Different effects of chronic Na+, Cl−, and K+ depletion on brain vasopressin mRNA and plasma vasopressin in young rats

1. We studied the effects of selective chronic dietary sodium, chloride, or potassium depletion in young rats on vasopressin mRNA levels in the supraoptic and paraventricular nuclei, an index of vasopressin formation, and in plasma vasopressin levels, an index of vasopressin release. 2. All diets significantly increased plasma renin activity, contracted the extracellular fluid volume, and decreased serum osmolarity. 3. In the supraoptic nucleus, vasopressin mRNA levels were significantly decreased in the low-sodium group but were not significantly affected by chloride depletion. 4. There were no significant changes in vasopressin mRNA in the paraventricular nucleus after sodium or chloride dietary depletion. 5. After 2 weeks of potassium depletion, vasopressin mRNA levels were decreased in the supraoptic nucleus. When potassium depletion was prolonged for 3 weeks, vasopressin mRNA levels increased in both supraoptic and paraventricular nuclei. 6. Plasma vasopressin levels were high in animals subjected to dietary chloride depletion or to 3 weeks of potassium depletion. Dietary sodium depletion or 2 weeks of dietary potassium depletion did not significantly affect plasma vasopressin. 7. Our results show that chronic sodium, chloride, or potassium depletion differentially affect brain vasopressin mRNA and vasopressin release in young rats. 8. The effect of these diets may be mediated through changes in the extracellular fluid volume, serum osmolarity, and/or renin angiotensin system.     

Behavioral comparisons of the tastes of L-alanine and monosodium glutamate in rats

Recent research has implicated T1R1/T1R3 as the primary taste receptor in mammals for detecting L-amino acids, including L-monosodium glutamate (MSG) and L-alanine. Previous behavioral studies with rodents found only minimal evidence that these two substances share perceptual qualities, but those studies did not control for the taste of sodium associated with MSG. This study used several behavioral methods to compare the perceptual qualities of MSG and L-alanine in rats, using amiloride (a sodium channel blocker) to reduce the sodium component of MSG taste. Detection thresholds of L-alanine in rats ranged between 0.4 and 2.5 mM, with or without amiloride added, which are similar to threshold estimates for MSG. Conditioned taste aversion (CTA) found that rats showed strong cross-generalization of CTA between MSG and L-alanine when mixed with amiloride, indicating the two substances have similar perceptual qualities. Discrimination methods showed that rats easily discriminated between L-alanine and MSG unless the cue function of sodium was reduced. The discrimination became significantly more difficult at concentrations < 100 mM when amiloride was added to all stimuli and became even more difficult when NaCl was also added to L-alanine solutions to match the sodium concentrations of MSG. These results indicate that, perceptually, MSG and L-alanine have quite similar taste qualities and support the hypothesis that these two L-amino acids activate a common taste receptor. The differences in perceptual qualities also suggest separate afferent processing of one or both substances may also be involved.     

Effects of Ichthyophonus hoferi on condition indices and blood chemistry of experimentally infected rainbow trout (Oncorhynchus mykiss)

Body condition, hepatosomatic index and blood chemistry of Oncorhynchus mykiss experimentally infected with a tissue dwelling fish pathogenic fungus, Ichthyophonus hoferi, were monitored over a 6 wk period. This was to determine whether the infection constituted a stress manifest by changes in the hypothalamic-pituitary interrenal axis, and especially plasma cortisol levels. Infection caused anaemia and leucopenia but did not change the condition, hepatosomatic indices, or plasma chloride, cholesterol, cortisol, creatinine, glucose, osmolarity, potassium, total protein, sodium and T4. It is suggested that increased cortisol levels may not be a normal component of the stress response of fish to disease caused by invasive infectious agents.     

Tissue osmolytes and body fluid compartments in the toad Bufo viridis under simulated terrestrial conditions

Summary Toads (Bufo viridis) were kept on soil without access to free water (simulated terrestrial conditions) for over 12 weeks. Body water compartments were estimated using the dilution method (inulin and Evans Blue). They were found to remain fairly constant after a period of adjustment which lasted 1–2 weeks. In particular, plasma volume was closely controlled. Plasma osmolarity increased to over 1000 mOsm · 1^–1 accompanying a large increase in its urea concentration. NaCl also increased, while potassium remained constant. Tissue (liver and skeletal muscle) water content did not change much and electrolytes were kept constant. Tissue water urea concentration seemed to equilibrate with that of the plasma. Urine osmolarity, which was hypotonic during water access, became nearly isosmotic and correlated with the plasma following transfer onto soil. Urine urea concentration correlated with the plasma in the terrestrial conditions, potassium was greatly elevated, sodium increased to some extent, and chloride hardly changed. The efficient osmoregulatory mechanisms for the control of distribution of body water sustain normal physiological functions.     

