Atrial natriuretic polypeptides: structure-activity relationship in the central action--a comparison of their antidipsogenic actions

The structure-activity relationship of atrial natriuretic polypeptides (ANPs) in the central action was investigated by examining the suppressive effects of the intracerebroventricular (i.c.v.) administration of ANPs on water intake induced by the i.c.v. injection of angiotensin II (AII) (0.1 nmol) in rats. alpha-Rat ANP (alpha-rANP), alpha-human ANP, alpha-rANP4-28 and alpha-rANP5-28 at a dose of 1.5 nmol exerted equipotent antidipsogenic actions, while alpha-rANP7-23-amide had no inhibitory effect on water drinking at this dose.     

Effect of intracerebroventricular deuterium oxide on water intake and AVP release induced by intravenous infusion of angiotensin II in sheep

The effect of intracerebroventricular (i.c.v.) infusion (0.02 ml min-1) of deuterium oxide (D2O), with NaCl added to isotonicity, on the water intake and arginine vasopressin (AVP) release caused by intravenous (i.v.) infusion of angiotensin II (AII) (4.8 nmol min-1) was studied in euhydrated sheep. The i.c.v. infusion of D2O, which started 80 min before commencement of the AII infusion, induced a water diuresis in four out of six animals and a measurable decrease in plasma AVP concentration. The i.v. infusion of AII effectively stimulated the AVP release and the response was unaffected by prior and simultaneous i.c.v. administration of D2O. However, the water intake measured 2 min after cessation of the AII administration was reduced by 50% when D2O was infused i.c.v. compared to that seen after simply the AII infusion. The inhibitory effect of D2O on AII-induced drinking disappeared rapidly after discontinuation of D2O administration. Compensatory increased drinking was seen during the first post-infusion hour, resulting in an equivalent cumulative intake of water at 60 min post-infusion in the two types of experiments. The present results support the idea that at least some of the cerebral effects of circulating AII on fluid balance are medicated via targets which are simultaneously accessible to influences from the blood and the cerebrospinal fluid.     

Central AT1 and AT2 receptors mediate chronic intracerebroventricular angiotensin II-induced drinking in rats fed high sodium chloride diet from weaning

Intracerebroventricular (ICV) angiotensin (AIl) administration stimulates central AII receptors to induce water consumption in rats. The aim of this study was to determine the role of brain AT1 and AT2 receptors in mediating chronic ICV AII-induced drinking in rats raised on normal or high sodium chloride diets from weaning. Rats were weaned at 21 days of age and placed on normal or high sodium chloride diet for 10-12 weeks. At adulthood, the animals were instrumented with brain lateral ventricular cannulas and femoral arterial catheters. Low dose chronic central AII infusion (20 ng min(-1)) significantly (P < 0.05) increased water intake in both groups of rats when compared with their respective controls of 24 h artificial cerebrospinal fluid infusions. In a separate group of high sodium fed rats, coinfusion of AII with the AT1 receptor antagonist, losartan (0.25 microg min(-1)) or the AT2 receptor blocker, PD 123319 (0.50 microg min(-1)) blocked chronic ICV AII-induced drinking. Upon reinfusion of AII water intake increased above control. Following the cessation of AII infusions, water intake returned to values not significantly different from control (P > 0.05). In contrast, in the normal sodium fed rats losartan, but not PD 123319, blocked the AII-mediated water intake. The data demonstrate that in high sodium chloride fed rats AII stimulates both central AT1 and AT2 receptors to induce drinking, while in the normal sodium chloride fed rats the peptide activates the drinking response primarily by stimulation of central AT1 receptors.     

