WR-2721 inhibition of radiation-induced prostaglandin excretion in rats

Pre-irradiation administration of the radioprotectant drug WR-2721 to rats resulted in a significant reduction in radiation-induced increases in excretion rates of prostaglandins (PGE and PGF2 alpha) and thromboxane (TxB2). In animals not irradiated. WR-2721 did not significantly alter these excretion rates. Dramatic reductions in the levels of urinary PGE and TxB2 were observed following exposure to 9.0 Gy of whole-body, unilateral gamma-radiation in WR-2721-treated animals, whereas changes in PGF2 alpha levels were less pronounced. Radiation-induced diuresis was also significantly depressed in animals given WR-2721 before irradiation. Reduced prostaglandin excretion rates may reflect the general radioprotective capacity of the chemoprotector WR-2721 on the release of prostaglandins from radiation-damaged tissue. The decrease in diuresis may be related to the observed prostaglandin decreases.     

Renal responses to chronic cold exposure

The aim of this study was to assess our hypothesis that the release of antidiuretic hormone (ADH), the renal concentrating response to ADH, or both is decreased by prolonged cold exposure. Six groups (n = 6/group) of rats were used. Three groups were exposed to cold (5 degrees C), whilethe remaining three groups were kept at room temperature (25 degrees C). It was found that urine osmolality decreased significantly and serum osmolality increased significantly during cold exposure. The ratio of water/food intake was not affected by prolonged cold exposure. However, prolonged cold exposure increased the ratio of urine output/food intake in the cold-exposed rats, indicating that more urine flow is required by the cold-exposed rats to excrete the osmotic substance at a given food intake. The difference between water intake and urine output decreased significantly in the cold-exposed rats. Thus, prolonged cold exposure increases water loss from excretion. Renal concentrating responses to 24-h dehydration and Pitressin were decreased significantly in the cold-exposed rats. Plasma ADH levels remained unchanged, but renal ADH receptor (V2 receptor) mRNA was decreased significantly in the cold-exposed rats. The results strongly support the conclusion that cold exposure increases excretive water loss, and this may be due to suppression of renal V2 receptors rather than inhibition of ADH release.     

Central mu opioids mediate differential control of urine flow rate and urinary sodium excretion in conscious rats

Central administration of the selective mu opioid agonist, dermorphin, produces a concurrent diuretic and antinatriuretic response in conscious rats. To determine whether central mu opioids differentially affect the renal excretion of water and sodium, we examined changes in renal function produced by intracerebroventricular (i.c.v.) administration of dermorphin during continuous intravenous (i.v.) infusion of a synthetic ADH analogue in conscious Sprague-Dawley rats. During ADH infusion the typical diuresis produced by i.c.v. dermorphin was abolished although the antinatriuresis remained intact. Alone, I.v. ADH produced a decrease in urine flow rate without significantly altering urinary sodium excretion. In other studies, the effects of i.c.v. dermorphin were examined on the renal responses produced by i.v. infusion of a V₂-ADH receptor antagonist. In these studies the magnitude of the V₂ antagonist-induced diuresis was not altered by i.c.v. dermorphin but the increase in urinary sodium excretion produced by this antagonist was converted to an antinatriuresis. Central dermorphin did not alter heart rate or mean arterial pressure in either study. These findings suggest that the effects of central dermorphin on renal sodium and water handling are mediated by separate mechanisms; the effects on water involving changes in circulating ADH levels and the effects on sodium independent of the action of this hormone.     

