Chronopharmacological study of furosemide in rats: (III). Examination in spontaneously hypertensive and Wistar-Kyoto rats

We have previously reported that a time-dependent variability is observed in the diuretic effect of furosemide in Wistar rats and the adrenergic system is involved in the mechanisms responsible for this phenomenon. The present study was undertaken to examine chronopharmacological profiles of furosemide in two related but different strains of Wistar rats, spontaneously hypertensive (SHR) and Wistar-Kyoto (WKY) rats. Furosemide (5 mg/kg) was administered intra-arterially in SHR and WKY at 1000 hrs (03HALO) or at 2200 hrs (15HALO). Urine was collected for 60 min after the drug and urinary excretion of sodium and furosemide were determined respectively. In both groups of rats, urine volume and urinary excretion of sodium and furosemide were significantly greater at 1000 hrs (03HALO) than at 2200 hrs (15HALO) as observed in the previous study using Wistar rats. The diuretic effects of furosemide in SHR was not different from those in WKY at 1000 hrs (03HALO) or at 2200 hrs (15HALO). These data indicate that the effects of furosemide also vary with a time of administration in SHR and WKY as observed in Wistar rats. In addition, the present study suggest that the mode of the time-dependent changes in the effects of furosemide in SHR, which is reported to have an altered circadian rhythm in the adrenergic system, does not differ from that in WKY rat.     

Chronopharmacological study of furosemide in rats: (II). Influence of beta-adrenoceptor blockade

We have previously demonstrated a time-dependent variability in the diuretic effect of furosemide in rats. The present study was undertaken to evaluate the influence of beta-adrenoceptor blockade on these time-dependent variations. Furosemide (5 mg/kg) was administered intra-arterially in Wistar rats at 1000 hrs (03HALO) or at 2200 hrs (15HALO) with pretreatment with either propranolol (10 mg/kg) or atenolol (10 mg/kg). Urine was collected for 60 min after furosemide administration and urinary excretion of sodium and furosemide were determined respectively. Propranolol pretreatment abolished the temporal variations observed in urine volume, urinary sodium and furosemide levels during the observation periods. With atenolol pretreatment, however, all these variables were significantly greater at 1000 hrs (03HALO) than at 2200 hrs (15HALO) as observed in the previous study. These results suggest that the beta-adrenoceptor-mediated stimuli, which is blocked by propranolol but not by atenolol, is responsible for the time-dependent changes in the diuretic effect of furosemide.     

Chronopharmacological study of furosemide; (IV). Examination in aged rats

We have previously reported that a time-dependent variability is observed in the diuretic effects of furosemide in young Wistar rats. The present study was undertaken to examine the influence of ageing on chronopharmacological profiles of furosemide in rats. Furosemide (5 mg/kg) was injected intra-arterially in young (10-11 week old) and aged (21-22 month old) Wistar rats at 1000 hrs or at 2200 hrs. Urine was collected for 60 min after the drug and urinary excretion of sodium and furosemide were determined respectively. Urine volume and urinary excretion of sodium and furosemide following the drug injection were significantly greater at 1000 hrs than at 2200 hrs in the young rats as observed in the previous study. However these administration time-dependent changes in the effects of furosemide and its urinary amount disappeared in the aged rats. These findings indicate that the mode of the time-dependent changes in the effects of furosemide is altered in aged Wistar rats.     

Chronopharmacological study of furosemide; (VI). Influence of prolonged exposure to continuous light

We have previously reported that a time-dependent variability is observed in the diuretic effects of furosemide in rats. The present study was undertaken to examine the influence of prolonged exposure to continuous light on chronopharmacological profiles of furosemide in Wistar rats. In study I, rats were maintained for more than 2 weeks under conditions of light (0700-1900 hrs) and dark (1900-0700 hrs) (L-D). Furosemide (30 mg/kg) was orally given at 1200 hrs or at 2400 hrs. Urine was collected for 8 hours after the drug and urinary excretion of sodium and furosemide were determined respectively. Thereafter, these rats were exposed to continuous light (L-L) for the next 4 weeks, and were again maintained under the L-D cycle. The identical trial of study I was repeated at the end of the L-L (study II) and the second L-D (study III) conditions. Urine volume and urinary excretion of sodium and furosemide following the drug were significantly greater at 1200 hrs than at 2400 hrs under conditions of L-D (study I and III). However these administration time-dependent changes in the effects of furosemide and its urinary amount disappeared with L-L condition (study II). These findings indicate that the mode of the time-dependent changes in the effects of furosemide is altered by prolonged exposure to continuous light.     

Influence of renal denervation on chronopharmacology of furosemide in rats.