Effect of ethanol on serum electrolytes and osmolality

Rats and rabbits were injected ethanol 2 g/kg intraperitoneally. One hour after injection blood was analyzed for serum electrolytes and osmolality. Administration of ethanol caused decrease in serum sodium (p less than 0.0005), potassium (p less than 0.0005), calcium (p less than 0.0005), chloride (p less than 0.005), magnesium (p less than 0.0005) in rabbits. Further studies of intraperitoneal administration of ethanol in rats showed decrease in concentration of sodium (p less than 0.025), potassium (p less than 0.025), calcium (p less than 0.01) chloride (p less than 0.005) magnesium (p less than 0.005), phosphorus (p less than 0.025) and glucose (p less than 0.005). Administration of ethanol caused an increase in serum osmolality in both rabbits and rats (p less than 0.005, p less than 0.05). It is concluded that ethanol ingestion is probably the commonest cause of the hyperosmolar state. Although the osmotic and sedative effects of ethanol are pharmacologically unrelated, the presence of ethanol should be considered in comatose patients in whom the measured plasma osmolality appreciably exceeds that predicted on the basis of plasma glucose, urea and electrolytes concentration.     

Hematologic and blood chemistry values of the Masai ostrich (Struthio camelus)

Normal mean values for hematocrit, hemoglobin concentration, erythrocyte and leukocyte counts, hematimetric indices, erythrocyte dimensions, glucose, urea, uric acid, cholesterol, creatinine, total bilirubin, serum aspartate aminotransferase, serum alanine aminotransferase, alkaline phosphatase, creatinine phosphokinase, lactic dehydrogenase, inorganic phosphorus, chloride, total plasma protein, sodium, potassium, calcium, and magnesium were obtained from the blood or plasma of four Masai ostriches (Struthio camelus) when juveniles at 5 mo of age and as adults 1 yr later in the Barcelona Zoo (Spain). Young ostriches had significantly lower concentrations of hematocrit, hemoglobin concentration, calcium, and magnesium, and higher levels of total protein and potassium, than the adult individuals. The rest of the parameters were not significantly different between the two age groups. The data obtained provide reference values for Masai ostriches.     

Renal responses to diuretics in the turtle

Summary We administered the diuretics furosemide and ethacrynic acid to conscious freshwater turtles to assess changes in renal function and plasma renin activity (PRA) in an animal which lacks a loop of Henle. Furosemide (2 and 5 mg/kg) produced no changes in blood pressure, hematocrit, plasma electrolytes, glomerular filtration rate (GFR), or PRA. Furosemide doubled urine volume while sodium excretion increased 20-fold and chloride and potassium excretion increased 12-fold (P<0.05 in each case). Net potassium secretion was observed. Ethacrynic acid (2 and 5 mg/kg) also produced no changes in blood pressure, hematocrit, plasma electrolytes, or PRA. At the lower dose GFR increased by 40% and urine volume nearly doubled (P<0.05 in each case). Sodium, chloride, and potassium excretion increased roughly 10-fold (P<0.05 in each case). At the higher dose, GFR increased by 80% and urine volume more than doubled (P<0.05 in each case). Sodium excretion rose 40-fold, chloride excretion rose 25-fold, and potassium excretion rose 10-fold (P<0.05 in each case). At both doses net potassium secretion occurred. The results demonstrate that both drugs inhibit tubular reabsorption in the turtle, acting primarily on distal segments of the nephron. The failure of either drug to alter PRA suggests that the turtle lacks a tubular mechanism for alterig renin release.Abbreviations GFR glomerular filtration rate - PRA plasma renin activity Supported by the University of Delaware Honors Program, American Heart Association of Delaware, NIH Biomedical Support Program, and USPHS #HL2808401     

Effect of osmolarity on potassium transport in isolated cerebral microvessels

Potassium transport in microvessels isolated from rat brain by a technique involving density gradient centrifugation was studied in HEPES buffer solutions of varying osmolarity from 200 to 420 mosmols, containing different concentration of sodium chloride, choline chloride, or sodium nitrate. The flux of 86Rb (as a tracer for K) into and out of the endothelial cells was estimated. Potassium influx was very sensitive to the osmolarity of the medium. Ouabain-insensitive K-component was reduced in hypotonic medium and was increased in medium made hypertonic with sodium chloride or mannitol. Choline chloride replacement caused a large reduction in K influx. Potassium influx was significant decrease when nitrate is substituted for chloride ion in isotonic and hypertonic media, whereas a slight decrease was found in hypotonic medium. The decrease of K influx in the ion-replacement medium is due to a decrement of the ouabain-insensitive component. Potassium efflux was unchanged in hypotonic medium but was somewhat reduced in hypertonic medium. The marked effect of medium osmolarity on K fluxes suggests that these fluxes may be responsible for the volume regulatory K movements. The possible mechanism of changes of K flux under anisotonic media is also discussed.     