Activation of the serotonergic 5-HT1A receptor in the paraventricular nucleus of the hypothalamus inhibits water intake and increases urinary excretion in water-deprived rats

The paraventricular nucleus (PVN) may be considered as a dynamic mosaic of chemically-specified subgroups of neurons. 5-HT(1A) is one of the prime receptors identified and there is expressed throughout all magnocellular regions of the PVN. Several reports have demonstrated that a subpopulation of the magnocellular neurons expressing 5-HT(1A) receptors are oxytocin (OT) neurons and activation of 5-HT(1A) receptors in the PVN increases the plasma OT. Increasing evidence shows that OT inhibits water intake and increases urinary excretion in rats. The aim of this study was to investigate the role of serotonergic 5-HT(1A) receptors in the lateral-medial posterior magnocellular region of the PVN in the water intake and diuresis induced by 24 h of water deprivation. Cannulae were implanted in the PVN of rats. 5-HT injections in the PVN reduced water intake and increased urinary excretion. 8-OH-DPAT (a 5-HT(1A) agonist) injections blocked the water intake and increased urinary output in all the periods of the observation. pMPPF (a 5-HT(1A) antagonist) injected bilaterally before the 8-OH-DPAT blocked its inhibitory effect on water intake and its diuretic effect. We suggest that antidipsogenic and diuretic responses seem to be mediated via 5-HT(1A) receptors of the lateral-medial posterior magnocellular region of the PVN in water-deprived rats.     

High Sodium-Induced Oxidative Stress and Poor Anticrystallization Defense Aggravate Calcium Oxalate Crystal Formation in Rat Hyperoxaluric Kidneys

Enhanced sodium excretion is associated with intrarenal oxidative stress. The present study evaluated whether oxidative stress caused by high sodium (HS) may be involved in calcium oxalate crystal formation. Male rats were fed a sodium-depleted diet. Normal-sodium and HS diets were achieved by providing drinking water containing 0.3% and 3% NaCl, respectively. Rats were fed a sodium-depleted diet with 5% hydroxyl-L-proline (HP) for 7 and 42 days to induce hyperoxaluria and/or calcium oxalate deposition. Compared to normal sodium, HS slightly increased calcium excretion despite diuresis; however, the result did not reach statistical significance. HS did not affect the hyperoxaluria, hypocalciuria or supersaturation caused by HP; however, it increased calcium oxalate crystal deposition soon after 7 days of co-treatment. Massive calcium oxalate formation and calcium crystal excretion in HS+HP rats were seen after 42 days of treatment. HP-mediated hypocitraturia was further exacerbated by HS. Moreover, HS aggravated HP-induced renal injury and tubular damage via increased apoptosis and oxidative stress. Increased urinary malondialdehyde excretion, in situ superoxide production, NAD(P)H oxidase and xanthine oxidase expression and activity, and decreased antioxidant enzyme expression or activity in the HS+HP kidney indicated exaggerated oxidative stress. Interestingly, this redox imbalance was associated with reduced renal osteopontin and Tamm-Horsfall protein expression (via increased excretion) and sodium-dependent dicarboxylate cotransporter NaDC-1 upregulation. Collectively, our results demonstrate that a HS diet induces massive crystal formation in the hyperoxaluric kidney; this is not due to increased urinary calcium excretion but is related to oxidative injury and loss of anticrystallization defense.     

Effect of somatostatin on renal water handling in the dog

When somatostatin was infused into the left renal artery of anaesthetized, hydropenic dogs in doses ranging from 1 to 10 micrograms/min, it produced an increased flow of a more dilute urine from the ipsilateral kidney. Similar infusions in dogs undergoing a maximal water diuresis had no effect. If aqueous antidiuretic hormone (ADH) was administered intravenously into water-loaded dogs prior to the intraarterial infusion of somatostatin, this latter peptide was able to produce an augmented flow of a more dilute urine from the ipsilateral kidney. If the left kidney was made to excrete a concentrated urine in the face of maximal water loading by restricting arterial perfusion, then the infusion of somatostatin had no effect on urinary dilution, though this peptide could increase water excretion in hydropenic dogs when the left kidney was similarly restricted as to arterial inflow. In dogs undergoing a water diuresis that were given cyclic AMP (4 mg/min) into the left renal artery, a decrease in ipsilateral water excretion was observed. The subsequent infusion of somatostatin produced no urinary dilution. We conclude that somatostatin increases renal water excretion by antagonizing the ADH effect on the renal tubule, and that this event probably occurs at a pre-cAMP site within the cell.     

Effects of x-ray irradiation on the subsequent gonadotropin secretion in normal and neonatally estrogenized female rats.

