Central administration of zinc reduces salt intake in rats

The aim of the present study was to investigate the effect of third ventricle injections of zinc on salt intake in rats in the three different experimental models where sodium appetite is increased: fluid deprivation, central angiotensinergic stimulation and sodium depletion. Adult Wistar male rats received third ventricle injections of Zn(Ac)2 in three different doses (0.03, 0.3 and 3.0 nmol/rat). Central angiotensinergic stimulation was achieved by third ventricle injections of angiotensin II in the dose of 25 ng/rat 30 min before central zinc administration. As expected, fluid deprivation, central angiotensinergic stimulation and sodium depletion significantly increased sodium appetite. Water intake was also enhanced after fluid deprivation and central angiotensinergic stimulation. After sodium depletion, no increase in water intake was observed. Third ventricle injections of zinc inhibited salt intake in all three experimental models studied. Water intake was also inhibited by central zinc administration after fluid deprivation and central angiotensinergic stimulation. Conversely, third ventricle injections of zinc were unable to modify food intake or body temperature. It is suggested that zinc, acting on central structures related to the control of body fluid homeostasis, inhibits the drive for salt intake that is normally observed during fluid deprivation, central angiotensinergic stimulation and sodium depletion.     

Central H1 and H2 receptor participation in the control of water and salt intake in rats

The aim of the present study was to evaluate the participation of brain H1 and H2 histaminergic receptors on water and salt intake induced by water deprivation (24 h), furosemide-induced sodium depletion and central angiotensinergic pharmacological stimulation in rats. Third ventricle injections of the H1 and H2 receptor antagonists, mepyramine (50, 100, 200 and 400 nmol) and cimetidine (100, 200 and 400 nmol), were unable to modify water intake induced by water deprivation and sodium depletion. Salt intake elicited by water deprivation and sodium depletion was reduced by the central administration of mepyramine, while intracerebroventricular administration of cimetidine had no effect. Water and salt intake evoked by central angiotensinergic stimulation (10 ng) was diminished by third ventricle injections of both mepyramine and cimetidine. Inhibition of the ingestive behaviors observed here is not a result of any illness-like effect produced by the intracerebroventricular injections of the histaminergic antagonists used, as demonstrated by an avoidance test. It was also shown that third ventricle injections of these compounds were unable to modify the hedonic behavior that leads rats to drink a tasty saccharin solution. We conclude that central histaminergic receptors participate in the control of salt intake induced by distinct physiological and pharmacological stimuli.     

Salt appetite consequent on sodium depletion in the suckling rat pup

The ontogeny of the behavioral ability to compensate for sodium deficit was studied in the rat. The experiments showed that: (1) Before weaning age, sodium-depleted pups will increase their avidity for 3% NaCl solution; (2) the ability to select and drink a salt solution in response to a sodium deficit continues to evolve between 17–24 days of age, and that pups at these ages will modify their intake of salt and water as do adult rats when rectifiying plasma osmolality; (3) The increased appetite for sodium is evident even when depleted preweanlings are dehydrated and provided with solid NaCl tablets to lick, showing that sodium appetite and hydrational status are already dissociated at this age; and finally, (4) sodium depletion first induces an increase in intake of orally infused 3% NaCl solution in 12-day-old pups. The picture of the development of salt appetite in the suckling rat that these findings present is of a precocious competence to meet a challenge to sodium homeostasis. In this respect salt appetite emerges in parallel to the other ingestive behaviors © 1993 John Wiley & Sons, Inc.     