The effect of reduced salinity on tissue and plasma composition of the dogfish,Squalus acanthias

• 1.1. Dogfish (Squalus acanthias) were acclimated to reduced salinities and their plasma, muscle tissue and erythrocytes subsequently analysed.
• 2.2. Decrease in the osmolarity of the plasma was principally due to a fall in urea concentration and a significant fall in the concentrations of sodium and chloride.
• 3.3. Changes in the muscle and erythrocytes in dilute media were a decrease in urea, potassium, sodium and chloride concentrations.
• 4.4. The concentrations of the free amino acids in the muscle and the red blood cells decreased more than would be expected by the movements of water only.
• 5.5. The results were discussed in relation to the regulation of cellular volume and the involvement of the free amino acid pool of the tissues in this process.

     

Plasma osmolyte concentrations and rectal gland mass of bull sharks Carcharhinus leucas, captured along a salinity gradient

Bull sharks (Carcharhinus leucas) were captured across a salinity gradient from freshwater (FW) to seawater (SW). Across all salinities, C. leucas were hyperosmotic to the environment. Plasma osmolarity in FW-captured animals (642 +/- 7 mosM) was significantly reduced compared to SW-captured animals (1067 +/- 21 mosM). In FW animals, sodium, chloride and urea were 208 +/- 3, 203 +/- 3 and 192 +/- 2 mmol l(-1), respectively. Plasma sodium, chloride and urea in SW-captured C. leucas were 289 +/- 3, 296 +/- 6 and 370 +/- 10 mmol l(-1), respectively. The increase in plasma osmolarity between FW and SW was not linear. Between FW (3 mosM) and 24 per thousand SW (676 mosM), plasma osmolarity increased by 22% or 0.92% per 1 per thousand rise in salinity. Between 24 per thousand and 33 per thousand, plasma osmolarity increased by 33% or 4.7% per 1 per thousand rise in salinity, largely due to a sharp increase in plasma urea between 28 per thousand and 33 per thousand. C. leucas moving between FW and SW appear to be faced with three major osmoregulatory challenges, these occur between 0-10 per thousand, 11-20 per thousand and 21-33 per thousand. A comparison between C. leucas captured in FW and estuarine environments (20-28 per thousand ) in the Brisbane River revealed no difference in the mass of rectal glands between these animals. However, a comparison of rectal gland mass between FW animals captured in the Brisbane River and Rio San Juan/Lake Nicaragua showed that animals in the latter system had a significantly smaller rectal gland mass at a given length than animals in the Brisbane River. The physiological challenges and mechanisms required for C. leucas moving between FW and SW, as well as the ecological implications of these data are discussed.     

Effect of an ntrC mutation on amino acid or urea utilization and on nitrogenase switch-off in Herbaspirillum seropedicae

Herbaspirillum seropedicae is a nitrogen-fixing bacterium that grows well with ammonium chloride or sodium nitrate as alternative single nitrogen sources but that grows more slowly with L-alanine, L-serine, L-proline, or urea. The ntrC mutant strain DCP286A was able to utilize only ammonium or urea of these nitrogen sources. The addition of 1 mmol.L-1 ammonium chloride to the nitrogen-fixing wild-type strain inhibited nitrogenase activity rapidly and completely. Urea was a less effective inhibitor; approximately 20% of nitrogenase activity remained 40 min after the addition of 1 mmol x L-1 urea. The effect of the ntrC mutation on nitrogenase inhibition (switch-off) was studied in strain DCP286A containing the constitutively expressed gene nifA of H. seropedicae. In this strain, nitrogenase inhibition by ammonium was completely abolished, but the addition of urea produced a reduction in nitrogenase activity similar to that of the wild-type strain. The results suggest that the NtrC protein is required for assimilation of nitrate and the tested amino acids by H. seropedicae. Furthermore, NtrC is also necessary for ammonium-induced switch-off of nitrogenase but is not involved in the mechanism of nitrogenase switch-off by urea.     