Female rats were irradiated with 190R of X-rays at 10 days of age and sacrificed 4, 7 or 12 months later. Their ovaries were histologically examined and serum levels and pituitary contents of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) were determined by radioimmunoassay. Both serum levels and pituitary contents of LH and FSH rose significantly 4 and 7 months after irradiation, although the ovaries were markedly reduced in weight. On the contrary, 12 months after irradiation, the ovaries increased in weight and consisted mostly of polyhedral, hyperplastic interstitial cell masses, and both LH and FSH in the serum and pituitary were reduced to normal levels. These characteristic changes in the ovarian weight and histological appearance could not be observed in the similarly irradiated animals which were received daily injections of estrone for the first 30 days of postnatal life, i.e., daily injections of 50 mug for the first 10 days, 100 mug for the middle 10 days and 200 mug for the last 10 days. Serum LH levels of the estrogenized irradiated rats at 7 or 12 months of age did not elevate although those of FSH were significantly higher than the non-irradiated intact levels. From these results, a rise in the blood levels of LH and the FSH may be attributed to the increase in weight and the histological changes in the ovaries of the irradiated female rats, and the elevation of only FSh level may not result in the abnormal growth of the irradiated ovaries.     

Relationship of urinary kallikrein excretion to urinary potassium excretion during furosemide administration with and without amiloride

The relationship of urinary kallikrein excretion to urine volume, and to urinary sodium and potassium excretions was studied in normal rats during furosemide diuresis and superimposed injection of amiloride, a K+-sparing diuretic. Continuous infusion of furosemide increased urinary kallikrein, sodium and potassium excretions and the urine volume. Amiloride injection during furosemide diuresis caused further increase in diuresis and natriuresis, but a prompt decrease in urinary kallikrein excretion to basal level, and potassium excretion to below the basal level. The significant correlation of urinary kallikrein excretion to urinary potassium excretion, but not to urine volume and urinary sodium excretion after amiloride injection suggests that the major determinant of urinary kallikrein excretion is renal potassium secretion through a mechanism that is affected by amiloride.     

Urinary excretion of digoxin-like factor (DLF) and ADH during DOCA-salt and Goldblatt 2 kidney-1 clip hypertension development

Urinary digoxin-like factor, ADH, sodium and potassium excretion and urine osmolality were studied during the development of two pathogenically different models of hypertension, DOCA-salt (low-renin) and Gold-blatt 2 kidney-1 clip (renin-dependent). Urinary digoxin-like factor was increased in rats that were given saline (NaCl 1%) to drink, uninephrectomized-salt and DOCA-salt rats, with no significant differences between the two groups urinary ADH was elevated in DOCA-salt rats during the study, compared with uninephrectomized-salt rats. Urinary digoxin-like factor and urinary ADH were not significantly modified in Goldblatt 2 kidney-1 clip and sham-operated rats. In addition, positive correlations between digoxin-like factor urinary excretion and urinary ADH and also with sodium urinary excretion were found. These data suggest that: a) digoxin-like factor and ADH could play a role in the pathogenesis of DOCA-salt but not in Goldblatt 2 kidney-1 clip hypertension. b) A common mechanism may stimulate ADH and digoxin-like factor simultaneously. c) Digoxin-like factor plays a role in the control of urinary sodium excretion.     

A biphasic response of urinary prostaglandin E2 excretion to water deprivation in conscious diabetes insipidus Brattleboro rats

The effects of water deprivation on the urinary excretion rate of prostaglandin E2 (PGE2) were examined in conscious Brattleboro rats. In order to study the time course of the changes in the PGE2 excretory rate, urine was collected in 6 periods, Control: 0-1 hour (h.). 1: 3-4.5 h., 8-10 h., III: 12-15 h., IV: 24-28 h. and V: 32-36 h. after removal of water and food. It was found that the PGE2 excretion rate changed in a biphasic pattern. During the first 2 experimental periods it increased. Thereafter it decreased towards the control value. There was an increase in PGE2 excretion with urinary flows down to 3 microliter/(min*100 g b. wt). At further reductions in urinary flow rate, PG excretion decreased towards basal levels.     

