Effects of oxytocin administration on the hydromineral balance of median eminence-lesioned rats.

In the clinical setting, acute injuries in hypothalamic mediobasal regions, along with polydipsia and polyuria, have been observed in patients with cerebral salt wasting (CSW). CSW is also characterised by hypovolaemia and hyponatraemia as a result of an early increase in natriuretic peptide activity. Salt and additional amounts of fluid are the main treatment for this disorder. Similarly, experimental lesions to these brain regions, which include the median eminence (ME), produce a well-documented neurological model of polydipsia and polyuria in rats, which is preceded by an early sodium excretion of unknown cause. In the present study, oxytocin (OT) was used to increase the renal sodium loss and prolong the hydroelectrolyte abnormalities of ME-lesioned animals during the first few hours post-surgery. The objective was to determine whether OT-treated ME-lesioned animals increase their sodium appetite and water intake to restore the volume and composition of extracellular body fluid. Electrolytic lesion of the ME increased water intake, urinary volume and sodium excretion of food-deprived rats and also decreased urine osmolality and estimated plasma sodium concentration. OT administration at 8 hours post-surgery reduced water intake, urine output and plasma sodium concentration and also increased urine osmolality and urine sodium excretion between 8 and 24 hours post-lesion. From 24 to 30 hours, more water and hypertonic NaCl was consumed by OT-treated ME-lesioned rats than by physiological saline-treated-ME-lesioned animals. Food availability from 30 to 48 hours reduced the intake of hypertonic saline solution by ME/OT animals, which increased their water and food intake during this period. OT administration therefore appears to enhance the natriuretic effect of ME lesion, producing hydroelectrolyte changes that reduce the water intake of food-deprived animals. Conversely, the presence of hypertonic NaCl increases the fluid intake of these animals, possibly as a result of the plasma sodium depletion and hypovolaemic states previously generated. Finally, the subsequent increase in food intake by ME/OT animals reduces their need for hypertonic NaCl but not water, possibly in response to osmotic thirst. These results are discussed in relation to a possible transient activation of the ME with the consequent secretion of natriuretic peptides stored in terminal swellings, which would be augmented by OT administration. Electrolytic lesion of the ME may therefore represent a useful neurobiological model of CSW.

Inhibition of natriuresis in median eminence polydipsia: effects after intake of diets with different osmolalities and after hypertonic NaCl administration.

Lesions in the hypothalamic median eminence (ME) induce polydipsia and polyuria in male rats. A first experiment was designed to examine the effect of salt consumption (standard 0.25 percent Na+ vs. low-salt 0.04 percent Na+ diet) on the fluid-electrolytic balance (plasma sodium, urinary sodium excretion, urine osmolality) and water intake of ME polydipsic animals. In the first 6 h post-surgery, the natriuretic response was higher in ME-lesioned animals than in control groups. At 24 h post-surgery, however, less sodium was excreted by ME rats fed with a standard salt diet (ME/SS), despite showing no decrease in salt intake, and they evidenced an increase in plasma sodium concentration and water intake. Urine osmolality was significantly higher in control animals than in either ME-lesioned group. In experiment 2, hypertonic NaCl administration (2 ml/2M) increased the polydipsic behavior of ME-lesioned but not control rats (day 2). Animals deprived of food/salt showed a significant reduction (on day 2) in the initial (day 1) polydipsia, which increased on day 3 when the animals had access to a standard-salt diet. These results suggest that the reduced natriuretic response and the consequent sodium retention observed in ME animals may exacerbate the hydromineral imbalance of this polydipsic syndrome.

NaCl preference and water intake effects of food availability in median eminence polydipsia.