Effect of 17 α-Methyltestosterone on the Cytology of the Pituitary and the Liver,and on Plasma Electrolytes in Male Silver Eels

Male silver eels kept in fresh water were injected with 17α-methyltestosterone (MT). They received 5, 10, 15 or 20 injections (8 μg/g every other day) or 6 or 9 injections (4 μg/g or 2.5 μg/g once a week). Compared to solvent-injected controls, the treated eels showed changes in the pituitary: prolactin, corticotropic, thyrotropic and melanotropic cells were stimulated. Gonadotropic cells had enlarged nuclei, but synthesis and storage of granules and large globules were not evident, despite the progressive testicular maturation. High doses of MT induced a liver hypertrophy, a drop in plasma osmolarity and sodium level. An increase in plasma calcium level is possibly involved in the reduced activity of PAS-positive Ca-sensitive cells of the pars intermedia. These responses, previously observed in estradiol (E2) treated eels, may suggest that MT is aromatized in the brain and/or the pituitary. However, the considerable stimulation of GTH cells which always occurs in E2-treated eels is absent in MT-treated eels. With lower doses of MT, changes in the pituitary and the testis were similar to those produced by high doses, although the Ca-sensitive cells were more active. The decrease in plasma osmolarity and sodium level was less marked, plasma calcium was slightly reduced and the liver was not modified. There is no clear evidence in favour of E2 production. These data suggest that MT may stimulate the gonad directly, in agreement with biochemical data by Dufour et al. (1983).     

Ionic composition of small intestinal secretion induced by PGE2

Small intestinal fluid secretion induced by oral prostaglandin E₂ in fasted rats was analyzed for various ionic components. Rat intestinal fluid had elevated calcium and potassium as well as decreased sodium and chloride concentrations relative to plasma electrolytes. Either low dose prostaglandin (0.15 mg/kg) or 1 ml of intragastric mannitol (5%) induced accumulation in the small intestine of fluid that had elevated chloride and depressed calcium and sodium concentrations compared to vehicle-treated controls. Higher doses of prostaglandin (1.0 mg/kg) led to secretions with increased sodium and chloride concentrations with respect to mannitol-induced fluid. Electrolyte concentrations in fluid induced by low dose prostaglandin appear to be similar to those in fluid caused by osmotically-induced changes. Higher doses of prostaglandin E₂ induce additional electrolyte alterations which may result from modified gut transport of water and ions.     

Hematochemical parameters in calves before, during and after weaning to a regular diet

The Authors studied the changes of 17 blood parameters of calves before, during and after a traditional weaning. Concentrations of total protein, albumin, urea nitrogen, creatinine, glucose, cholesterol, triglycerides, alkaline phosphatase, total bilirubin and phosphorus were determined by an automated assay system; sodium, potassium and chloride by a flame photometer; calcium, magnesium, copper and zinc by an atomic absorption spectrophotometer. Observed changes can be referred to: 1) the change of the digestion (glucose); 2) the age of the subjects (alkaline phosphatase); 3) the increase of weight (creatinine); 4) the type of feeding (phosphorus, copper and zinc). Sodium, potassium, chloride, calcium and magnesium did not change during the weaning.     

Osmoregulation of the cane toad, Bufo marinus, in salt water

Adult cane toads, B. marinus, survived in salinities up to 40% sea-water (SW). Pre-exposure to 30, then 40% SW, increased the survival time of toads in 50% SW. Plasma from toads acclimated to salt water is hyperosmotic to the environment--a result of increased plasma sodium, chloride and urea concentrations. When toads were placed in tap-water and 20% SW, all significant changes to plasma sodium, chloride, urea and osmotic pressure occurred within the first 2 days of exposure. When toads were placed in 30 and 40% SW environments, the increases in plasma sodium and chloride concentrations occurred within the first 2 days of exposure while urea and total osmotic pressure continued to rise until some time between 2 and 7 days exposure.     

Gentamicin nephrotoxicity. II. Physiological, biochemical and morphological effects of prolonged administration to rats.