Centrally administered ghrelin potently inhibits water intake induced by angiotensin II and hypovolemia in rats

Ghrelin is a potent, centrally acting orexigenic hormone. Recently, we showed that centrally administered ghrelin is a potent antidipsogenic hormone in 24-h water deprived rats. In this study, we examined the effect of intracerebroventricular (icv) injection of ghrelin on angiotensin II (AII)-induced water intake in rats. We also examined the effects of icv injection of ghrelin on drinking induced by intraperitoneal injection of an isotonic polyethylene glycol (PEG) solution that causes isotonic hypovolemia. Water intake induced by the icv injection of AII or ip injection of PEG was significantly reduced after icv injection of ghrelin, although food intake was stimulated by the hormone. The drinking induced by AII was also inhibited by the icv administration of 4α-phorbol 12, 13-didecanoate, an agonist of the osmosensitive TRPV4 channel. This study showed that ghrelin is a potent antidipsogenic peptide by antagonizing general dipsogenic mechanisms including those activated by AII and hypovolemia in rats.     

Estradiol increases the anorexia associated with increased 5-HT(2C) receptor activation in ovariectomized rats

Estradiol's inhibitory effect on food intake is mediated, in part, by its ability to increase the activity of meal-related signals, including serotonin (5-HT), which hastens satiation. The important role that postsynaptic 5-HT(2C) receptors play in mediating 5-HT's anorexigenic effect prompted us to investigate whether a regimen of acute estradiol treatment increases the anorexia associated with increased 5-HT(2C) receptor activation in ovariectomized (OVX) rats. We demonstrated that intraperitoneal and intracerebroventricular (i.c.v.) administration of low doses of the 5-HT(2C) receptor agonist meta-chlorophenylpiperazine (mCPP) decreased 1-h dark-phase food intake in estradiol-treated, but not oil-treated, OVX rats. During a longer feeding test, we demonstrated that i.c.v. administration of mCPP decreased 22-h food intake in oil-treated and, to a greater extent, estradiol-treated OVX rats. In a second study, we demonstrated that estradiol increased 5-HT(2C) receptor protein content in the caudal brainstem, but not hypothalamus, of OVX rats. We conclude that a physiologically-relevant regimen of acute estradiol treatment increases sensitivity to mCPP's anorexigenic effect. Our demonstration that this same regimen of estradiol treatment increases 5-HT(2C) receptor protein content in the caudal hindbrain of OVX rats provides a possible mechanism to explain our behavioral findings.     

Effects of centrally administered atrial natriuretic polypeptide on sympathetic nerve activity and blood flow to the kidney in conscious rats

Effects of intracerebroventricular (i.c.v.) administration of atrial natriuretic polypeptide (ANP) on renal sympathetic nerve activity (RSNA) and renal blood flow (RBF) were examined in conscious rats. Administration of ANP had no appreciable effects on baseline RSNA and RBF. The pressor response induced by i.c.v. angiotensin II (AII) was attenuated by prior i.c.v. administration of ANP but no significant effect of ANP was observed on the AII-induced bradycardia and inhibition of RSNA. The result shows that centrally administered ANP has little effect on basal RSNA and RBF but it antagonizes the pressor response caused by AII without affecting induced changes in heart rate and RSNA.     

Papillary plasma flow in rats

Papillary plasma flow (PPF) was measured by the albumin accumulation technique in Wistar rats. PPF was significantly lower in male (293 +/- 5 microliter X min-1 X g-1) than in female (499 +/- 17) rats. Castration in male rats increased PPF; testosterone administration in gonadectomized rats returned PPF to control. Acute indomethacin administration equalized PPF in both sexes to low values close to those found in normal males (320 +/- 5 in males, 326 +/- 17 in females). Conversely, captopril administration equalized PPF in both sexes by raising PPF in males (505 +/- 21) without significant change in females (526 +/- 88). Dehydration decreased PPF slightly in males (255 +/- 28) but more markedly in females (349 +/- 11). This decrease was prevented by captopril administration (520 +/- 34 and 609 +/- 61 in males and females, respectively). In captopril-treated male rats, angiotensin II (AII) was continuously infused by osmotic minipumps at a rate of 5 micrograms/h. This did not restore PPF (405 +/- 12) to basal values. In contrast, AII infusion together with indomethacin administration completely restored PPF (322 +/- 22) in captopril-treated rats whereas indomethacin alone did not normalize PPF (425 +/- 18). We suggest that male sex hormones and AII decrease PPF, and account for the low PPF measured in male rats. Vasodilator PGs are involved in the high PPF found in female rats. The vasodilator action of captopril on papillary circulation is explained by both decreased AII formation and increased PG synthesis.     