Lesions in the median eminence (ME) produce a well-known neurological model of polydipsia and polyuria in rats. The effect of food availability (ad lib/deprivation) on the polydipsic/polyuric behaviour of animals was tested. As expected, all lesioned rats developed strong polyuria and polydipsia during the first postoperative 24h. This effect was maintained during day 2 when food was available ad lib (experiment A), but both polyuria and polydipsia were abolished when animals were deprived of food during the next 24h (day 3). Animals deprived of food from the first post-operative day (experiment B) showed a significant reduction in the initial polyuria and polydipsia (day 1) on day 2, but these effects were again observed on day 3 when food was available ad lib. Finally, when food-deprived animals were able to choose between a 1.5% sodium chloride solution and water (experiment C), they preferentially chose (82% of total liquid consumed) the hypertonic saline solution (day 1); during the next 24h (day 2), when only water was available, the polyuric/polydipsic effect was abolished but returned when food became available ad lib on day 3. Hence, the polyuria/polydipsia effect produced by ME lesions appears to be consistent during the first 24h but might later be related to the availability of standard food and is completely abolished under food deprivation conditions. Preference for the hypertonic solution supports the volemic component of this syndrome and demonstrates the need for appropriate amounts of hypertonic nutrients to be consumed during the first 24h.

Median eminence lesions reveal separate hypothalamic control of pulsatile follicle-stimulating hormone and luteinizing hormone release.

The effects of hypothalamic lesions designed to destroy either the anterior median eminence (ME) or the posterior and mid-ME on pulsatile release of follicle-stimulating hormone (FSH) and luteinizing hormone (LH) were determined in castrated male rats. In sham-operated animals, mean plasma FSH concentrations rose to peak at 10 min after the onset of sampling, whereas LH declined to a nadir during this time. In the final sample at 120 min, the mean FSH concentrations peaked as LH decreased to its minimal value. In rats with anterior ME lesions, there was suppression of LH pulses with continuing FSH pulses in 12 of 21 rats. On the other hand, in animals with posterior to mid-ME lesions, 3 out of 21 rats had elimination of FSH pulses, whereas LH pulses were maintained. Fifteen of 42 operated rats had complete ME lesions, and pulses of both hormones were abolished. The remaining 12 rats had partial ME lesions that produced a partial block of the release of both hormones. The results support the concept of separate hypothalamic control of FSH and LH release with the axons of the putative FSH-releasing factor (FSHRF) neuronal system terminating primarily in the mid- to caudal ME, whereas those of the LHRH neuronal system terminate in the anterior and mid-median eminence. We hypothesize that pulses of FSH alone are mediated by release of the FSHRF into the hypophyseal portal vessels, whereas those of LH alone are mediated by LHRH. Pulses of both gonadotropins simultaneously may be mediated by pulses of both releasing hormones simultaneously. Alternatively, relatively large pulses of LHRH alone may account for simultaneous pulses of both gonadotropins since LHRH has intrinsic FSH-releasing activity.

Hypertensive response to acute aortic coarctation in chronic vasopressin deficient states.

We investigated the genesis of the hypertensive response to acute (45 min) aortic constriction in two models of chronic vasopressin (AVP) deficiency, i.e., Brattleboro strain and median eminence lesioned (MEL) Wistar rats. The same degree of partial aortic constriction, with a pneumatic cuff placed around the abdominal aorta, yielded a sudden and maintained increase in carotid pressure to the same extent in Brattleboro, MEL and sham-MEL rats. Blockage of AVP V1 receptors with d(CH2)5Tyr[Me]AVP did not affect the hypertensive response of Brattleboro or MEL rats, but gradually blunted the response of sham-MEL rats. Blockage of angiotensin II receptors with saralasin blunted the hypertensive response of the AVP-deficient subjects throughout the experiment, but only delayed (5-15 min) the onset of hypertension in sham-MEL rats. Simultaneous blockage of AVP and angiotensin II blunted the hypertensive response of sham-MEL and AVP-deficient rats throughout the experiment. These data demonstrate that when one vasoactive system is chronically absent, as is the case for AVP in Brattleboro and MEL rats, the renin-angiotensin system plays the major role in the pathophysiology of acute aortic coarctation hypertension.