghrelin's orexigenic actions, we explored the involvement of AgRP in Ghrelin's orexigenic effect by testing the effect on food intake after their co-administration in the PVN, during the light and dark phases of feeding in rats. During both the phases of feeding, co-administration of Ghrelin with either AgRP 50 or AgRP 100 pmol into the PVN did not produce a synergistic effect on the food intake, suggesting that ghrelin induction of feeding occurs by recruiting Agrp as one of the obligatory mediators of its orexigenic effect.     

Leptin and prolactin, but not corticosterone, modulate body weight and thyroid function in protein-malnourished lactating rats.

To understand the role of hormonal changes in the lower food ingestion and body weight in protein-restricted lactating rats as well as the higher serum T (3), higher deiodination, iodide and T (3) milk transfer, we measured maternal serum prolactin, leptin, TSH and corticosterone, which are hormones that could influence those parameters. After birth, dams were separated into: control-fed with a 23 % protein diet (n = 12) and PR (protein-restricted)-fed with an 8 % protein diet (n = 12). At the 4 (th) and 21 (st) day of lactation, half of the animals in each group were sacrificed. PR dams presented hyperleptinemia (day 4: + 20 %; day 21: + 19 %; p < 0.05) and hypoprolactinemia (day 4: - 85 %; day 21: - 92 %; p < 0.05), which could help explain the lower food consumption and body weight in lactating PR rats since leptin is anorexigenic and prolactin is orexigenic. Also, this hyperleptinemia could contribute for the increase in serum T (3) of PR dams, since leptin stimulates T (3) production, especially acting on deiodinases. Serum corticosterone was not different between PR and C groups, and TSH was lower only at the end of lactation. Thus, we suggest that both leptin and prolactin could play an important role in the body weight and thyroid hormone changes observed in protein-malnourished lactating rats.