The purpose of this investigation was to determine the morphological, physiological and biochemical effects of gentamicin upon the rat kidney following prolonged administration of the antibiotic. Sprague-Dawley and Fischer 344 strain rats were given 3, 10, 20 or 40 mg gentamicin per kg body weight per day for 28 days. Morphologic alterations were evaluated by light and electron microscopy. Functional parameters included glomerular filtration rate, PAH secretion, renal plasma flow, sodium reabsorption, potassium excretion, urine volume and protein, and serum urea nitrogen. Oxidative metabolism of mitochondrial fractions from renal cortical homogenates was evaluated by oxygen uptake and P:O ratios. The results indicate focal proximal tubular injury, decreased tubular maximum secretion of PAH, and altered oxidative metabolism at the higher dose levels of gentamicin. Neither elevations of serum urea nitrogen nor alterations in glomerular filtration rate, renal plasma flow, or sodium or potassium excretion were observed. Thus, it appears that high dose levels (40 mg per kg per day) alter the structure and function of some proximal tubular segments when administered over prolonged periods. The alterations appear reversible. Although nephro-toxicity is identified under these conditions in rats, extrapolation to human patients usually receiving much lower doses must be guarded.     

Alterations in plasma sodium and potassium levels following chronic oral ingestion of lead, mercury and cadmium in male albino rats.

Adult male albino rats were orally administered 0, 25, 50 and 100 ppm of lead nitrate, mercuric chloride and cadmium chloride for 60, 120 and 180 days. The plasma sodium levels were decreased in rats exposed to varying doses of lead and mercury up to 180 days, while animals which consumed cadmium chloride showed an increase in sodium levels. In lead and mercury treated animals, plasma potassium levels were increased up to 180 days. The levels were decreased in cadmium exposed rats. These observations suggest that chronic exposure to these heavy metals considerably influences plasma sodium and potassium levels depending on the dose and duration of exposure.     

Brain water and electrolytes in response to respiratory acidosis and brain edema in the mutant mouse,Jimpy

Compared to littermate controls, unstressed Jimpy mice have higher brain water, sodium, potassium and chloride contents and lower carbonic anhydrase activity. When stressed by CO₂ to produce a respiratory acidosis or by injection of distilled water to produce brain edema, the Jimpy mouse brain has water and ionic responses essentially like those in controls.     

Neurotoxin effects on oxytocin, vasopressin and somatostatin in discrete rat brain areas

Monosodium-L-Glutamate (MSG) produces lesions to monoaminergic and peptidergic neurons in several brain areas. The present study examined the effect of neonatal MSG treatment on oxytocin (OXY), arginine-vasopressin (AVP) and somatostatin (SRIF) concentrations in several discrete brain areas of adult rats. OXY increased in the suprachiasmatic and arcuate nuclei and median eminence (ME) and decreased in the paraventricular nucleus of MSG-treated rats. MSG treatment caused AVP to increase in the arcuate nucleus and ME and decrease in the supraoptic nucleus. SRIF decreased following neonatal MSG treatment in both the ME and neurointermediate pituitary lobe. The results demonstrate that the effects of neonatal MSG treatment on neuropeptide content are not just limited to the arcuate nucleus. Furthermore, taken together with previous results, the data suggest that these changes may be indicative of functional deficits in the neuronal activity of some of these peptidergic neurons which, in turn, may be responsible for the abnormal secretion of several pituitary hormones observed in MSG-treated animals.     

Effect of various chloride salts on the utilization of phosphorus, calcium, and magnesium

Only part of the effect of dietary protein on urinary calcium excretion can be ascribed to sulfur amino acids. We hypothesized that chloride, another factor often associated with isolated proteins, and another amino acid, lysine, affect utilization of calcium. The effects of supplemental dietary chloride, inorganic or organic, on calcium, phosphorus, and magnesium utilization were studied in two rat studies. Weanling Sprague-Dawley rats were fed semi-purified diets that contained moderate (1.8 mg Cl/g diet) or supplemental (15.5 mg Cl/g diet) chloride as sodium chloride, potassium chloride, or lysine monohydrochloride with or without calcium carbonate for 56 or 119 days. Rats fed supplemental sodium chloride or potassium chloride had higher urinary phosphorus excretion, more efficient phosphorus absorption, but unchanged tissue phosphorus levels after 7 and 16 weeks of dietary treatment as compared to rats fed moderate chloride. Rats fed supplemental sodium chloride or potassium chloride excreted more calcium in urine at 7 weeks and absorbed calcium less efficiently at 16 weeks. Tissue calcium concentrations were unaffected, but total tibia magnesium and plasma magnesium concentrations were lower in rats fed supplemental sodium chloride or potassium chloride than those fed moderate chloride. Lysine chloride with or without additional calcium elevated urinary calcium excretion even more than sodium chloride and potassium chloride ingestion. Rats fed lysine chloride with supplemental calcium had smaller apparent absorption and urinary losses of phosphorus and magnesium after 16 weeks and lower tibia and plasma magnesium concentrations than rats fed lysine chloride.