Central AT1 and AT2 receptors mediate chronic intracerebroventricular angiotensin II‐induced drinking in rats fed high sodium chloride diet from weaning

Intracerebroventricular (ICV) angiotensin (AIl) administration stimulates central AII receptors to induce water consumption in rats. The aim of this study was to determine the role of brain AT₁ and AT₂ receptors in mediating chronic ICV AII‐induced drinking in rats raised on normal or high sodium chloride diets from weaning. Rats were weaned at 21 days of age and placed on normal or high sodium chloride diet for 10–12 weeks. At adulthood, the animals were instrumented with brain lateral ventricular cannulas and femoral arterial catheters. Low dose chronic central AII infusion (20 ng min^?1) significantly (P < 0.05) increased water intake in both groups of rats when compared with their respective controls of 24 h artificial cerebrospinal fluid infusions. In a separate group of high sodium fed rats, coinfusion of AII with the AT₁ receptor antagonist, losartan (0.25 μg min^?1) or the AT₂ receptor blocker, PD 123319 (0.50 μg min^?1) blocked chronic ICV AII‐induced drinking. Upon reinfusion of AII water intake increased above control. Following the cessation of AII infusions, water intake returned to values not significantly different from control (P > 0.05). In contrast, in the normal sodium fed rats losartan, but not PD 123319, blocked the AII‐mediated water intake. The data demonstrate that in high sodium chloride fed rats AII stimulates both central AT₁ and AT₂ receptors to induce drinking, while in the normal sodium chloride fed rats the peptide activates the drinking response primarily by stimulation of central AT₁ receptors.     

氨甲酰胆碱引起的促钠排泄反应和下丘脑室旁核胆碱乙酰转移酶免疫阳性反应变化

本研究选用清醒SD雄性大鼠,通过在体实验和免疫组化方法,观察大鼠侧脑室注射胆碱能激动剂氨甲酰胆碱(carbachol)0.5μg后,肾钠排泄量变化与室旁核胆碱乙酰转移酶(ChAT)表达的变化。结果显示侧脑室注射氨甲酰胆碱后40min,肾钠排泄量显著增加,室旁核的ChAT免疫反应阳性神经元数目明显增多(P<0.05),免疫染色强度明显增强(P<0.05);阿托品预处理后钠排泄量显著减少,下丘脑室旁核的ChAT免疫阳性反应(ChATIR)明显下降(P<0.05)。上述结果提示,侧脑室注射氨甲酰胆碱后,促钠排泄反应增强,下丘脑室旁核胆碱能神经元活性增强,阻断胆碱能受体后可下调氨甲酰胆碱诱导的上述变化。     

Feeding response to neuropeptide Y-related compounds in rats treated with Y5 receptor antisense or sense phosphothio-oligodeoxynucleotide.

Neuropeptide Y (NPY), NPY 3-36 and pancreatic polypeptide (PP) increase short-term (2-h) food intake to varying degrees when given intracerebroventricularly (i.c.v.). Various Y receptor subtypes are proposed to participate in Y receptor ligand-induced stimulation of food intake. Here, we used an antisense phosphothio-oligodeoxynucleotide sequence (-5 relative to the initiating ATG) to the Y5 receptor subtype, which has been suggested to mediate NPY-induced feeding. Rats were treated with i.c.v. antisense or sense phosphothio-oligodeoxynucleotide for 3.5 days before NPY, NPY 3-36, or PP i.c.v. administration. The results show that antisense to the Y5 receptor had no effect on either spontaneous 2-h or NPY-, NPY 3-36-, or PP-stimulated 2-h food intake. However, there was a significant decrease relative to the sense control group in 10-h food intake following the initial 2-h feeding response to NPY (n = 10, p < 0.0001) or NPY 3-36 (n = 10, p < 0.05). The data suggest that the Y5 receptor has a modulatory role in the maintenance of feeding, but not as the critical receptor to confer for NPY and NPY 3-36 action on food intake.     