阿霉素肾病大鼠尿液糖胺聚糖与尿液蛋白含量的相关性

目的探讨阿霉素肾病大鼠疾病进展过程中尿液糖胺聚糖含量的变化及其与尿蛋白的关系。方法采用一次性尾静脉注射阿霉素6mg/kg制作肾病综合征大鼠模型,第1、2、3、4、6周分别收集大鼠24h尿液测定尿糖胺聚糖和尿蛋白含量。43d后结束实验取血及肾脏,检测血生化,观察肾组织病理改变。结果第2、3、4、6周与正常对照组比较,阿霉素肾病大鼠24h尿蛋白排泄量呈进行性明显上升趋势;造模43d后模型组血清白蛋白含量显著下降,总胆固醇和甘油三酯含量显著升高,肾组织病理所见,模型组肾小球系膜区见中度至重度的系膜细胞增殖及基质增生。从第3周开始阿霉素肾病大鼠尿糖胺聚糖浓度显著高于正常组,且与24h尿蛋白排泄量呈正相关关系。第6周尿糖胺聚糖浓度与血清白蛋白浓度负相关,与甘油三酯浓度正相关。结论阿霉素肾病综合征大鼠尿液中糖胺聚糖浓度升高,并与24h尿蛋白排泄、血清白蛋白、甘油三酯浓度显著相关。     

The short-term effect of cortisol, dexamethasone and ACTH administration on the serum levels of hexuronic acids and monosaccharides in man

The levels of serum monosaccharides (SMO) and hexuronic acids (SHA) were measured in subjects without any metabolic or endocrine disease after a short-time administration of cortisol, dexamethasone and ACTH. The effects of the three hormones were evaluated in regard to the urinary excretion of free cortisol and cortisone at basal conditions. In thirteen subjects a significant increase of SMO during cortisol treatment was registered after 24 hours. A distinct difference in the response of SMO to cortisol treatment was observed in patients with normal or increased cortisol excretion, respectively. In the subjects with high urinary free corticoids a peak of SMO occurred soon after 4 hours after cortisol administration, in the next 48 hours no tendency of return towards basal levels was observed. In the subjects with normal urinary free cortisol excretion only a slight increment was seen after 24 hours. Soon after 4 hours in eight subjects dexamethasone administration resulted in an increase of SMO without regard to the excretion of urinary free corticoids. The highest values were obtained after 28 hours of dexamethasone treatment. Ten hours after cessation of dexamethasone the levels of SMO reached the basal values. In the study in which ACTH was administered, an increment of SMO was registered only in the first four hours. In the group of subjects treated with ACTH a slight difference between subjects with normal and increased corticoid excretion was seen. The levels of SHA successively increased after the administration of all three hormones, without regard to the basal excretion of urinary free corticoids. This increase persisted also 10 hours after cessation of cortisol and dexamethasone, and 40 hours after the last dosis of ACTH, respectively. The possibility of an altered metabolism of glucose through the glucuronate pathway under conditions of glucocorticoid excess is discussed.     

Water and electrolyte excretion during the oestrous cycle in sheep.

Electrolyte excretion was observed during 24 oestrous cycles in housed sheep, together with mixed salivary Na/K ratio during 10 additional cycles. 1. The sharp fall in food and fluid intake at oestrus accompanied a peak of sodium excretion which changed to peak retention 3 days later, both in faeces and urine. 2. Potassium excretion declined with food intake at oestrus but subsequently failed to recover to pre-oestrous levels dispite full recovery of dietary intake. 3. Curiously, water intake also recovered completely whereas urinary and faecal water retention continued; faecal loss actually exceeded renal excretion on these liberal water intakes. 4. Changes in salivary, urinary and faecal Na/K indicated an aldosterone peak neither during the luteal phase nor at oestrus but three days later. The data raise questions concerning the regulation of water and electrolyte balance within the normal cycle. They also provide a baseline for the investigation of renal effects of gonadal steroids. Possible roles for aldosterone, ADH and progesterone in maintaining fluid and electrolyte balance are discussed, emphasising problems confronting species which have evolved with heavy obligatory potassium excretion but undependable supplies of sodium and water.     