Central 5-HT(3) receptors and water intake in rats

In the present paper, we studied in rats the effect of third ventricle administration of m-chlorophenylbiguanide hydrochloride (1-(3-chlorophenyl)biguanide (m-CPBG), a selective 5-HT(3) agonist, on water intake induced by three different physiological stimuli: water deprivation, acute salt load and hypovolemia. Central acute m-CPBG injections in the doses of 80 and 160 nmol significantly reduced water intake elicited by an acute salt load. Third ventricle injections of m-CPBG in the dose of 160 nmol significantly inhibited water intake in hypovolemic animals, whereas third ventricle injections of m-CPBG in a higher dose (320 nmol) were necessary to decrease water intake in water-deprived rats. Pretreatment with 1-methyl-N-[8-methyl-8-azabicyclo(3.2.1)-oct-3-yl]-1H-indazole-3-carboxamide (LY-278,584), a selective 5-HT(3) antagonist, abolished the inhibitory effect on water intake seen after central administration of m-CPBG in all groups studied. The central administration of m-CPBG was also able to inhibit water intake induced by pharmacological activation of central cholinergic and angiotensinergic pathways. Third ventricle injections of m-CPBG in the highest dose employed in this study (320 nmol) were unable to modify food intake in food-deprived rats. An aversion test has shown that acute third ventricle injections of m-CPBG do not induce illness-like effects that could explain the water intake inhibition here observed. Also, central administration of m-CPBG did not modify the intake of a "dessert" meal consisting of diluted condensed milk. It is concluded that central 5-HT(3) receptor activation exerts a specific inhibitory effect on water intake.     

Sodium appetite decreased by central angiotensin blockade

Disturbances in body water and electrolytes that trigger sodium appetite, such as sodium depletion or hypovolemia, are potent activators of the renin-angiotensin system. In the absence of an actual deficit in body fluids, angiotensin injections are adequate to stimulate increased sodium ingestion. To assess whether angiotensin is a significant mediator of sodium appetite induced by acute alterations in body fluids, sodium intake was examined in rats during central or peripheral angiotensin blockade. Central blockade of angiotensin receptors by intracerebroventricular (ICVT) injection of the analogue antagonist saralasin decreased (but did not eliminate) sodium intake after polethylene glycol-induced hypovolemia or sodium depletion resulting from dialysis against glucose. Conversely, peripheral blockade of angiotensin converting enzyme with orally active captopril potentiated rather than decreased sodium appetite and stimulated water intake after sodium depletion. This increased water and salt intake after peripheral inhibition of converting enzyme was reversed, however, by concurrent central blockade of angiotensin receptors. These data support the hypothesis that angiotensin participates in sodium appetite associated with acute alteration in body fluids. Furthermore, the brain is the site at which angiotensin exerts its influence on sodium appetite. While the involvement of angiotensin of brain origin is not ruled out, the change in sodium appetite after peripheral blockade of converting enzyme suggests that circulating angiotensin derived from renal renin may interact with central angiotensin receptors regulating sodium appetite.     

Effect of losartan on sodium appetite of hypothyroid rats subjected to water and sodium depletion and water, sodium and food deprivation

The involvement of angiotensin AT1 receptors in sodium appetite was studied in hypothyroid rats treated with the angiotensin II antagonist losartan. Losartan was administered chronically by the oral route or acutely by the subcutaneous route after water and sodium depletion or water, sodium and food deprivation. Three days after addition of losartan to the food at the dose of 1.0 mg x g(-1), the rats significantly reduced (P < 0.02) their spontaneous intake of 1.8% NaCl. Increasing the dose of losartan to 2.0 and 4.0 mg x g(-1) did not reduce NaCl intake; in contrast, the intensity of the sodium appetite gradually returned to previous levels. The simultaneous administration of captopril, an angiotensin converting enzyme inhibitor, and losartan significantly increased (P < 0.05) NaCl intake and after captopril removal NaCl intake returned to the levels observed with losartan treatment alone. The administration of losartan 4 days after the beginning of captopril treatment significantly reduced (P < 0.0001) NaCl intake. Following acute administration of losartan, water- and sodium-depleted rats significantly reduced their NaCl and water intake (P < 0.001). The administration of losartan also induced a significant reduction in NaCl and water intake in water, NaCl and food-deprived rats (P < 0.0001 and P < 0.001, respectively). The present results show that chronic treatment with oral losartan inhibited spontaneous sodium appetite in hypothyroid rats. Continuation of treatment rendered rats resistant to the blockade of AT1 receptors. Water and sodium depletion and water, NaCl and food deprivation induced sodium appetite, which in the short term depends on cerebral angiotensinergic activity mediated by the activation of AT1 receptors.     