Anorexia in rats caused by a valine-deficient diet is not ameliorated by systemic ghrelin treatment

Rodents exhibit aversive behavior toward a diet that lacks at least one of the essential amino acids. We sought to determine whether the particular form of anorexia caused by such diets could be ameliorated by the administration of orexigenic peptides while simultaneously analyzing the neural mechanisms underlying anorexia. Rats were fed a valine-deficient diet, which induced severe anorexia (reducing food consumption by 80%). The severe anorexia was associated with a significant decrease in the cerebrospinal fluid valine concentration and hyper-ghrelinemia. Between 6 and 12 days after initiation of the valine-deficient diet, we injected rats twice daily with valine and/or an orexigenic peptide (ghrelin, neuropeptide Y, or agouti-related protein) either i.p. or i.c.v.. We then measured dietary intake. An i.c.v. valine injection allowed earlier food intake compared with an i.p valine injection and increased the density of c-Fos-positive ependymal cells lining the third ventricle. Whereas an i.c.v. injection of ghrelin or neuropeptide Y increased consumption of the valine-deficient diet, i.p injection of ghrelin or i.c.v. injection of agouti-related protein did not. Following i.c.v. administration of either valine or ghrelin, we did not observe complete recovery of consumption of the valine-deficient diet. This may be due to the ineffectiveness of peripheral ghrelin and central agouti-related protein and/or to conditioned aversion to the valine-deficient diet. Since ghrelin is known to be involved in food anticipatory activities, whether the hyper-ghrelinemia observed in valine-deficient rats play role in foraging behavior other than food intake is the future study to be investigated.     

Food intake suppression by growth factors and platelet peptides by direct action in the central nervous system

Intracerebroventricular (i.c.v.) microinfusion of epidermal growth factor (EGF), basic fibroblast growth factor (bFGF) and platelet factor 4 (PF4) suppressed 2 h and nighttime food intake in rats. The following daytime food intake did not change or increased. I.c.v. infusion of platelet-derived growth factor (PDGF) suppressed only 2 h food intake. I.c.v. infusion of bovine serum albumin (BSA), nerve growth factor (NGF), or inactivated EGF, bFGF and PF4 had no effect. Intraperitoneal (i.p.) administration of EGF, bFGF, PF4 and PDGF in doses equivalent to or higher than those administered centrally had no effect. The results suggest a central action of growth factors and platelet peptides on feeding regulation.     

Examinations on contribution of bradykinin in the action of dopamine in circulatory system of rats. I. Influence of bradykinin in the action of dopamine on arterial blood pressure of rats

The influence of different doses of bradykinin (2.5 micrograms, 5 micrograms/kg i.v.) and dopamine (0.5 micrograms - a small dose and 25 micrograms, 250 micrograms/kg i.v. - a big dose) administered into the rat femoral artery on the blood pressure was estimated. Dopamine evoked hypotension (the small dose) or hypertension (the big dose). Bradykinin evoked dose-dependent decrease of the blood pressure. Bradykinin (2.5 micrograms/kg i.v.) administered in the 45th sec of the dopamine action enhanced the hypertensive effect and decreased the hypotensive effect of dopamine. Dopamine administered in the big dose after phentolamine and propranolol evoked hypotension. This effect was stronger after administration of dopamine (25 micrograms/kg i.v.). The hypotensive action of bradykinin persisted in spite of phentolamine and propranolol application but this peptide did not change the hypotensive effect of dopamine under these conditions. The authors discuss hypothetical mechanism of action of the observed influence of bradykinin on the effect of dopamine in the circulatory system.     