Inhibitory effects of 1 alpha, 25-dihydroxycholecalciferol on parathyroid hormone secretion in rats

In an attempt to study the influence of vitamin D metabolites on PTH secretion, serum calcium and urinary excretion of cAMP were sequentially measured in conscious perfused rats, and the effects of a single iv injection of the metabolites on these parameters were examined. Four hours after the administration of 0.25 microgram/kg (0.6 nmol/kg, probably a physiological dose) of 1 alpha, 25-dihydroxycholecalciferol [1 alpha, 25 (OH)2D3], the urinary excretion of cAMP decreased to a level compatible with that of parathyroidectomized rats (approximately 60% of the initial value; P less than 0.05) and this level was sustained for nearly 24 h. Serum concentrations of calcium (total and ionized) did not change. In parathyroidectomized rats which were continuously infused with bovine PTH (1 U/h), the vitamin D metabolite had no significant effect on the urinary excretion of cAMP. 24 R, 25-dihydroxcholecalciferol (12.5 microgram/kg) had no significant effect either on the urinary excretion of cAMP or on serum calcium. These results suggest that in rats, a physiological dose of 1 alpha, 25(OH)2D3 inhibits PTH secretion without causing a significant rise iu serum calcium, reflecting a feed-back mechanism between active vitamin D metabolite, 1 alpha, 25(OH)2D3 and the parathyroid glands.     

The metabolites of catecholamines in urine of patients irradiated therapeutically.

The metabolites of catecholamines were determined in 24-hour urine samples of patients with genital carcinoma and treated by radio therapy. The patients were irradiated first with gamma-rays of radium and then with X-rays. The radium sources (80 mCi) were placed intracavitarily for 46 hours twice within 2 weeks. X-irradiation (800 R daily), applied 1 month after radium treatment, was delivered on four abdominal fields over 15 days. The quantities of excreted catecholamine metabolites during irradiation were compared with control values (obtained before irradiation) in the same patients. Gamma-irradiation provoked a significant increase in the excretion of 3-methoxy-4-hydroxy-mandelic acid, metadrenaline and normetadrenaline, as well as of homovanillic acid, whereas X-irradiation provoked only a significant increase in the excretion of free 3-methoxy-4-hydroxy-phenylglycol. The increased excretion might be explained: (1) in the case of radium application, by direct radiation-induced release of catecholamines from the peripheral symphathetic nerves; (2) in the case of X-irradiation, by putting in the motion the complex of early neuroendocrine reactions via irradiated adrenal medulla.     

Evolutionary Advantages of Participation of Vasopressin instead of Vasotocin in Regulation of Water–Salt Balance in Mammals

In experiments on non-anesthetized Wistar white rats there was studied reaction of kidney to an intramuscular injection of arginine vasotocin or arginine vasopressin at doses from 0.001 to 0.05 µg/100 g body mass on the background of a water load. Water (5 ml/100 g body mass) was administered through a catheter into stomach to suppress secretion of endogenous antidiuretic hormone (ADH). In experiments with water administration, diuresis increased due to a decrease of osmotic permeability of renal tubules and to excretion of osmotically free water, with the constant clearance of sodium ions. Injection of 0.05 µg arginine vasopressin led to a marked decrease of diuresis due to a rise of reabsorption of osmotically free water without elevation of excretion of osmotically active substances. Injection of the same dose of arginine vasotocin resulted in no increase of diuresis; however, reabsorption of osmotically free water and excretion of osmotically active substances including sodium ions were more pronounced. Hence, both vasotocin and vasopressin increased osmotic permeability of the tubular epithelium, but vasotocin, unlike vasopressin, promoted reduction of reabsorption of sodium ions and their loss with urine. A suggestion is made that one of the reasons for replacement in mammals of the molecular ADH forms (vasotocin by vasopressin) was the absence of the pronounced natriuretic effect in arginine vasopressin. This was of crucial significance to preserve sodium ions in the organism, to maintain water–salt balance in animals adapted to the terrestrial life, and to provide not only osmo-, but also volumoregulation.     