Dependence of adrenalectomy-induced sodium appetite on the action of angiotensin II in the brain of the rat

Adrenalectomized rats express a robust sodium appetite that is accompanied by high levels of blood-borne angiotensin II and is caused by angiotensin II of cerebral origin. Blood-borne angiotensin II is elevated in rats consuming NaCl after adrenalectomy, and plasma angiotensin II concentrations are increased further when the animals cannot drink a NaCl solution. These phenomena are the result of the pathological removal of aldosterone, because replacement therapy returned both sodium intake and plasma angiotensin II concentrations to preadrenalectomy levels. The adrenalectomized rat's appetite for sodium is completely suppressed by interference with the central, but not the peripheral, action of angiotensin II. These data demonstrate that the mechanism of the sodium appetite of the adrenalectomized rat is a pathological instance of the angiotensin/aldosterone synergy that governs the sodium appetite of the adrenal-intact, sodium-depleted rat. Because aldosterone has been removed, angiotensin acts alone to produce the appetite. Furthermore, the data show that it is angiotensin II of central origin that is important for sodium appetite expression.     

Effects of SFO lesions on salt appetite during multiple sodium depletions.

A depletion of sodium may increase sodium intake by increasing the synthesis of angiotensin (ANG) II in the blood and by stimulating ANG II receptors in the subfornical organ (SFO) of the rat. Lesions of SFO reportedly reduce these intakes. The present experiments tested the effects of SFO lesions on salt appetite after three successive depletions. After a furosemide-induced natriuresis, Long-Evans rats had free access to water- and sodium-deficient diet for 22 h. Water and 0.3 M NaCl were given for 2 h, and then the rats received regular chow, water, and 0.3 M NaCl until the next injection 5 or 7 days later. SFO lesions reduced water intake 1-2 h after each furosemide injection but not during the overnight periods. The lesions did not affect salt appetite the next day, 24-26 h after furosemide, but they did prevent the expected increase in the chronic daily 0.3 M NaCl intake after repeated depletions. The second experiment was similar to the first except that three subcutaneous injections of 100 mg/kg captopril were given at 1, 18, and 20 h after furosemide for the second depletion only. After the first depletion, the results were similar to those of the same condition of the first experiment. After the second depletion, captopril greatly reduced water intake and salt appetite in all rats including those with SFO lesions. Thus, we found that the lesion reduced chronic intake, but we did not replicate results showing large effects of SFO lesions on acute salt appetite. This residual acute appetite after SFO lesion remains dependent on the synthesis of ANG II.     

Ontogeny of renin-induced salt appetite in the rat pup

Intracerebroventricular injections of renin in suckling rat pups increased intake of NaCl solutions when they were orally infused 5 hr after injection. The appetite for saline solution was evident in pups as young as 3 days, was greater in females, and was specific insofar as intake of milk, either by suckling or by oral infusion, was not affected. Three-day-old pups increased intake only to 12% NaCl, the acceptable concentration of NaCl becoming lower in older pups. These results suggest, first, that, as is true for feeding and drinking, the brain mechanism for salt appetite is competent for expression of the behavior in the very young rat pup, and second, that its angiotensinergic neural substrate is distinct from that which mediates the dipsogenic effect of the hormone.     

Salt and water intake in Brattleboro rats with hypothalamic diabetes insipidus

Brattleboro rats lacking vasopressin have an elevated plasma osmolality and a stimulated renin-angiotensin system relative to Long-Evans rats (LE). The current studies were performed to elucidate the factors controlling water and salt intake in the Brattleboro rat with diabetes insipidus (DI). DI and LE rats were given the choice of water and saline solutions ranging from 0.1-1.0% to assess palatability, dialyzed with isotonic glucose to test for sodium appetite after sodium depletion, and infused intracranially with an angiotensin II analogue (saralasin) to assess the role of angiotensin II in spontaneous salt and water intake. DI rats exhibited spontaneous salt intake which was not significantly different from LE rats and increased their intake of 3.0% NaCl following sodium depletion, although less reliably than LE rats. A significant proportion of those DI rats not developing a sodium appetite showed attenuation of their diabetes following dialysis. No evidence for involvement of angiotensin II in spontaneous salt and water intake was found.     