Supraspinal and spinal alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid and N-methyl-D-aspartate glutamatergic control of the micturition reflex in the urethane-anesthetized rat

Effects of i.c.v. and i.t. administration of (3SR,4aRS,6RS,8aRS)-6-[2-(1H-tetrazol-5-yl)ethyl]decahydroisoquinoline-3-carboxylic acid (LY215490), a competitive alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA) receptor antagonist and MK-801, a non-competitive N-methyl-D-aspartate (NMDA) receptor antagonist on the micturition reflex were evaluated in urethane-anesthetized rats, to determine if glutamatergic mechanisms in brain as well as spinal cord are important for the control of micturition. I.c.v. or i.t. injection of LY215490 in low doses (0.01-0.03 microg) did not change rhythmic bladder or external urethral sphincter (EUS) electromyogram (EMG) activity during continuous cystometrograms (CMGs; 0.21 ml/min), whereas higher doses (0.1-1 microg) markedly suppressed these responses. During single CMGs (0.04 ml/min), 0.1-1 microg i.c.v. or 0.1-10 microg i.t. doses increased volume threshold and pressure threshold for inducing micturition, and decreased bladder contraction amplitude and voiding efficiency. MK-801 in low doses (0.6 microg i.c.v. or 0.6-1.8 microg for i.t.) did not change bladder contraction amplitude or EUS EMG activity during continuous CMGs, whereas higher doses 6-60 microg markedly suppressed these responses. During single CMGs, MK-801 (6-60 microg i.c.v. or 60 microg i.t.) increased volume threshold and pressure threshold, and decreased voiding efficiency and bladder contraction amplitude. Pretreatment i.c.v. with MK-801 in a dose 1.8 microg which alone had little effect on bladder contraction amplitude and EUS EMG activity, markedly enhanced depressant effects of LY215490 (0.03 microg i.c.v.) on these responses. Administration of same doses of drugs by i.t. route did not elicit a similar synergistic interaction. These data indicate that in urethane-anesthetized rats glutamatergic mechanisms in brain and spinal cord are essential for controlling micturition and that interactions between AMPA and NMDA glutamatergic transmission are important at supraspinal but not spinal sites.     

Independent down-regulation of central and peripheral tumor necrosis factor production as a result of lipopolysaccharide tolerance in mice.

Lipopolysaccharide (LPS) induces a variety of central and peripheral effects that are largely mediated by cytokines, including tumor necrosis factor (TNF). Peripheral (intravenous [i.v.]) administration of LPS (2.5 micrograms per mouse) induced TNF levels in the serum and spleen but not in the brain, while central (intracerebroventricular [i.c.v.]) administration of LPS induced TNF production both in the brain and in the periphery. Mice challenged with LPS after LPS pretreatment (35 micrograms per mouse, intraperitoneally, as a single dose on day -3 or as a 4-day treatment on days -5 to -2) were unresponsive in terms of induction of serum TNF. When peripherally LPS-tolerant mice (where LPS pretreatment was given intraperitoneally) were challenged with an i.c.v. dose of LPS, brain (but not serum) TNF was still produced, meaning that the LPS-tolerant state was confined to the periphery. However, if LPS pretreatment was given i.c.v. (35 micrograms, as a single dose), the brain, like the periphery, became LPS tolerant in terms of TNF production. We investigated how tolerance to LPS affected two of its actions, decrease in food intake and induction of serum corticosterone (CS). After an i.v. challenge in peripherally LPS-tolerant mice, no decrease in food intake was observed, but this response was still elicited by an i.c.v. challenge. LPS tolerance reduced the CS response to i.v. and i.c.v. challenge. These results suggest that LPS-induced decrease in food intake might be a fully central effect, while the increase of serum CS might be due to both central and peripheral actions.     

Effects of chronic administration of naloxone on wheel running activity in rats under 2-h feeding schedule

The effects of chronic administration of naloxone (120-150 micrograms X kg-1 X h-1) on the wheel running activity (WR) and on food and water intakes were studied in male Wistar rats subjected to a 2-h restricted feeding (1200-1400 h) schedule at 24 +/- 1 degrees C and LD 12:12 (L: 0600-1800 h) cycle. The restricted feeding significantly increased WR before and after the feeding time. Food and water intakes per day were reduced and body weight gradually decreased for the 2-week food restriction period. Food and water intakes appeared to be suppressed by naloxone, particularly shortly after the administration. The chronically administered naloxone slightly increased the 24-h WR. In the naloxone-treated rats, the fraction of WR before the feeding time (anticipatory activity) was significantly increased compared with saline-treated rats. The fraction of WR after the feeding time (succeeding activity) did not change. These results suggest that the endogenous opioid system may play a role in suppressing the excess increase in the anticipatory locomotor activity in the food restricted rats.     