The effect of prostaglandin synthetase inhibitors on renal function: studies in normal rats during sodium or water diuresis and in rats with chronic renal insufficiency

The effect of acute infusion of the prostaglandin synthetase inhibitors - meclofenamate or indomethacin - was examined in awake rats. Studies were performed in normal rats undergoing either sodium or water diuresis and in salt-replete rats with chronic renal insufficiency. Prostaglandin synthetase inhibitors had no effect on renal plasma flow, glomerular filtration rate or fractional excretion of sodium in any of the groups. Absolute urinary excretion rates for sodium and potassium decreased only in the normal, salt-replete rats. In contrast, prostaglandin synthetase inhibitors consistently decreased urinary flow and osmolar clearance under all experimental conditions studied. In the normal, salt-replete rats the fall in urine flow was preceded by an increase in urinary excretion of cyclic AMP. These results show that inhibitors of prostaglandin synthesis enhance the ability of the kidney to reabsorb water. This effect may be secondary to increased cyclic AMP generation and to increased urea recirculation resulting in higher urea accumulation in the renal medulla.     

The effect of prostaglandin synthetase inhibitors on renal function: Studies in normal rats during sodium or water diuresis and in rats with chronic renal insufficiency

The effect of acute infusion of the prostaglandin synthetase inhibitors — meclofenamate or indomethacin — was examined in awake rats. Studies were performed in normal rats undergoing either sodium or water diuresis and in salt-replete rats with chronic renal insufficiency. Prostaglandin synthetase inhibitors had no effect on renal plasma flow, glomerular filtration rate or fractional excretion of sodium in any of the groups. Absolute urinary excretion rates for sodium and potassium decreased only in the normal, salt-replete rats. In contrast, prostaglandin synthetase inhibitors consistently decreased urinary flow and osmolar clearance under all experimental conditions studied. In the normal, salt-replete rats the fall in urine flow was preceded by an increase in urinary excretion of cyclic AMP. These results show that inhibitors of prostaglandin synthesis enhance the ability of the kidney to reabsorb water. This effect may be secondary to increased cyclic AMP generation and to increased urea recirculation resulting in higher urea accumulation in the renal medulla.     

Urinary kallikrein excretion after potassium adaptation in the rat

24-h urinary kallikrein excretion in male Sprague-Dawley rats was measured before and after 14 days with 100 mM potassium chloride as drinking fluid ad libitum. Urinary kallikrein excretion increased in K+-adaptation. The increase was greater when the rats were given distilled water rather than 100 mM sodium chloride to drink prior to the potassium chloride. The urinary potassium excretion increased in all rats studied. The urinary sodium excretion, urine volume and fluid intake increased significantly in rats that had distilled water to drink prior to the KCl. In marked contrast, when rats were offered NaCl prior to KCl, the urinary sodium excretion was unaffected while the urine volume and fluid intake decreased significantly. This study shows that prior NaCl intake abolishes the natriuretic and diuretic effects of KCl load and only suppresses the increase in urinary kallikrein excretion. This suggests that K+ secretory activity at the distal tubules is the major determinant of the release of renal kallikrein in the rat.     

Role of substance P in water homeostasis.

The effect of the naturally occurring peptide substance P on release of antidiuretic hormone (ADH) was studied in anesthetized dogs. Intravenous infusions of substance P in doses of 0.5, 5.0, and 50 ng/kg/min increased plasma concentrations of ADH in a dose-related fashion. At the two low doses, this increase occured in the absence of changes in urine volume, sodium excretion, free water clearance, and urinary cyclic AMP excretion. In addition, when substance P was administered in a concentration of 0.5 ng/kg/min, plasma levels of ADH were increased even though blood pressure did not change, suggesting that substance P may release antidiuretic hormone by a direct mechanism. Intrarenal infusions at a rate of 0.5 and 5 ng/kg/min caused dose-related decreases in free water clearance and significant increases in urinary cyclic AMP excretion. These data suggest that substabce P may play an important role in the regulation of water balance.