Effects of lesions of the ventral ventral median preoptic nucleus or subfornical organ on drinking and salt appetite after deoxycorticosterone acetate or yohimbine.

Lesions of the ventral ventral median preoptic nucleus (VVMnPO) enhanced daily salt appetite induced by subcutaneous (sc) injections of deoxycorticosterone acetate (DOCA) but did not affect acute salt appetite or water intake after sc injections of 5 mg/kg of the alpha-2-adrenoreceptor blocker yohimbine. Lesions of the subfornical organ (SFO) or its rostral fiber pathways had no effect on fluid intakes during DOCA treatments but significantly reduced water intake after yohimbine. These findings extend those of a previous report (Fitts, Tjepkes, & Bright, 1990) of enhanced DOCA-induced saline intake in VVMnPO-lesioned rats and demonstrate that the effect is specific to lesions of the VVMnPO. The mechanism of the thirst and salt intake elicited by yohimbine is still unclear, but the SFO and its fiber pathways appear to be important for the expression of the water drinking component. Neither lesion reliably affected yohimbine-induced salt appetite.     

Ingestion analgesia occurs when a bad taste turns good

During ingestion of water, chocolate, sucrose, and saccharin, pain-related behaviors are suppressed. This ingestion analgesic effect is reversed when the hedonic valence of a food is switched from "good" to "bad" as occurs during conditioned taste aversion. Here, we tested the converse hedonic shift to determine if ingestion analgesia occurs when 0.3 M NaCl is made palatable by inducing a sodium appetite. In Experiment 1, sham- and sodium-depleted rats were tested for paw withdrawal and lick latencies to brief noxious heat during quiet wake and intraoral NaCl ingestion. Only sodium-depleted rats showed a suppression of heat-evoked reactions during NaCl ingestion. In Experiment 2, we tested whether this analgesic effect is mediated by the brainstem nucleus raphe magnus (NRM). Inactivation of NRM with muscimol blocked ingestion analgesia during NaCl ingestion by sodium-depleted rats. This attenuation was not due to a hyperalgesic effect of NRM inactivation. Muscimol microinjections into a nearby region, the nucleus raphe obscurus (NRO), were ineffective. The present findings demonstrate that the internal milieu of an animal can modify ingestion analgesia, and that the analgesia during NaCl ingestion by sodium hungry rats is mediated by NRM.     

Oestrogenic influence on brain AT1 receptor signalling on the thirst and sodium appetite in osmotically stimulated and sodium-depleted female rats

The present work was carried out to investigate the role of angiotensin II type 1 (AT(1)) receptors in nocturnal thirst and sodium appetite induced by classical models of osmotic and sodium depletion challenges in ovariectomized rats chronically treated with oil or oestradiol benzoate (EB, 20 microg per animal, s.c. daily). In both conditions, the animals were given saline or losartan (108 nmol per animal, i.c.v.), a selective AT(1) receptor blocker. Oestrogen therapy significantly reduced the water intake induced by water deprivation, sodium depletion produced by frusemide injected 24 h before, and s.c. acute frusemide plus captopril injection (FUROCAP protocol), with no alteration following s.c. hypertonic saline injection. In contrast, EB therapy decreased the salt intake induced by sodium depletion and FUROCAP protocols, with no alteration following water deprivation and s.c. hypertonic saline injection. Central AT(1) blockade inhibited the dipsogenic response induced by water deprivation, osmotic stimulation, chronic sodium depletion and FUROCAP protocols and inhibited the natriorexigenic response induced by sodium depletion in ovariectomized rats. Oestrogen therapy significantly attenuated the losartan-induced antidipsogenic and antinatriorexigenic actions following sodium depletion and FUROCAP protocols. These results indicate that ovariectomized rats express increased AT(1) receptor signalling related to thirst and sodium appetite responses. Oestrogen therapy and brain AT(1) receptor blockade weakened or markedly decreased the behavioural responses during the nocturnal period, a time at which brain angiotensinergic activity is expected to be more prominent. Finally, we demonstrated through different experimental protocols a clear-cut influence of oestrogenic status on the behavioural AT(1)-induced signalling response.     