Central galanin stimulates pituitary prolactin secretion in rats: possible involvement of hypothalamic vasoactive intestinal polypeptide

The effect of galanin, a newly identified neuropeptide, on pituitary prolactin (PRL) secretion was examined in the rat. Intracerebroventricular (i.c.v.) injection of all 5 doses of galanin (0.4, 1, 2, 5 and 10 micrograms/rat) raised plasma PRL levels in urethane-anesthetized rats. Galanin injection (2 micrograms/rat, i.c.v.) also increased plasma PRL levels in conscious rats. The intermediate dose of galanin (2 micrograms/rat, i.c.v.) produced a greater response in plasma PRL levels than either smaller or larger doses of galanin. Intravenous injection of galanin did not affect plasma PRL levels. Passive immunization with specific anti-vasoactive intestinal polypeptide (VIP) rabbit serum suppressed plasma PRL response to galanin (2 micrograms/rat, i.c.v.) in anesthetized rats. These findings indicate that central galanin has a stimulatory role in pituitary PRL secretion via the hypothalamus in the rat and that VIP may be involved in rat PRL release induced by galanin.     

Possible involvement of central atrial natriuretic polypeptide in regulation of hypothalamo-pituitary-adrenal axis in conscious rats

The effects of intracerebroventricular (i.c.v.) administration of angiotensin II (AII) and atrial natriuretic polypeptide (ANP) on the plasma corticosterone level were studied in conscious, unrestrained rats. Although i.c.v. injection of ANP had no apparent effect on the basal plasma corticosterone level, it attenuated the plasma corticosterone increase induced by centrally injected AII dose-dependently. These results suggest that ANP in the brain is involved in the regulation of the hypothalamo-pituitary-adrenal axis.     

Calcitonin effect on the dipsogenic response to intra-cerebroventricular administration of angiotensin II

Evidence indicates that intra-third cerebroventricular (III-ICV) administration of calcitonin suppresses food and water intake of rats. The purpose of this study was to determine whether calcitonin would influence angiotensin II-induced dipsogenesis when simultaneously administered III-ICV. Administration of calcitonin (0.5 U/rat) suppressed food and water intake in male Wistar rats. III-ICV administration of angiotensin II (100 ng/rat) to rats provided with ad lib food and water elicited short latency drinking without affecting food intake. III-ICV administration of calcitonin (0.5 U/rat) did not affect the drinking-inducing response to 100 ng/rat of angiotensin II when administered simultaneously. The results suggest that decrease in water intake by III-ICV calcitonin may be a consequence of the food intake suppression, i.e., reduced prandial drinking.     

Metabolic responses to intracerebroventricular leptin and restricted feeding

Leptin is a hormone secreted by adipocytes, which plays an important role in the control of food intake and metabolic processes. In the current study, a dose-dependent relationship was shown between a bolus intracerebroventricular rat recombinant leptin administration and reductions in food intake and body weight in Sprague-Dawley rats. During the 24 h postinjection period, food intake was decreased by 24, 26, and 52% with 0.625, 2.5, and 10 microg of leptin, respectively. Body weight was reduced by 2, 3, and 5% at 24 h after leptin administration at the doses of 0.156, 2.5, and 10 microg, respectively. Furthermore, indirect calorimetry demonstrated that five daily i.c.v. injections of leptin resulted in an increase in heat production per unit of metabolic body size and fat oxidation by approximately 10 and 48%, respectively. In contrast, food-restricted rats that consumed the equivalent amount of food as leptin-treated rats for 5 days decreased their energy expenditure by 10%. Food restriction was found to decrease respiratory quotient in a similar pattern as the leptin administration. When ad lib feeding was resumed, food-restricted rats quickly recovered their normal food intakes, body weights, and metabolism. Conversely, leptin treatment has prolonged effects on body weight resulting from different metabolic responses than food restriction. Leptin not only suppresses food intake, but also enhances energy expenditure to reduce fat depots.