The ontogeny of salt appetite aroused by depletion in the rat

The emergence of the rat's ability to respond behaviorally to a bodily sodium deficit was examined. Sucklings were depleted of bodily sodium by furosemide injections and their ability to replenish sodium by imbibing 3% NaCl solution was measured at different ages. The results suggest that the appetite for salt, as a response to sodium deficit, matures at weaning age.     

The voluntary correction of sodium deficiency by the rabbit

The behaviour involved in the correction of sodium deficit has been studied in wild rabbits and also laboratory bred rabbits. They were offered 0.5 M NaCl to drink. In adrenalectomized wild rabbits variable sodium deficits were produced by withdrawal of mineralocorticoid for 24-72 hr. Correction of the deficit was remarkably precise and was achieved in 9-24 hr, being slower with smaller deficits. That is, the rate of drinking was almost commensurate with the degree of body deficit. No overdrinking occurred by 24 hr. Repetition of the experiment with 24 hr deficiency and with the offer of a cafeteria of 0.5 M NaCl, 0.5 M KCl, 0.25 M CaCl2 and 0.25 M MgCl2 showed the increased appetite was specific for NaCl. Both wild and laboratory rabbits, adrenally intact, were made sodium deficient by the diuretic furosemide. Voluntary salt intake did not peak until 6-12 hr later reflecting the characteristic delay in the genesis of salt appetite. If presentation of salt were delayed 24 hr after furosemide, the highest rate of intake was seen immediately in both wild and laboratory rabbits, but the wild rabbits were much faster in fully correcting body deficit. Infusion of isotonic NaCl, adequate to correct the deficit, given during the third-sixth hour of access to NaCl under the 24 hr delay of presentation regime, halved salt appetite over this period, and by 9-12 hr it was abolished. Polyethylene glycol induced subcutaneous fluid sequestration, salt appetite and thirst but caused an obvious severe deterioration in the animals condition.(ABSTRACT TRUNCATED AT 250 WORDS)     

Sodium retention and salt appetite following deoxycorticosterone in hamsters

Previous research suggests that hamsters 1) fail to retain sodium after mineralocorticoid injections, 2) retain sodium after adrenalectomy equal to controls, and 3) do not develop salt appetite after mineralocorticoid or adrenalectomy. The present studies demonstrate sodium retention, body weight gain, hypernatremia, plasma volume expansion, and reduced fecal sodium excretion after daily injections of deoxycorticosterone acetate (DOCA). Salt appetite appeared after the 3rd and 4th days. Adrenalectomy caused reductions of sodium balance, plasma volume, and food intake, which were reversed by DOCA administration. Mineralocorticoids therefore represent one control of sodium metabolism in hamsters.     

Ontogenetic role of angiontensin-converting enzyme in rats: Thirst and sodium appetite evaluation

We investigated the influence of captopril (an angiotensin converting enzyme inhibitor) treatment during pregnancy and lactation period on hydromineral balance of the male adult offspring, particularly, concerning thirst and sodium appetite. We did not observe significant alterations in basal hydromineral (water intake, 0.3 M NaCl intake, volume and sodium urinary concentration) or cardiovascular parameters in adult male rats perinatally treated with captopril compared to controls. However, male offspring rats that perinatally exposed to captopril showed a significant attenuation in water intake induced by osmotic stimulation, extracellular dehydration and beta-adrenergic stimulation. Moreover, captopril treatment during perinatal period decreased the salt appetite induced by sodium depletion. This treatment also attenuated thirst and sodium appetite aroused during inhibition of peripheral angiotensin II generation raised by low concentration of captopril in the adult offspring. Interestingly, perinatal exposure to captopril did not alter water or salt intake induced by i.c.v. administration of angiotensin I or angiotensin II. These results showed that chronic inhibition of angiotensin converting enzyme during pregnancy and lactation modifies the regulation of induced thirst and sodium appetite in adulthood.     

Age-dependent effects of κ-opioid receptor stimulation on cocaine-induced stereotyped behaviors and dopamine overflow in the caudate–putamen: an in vivo microdialysis study

κ-Opioid receptor stimulation attenuates psychostimulant-induced increases in extracellular dopamine in the caudate–putamen (CPu) and nucleus accumbens of adult rats, while reducing cocaine-induced locomotor activity and stereotyped behaviors. Because κ-opioid receptor agonists (e.g., U50,488 or U69,593) often affect the behavior of preweanling rats in a paradoxical manner, the purpose of the present study was to determine whether κ-opioid receptor stimulation differentially affects dopaminergic functioning in the CPu depending on age. In vivo microdialysis was used to determine whether U50,488 (5 mg/kg) attenuates cocaine-induced dopamine overflow in the dorsal CPu on postnatal day (PD) 17 and PD 85. In the microinjection experiment, cocaine-induced stereotyped behaviors were assessed in adult and preweanling rats after bilateral infusions of vehicle or U50,488 (1.6 or 6.4 μg per side) into the CPu. Results showed that U50,488 attenuated the cocaine-induced increases in CPu dopamine overflow on PD 85, while the same dose of U50,488 did not alter dopamine dialysate levels on PD 17. Cocaine also increased stereotyped behaviors (repetitive motor movements, behavioral intensity scores, and discrete behaviors) at both ages, but adult rats appeared to exhibit more intense stereotypic responses than the younger animals. Consistent with the microdialysis findings, bilateral infusions of U50,488 into the dorsal CPu decreased the cocaine-induced stereotypies of adult rats, while leaving the behaviors of preweanling rats unaffected. These results suggest that the neural mechanisms underlying κ-opioid/dopamine interactions in the CPu are not fully mature during the preweanling period. This lack of functional maturity may explain why κ-opioid receptor agonists frequently induce different behavioral effects in young and adult rats.     

Forebrain sites of action for drinking and salt appetite to angiotensin or captopril

Three-hour infusions of angiotensin II (ANG II) agonists and antagonists were used to determine the relative sites of action of ANG in producing water drinking and salt appetite. In the first experiment, lateral ventricular (LV) but not fourth ventricular (4V) ANG II elicited water and saline intake, and LV but not 4V sarile, a competitive ANG II receptor blocker, reduced saline intake aroused by ip injections of 10 mg/kg furosemide and 6 mg/kg captopril. In the second experiment, water, but not saline, intake to furosemide-captopril treatment was reduced by sarile infusions into the subfornical organ (SFO). It is concluded that (a) brain ANG receptors for water and saline intakes are more accessible from the forebrain than the hindbrain ventricles and (b) receptors for water drinking, but not saline intake, after captopril reside in part in the SFO. Salt appetite appears to be dependent on ANG II receptors somewhere in the forebrain other than in the SFO.     

Sodium appetite induced in rats by chronic administration of a thiazide diuretic

Characteristics of hydrochlorothiazide (HCZ)-induced sodium appetite were examined in rats fed with low sodium diet to which HCZ was added. Compared with controls, HCZ induced a robust appetite for 0.1 and 0.3 M NaHCO3. The intake of 0.3 M NaCl was only about one half that of NaHCO3, but was still greatly above control. In both cases, the intake of the sodium solution exceeded that of water, so the rats were taking a hypertonic mixture. The appetite was evident in both Sprague-Dawley and Long-Evans rats, but appeared to be more stable in the latter strain over at least 1 month. The diuretic and natriuretic effect of HCZ was sustained over this period. Plasma renin activity was elevated substantially in HCZ-treated rats, but aldosterone concentration was decreased. Administration of HCZ in food is a simple and reliable method for inducing a sustained, substantial, and need-based salt appetite in rats.