Our previous studies have suggested that the adrenergic nervous system is involved in the mechanism responsible for the time-dependent change in the urinary excretion of furosemide in rats. To examine a potential role of renal nerves in this phenomenon, renal denervation or sham operation was performed using unilaterally nephrectomized rats. Furosemide (30 mg/kg) was given orally at 12 am or 12 pm. Urine was collected for 8 hours after furosemide dosing, and urinary excretions of furosemide and sodium were determined. Urinary furosemide excretion and diuretic effects of the agent (urine volume and urinary sodium) were significantly greater at 12 am than at 12 pm in the sham-operated group of rats. However these administration time-dependent changes in urinary furosemide and its diuretic effects disappeared in the renal-denervated group of animals. These results suggest that the renal nerves contribute to the time-dependent changes in the urinary excretion of furosemide and its subsequent diuretic effects.     

Chronopharmacological study of furosemide; (VII). Influence of repeated administration on biochemical parameters in blood

The present study was undertaken to examine whether influences of furosemide on biochemical parameters vary with its time of administration in Wistar rats. Rats were maintained under conditions of light (0700-1900 hrs) and dark (1900-0700 hrs). Furosemide (30 mg/kg) or vehicle (5% glucose) was given orally at 1000 hrs (day trial) or at 2200 hrs (night trial) for 14 days. Water and food intakes were measured, and urine was collected for 24 hours following the final dosage in each group. Thereafter, blood samples were obtained. Water intake and urinary excretions of volume, sodium and chloride increased by furosemide treatment. The increments in these parameters were greater in the day trial than in the night trial. Food intake did not change. The serum concentration of chloride was decreased by furosemide. The decrement in this parameter was enhanced in the day trial. The influence of furosemide on other biochemical parameters (sodium, potassium, creatinine, calcium, inorganic phosphate, total protein, total cholesterol and glucose) did not differ between the day and night trials. These data indicate that the untoward influence of furosemide on serum chloride might vary with its time of administration.     

Chronopharmacological study of furosemide in rats

The present experiment was undertaken to determine whether or not the effects of furosemide depend upon the administration time and, if so, to study the mechanism(s) for these variations. After administration of furosemide (5 mg/kg) in Wistar rats at 10:00 or at 22:00, urine volume and urinary excretion of sodium, furosemide, and prostaglandin E2 (PGE2) were measured. Urine volume and urinary excretion of sodium and furosemide, but not PGE2, were significantly greater when furosemide was administered at 10:00 than when it was administered at 22:00. There was a good correlation between the urinary output of furosemide and the urine volume, or the urinary sodium. It is concluded that the effects of furosemide vary with the administration time and these variations depend upon the amount of furosemide secreted in urine.     

Chronopharmacology of trichlormethiazide in rats; (II). Examination in aged rats

We have previously demonstrated a time-dependent variability in the diuretic effects of trichlormethiazide, a thiazide diuretic agent, in young rats. The study suggested that the time-dependent variations in urinary trichlormethiazide and susceptibility of renal tissues to the agent might be involved in this phenomenon. The present study was undertaken to test a hypothesis that such a daily variation in the effects of trichlormethiazide is blunted by age. Trichlormethiazide (0.5 and 2.0 mg/kg) was given orally at 1200 hrs (day trial) or at 2400 hrs (night trial) in young (10-11 week old) and aged (23-24 month old) Wistar rats. Urine was collected for 8 hours after the agent and urinary excretions of sodium, chloride and trichlormethiazide were determined. Urine volume and urinary excretions of sodium, chloride and trichlormethiazide following the agent were significantly greater at 1200 hrs than at 2400 hrs in the young rats. However these administration time-dependent changes in the effects of trichlormethiazide and its urinary amount diminished in the aged rats. In the day and night trials, there were significant correlations between urinary trichlormethiazide and its effects (urine volume, urinary sodium and chloride) in both groups of rats. The regression lines in each parameter of two trials differed in the young, but not in the aged group of rats. These data indicate that the mode of the time-dependent changes in the effects of trichlormethiazide is altered in aged Wistar rats. Dampening of the time-dependent variations in urinary trichlormethiazide and susceptibility to the agent might be involved in these chronopharmacological alterations in aged rats.     

Contribution of diet to the dosing time-dependent change of vitamin D3-induced hypercalcemia in rats

We have recently reported that the degree of hypercalcemia as an adverse effect induced by a single large-dose of active vitamin D3 varied with its dosing time without alteration in therapeutic effect for secondary hyperparathyroidism in patients with chronic renal failure. The present study was conducted to elucidate an effect of intestinal calcium (Ca) absorption on the chronopharmacological profiles of vitamin D3. 1, 25-dihydroxy-cholecalciferol (D3, 2 microg/kg) or vehicle alone was orally administered at two different times (2 and 14 hours after lights on; HALO) to male Wistar rats (n= 10) kept in rooms with a 12 h light-dark cycle. Blood samples for serum Ca concentration were taken before and 3, 6, 9, and 12 hours after the administration. Urine was collected for 6 hours after dosing. An identical protocol was repeated using the same animals after 16 hours fasting by a cross-over fashion. Under free-fed condition, basal concentration of serum Ca was higher at a resting period (lights on) than during an active period (lights off). Serum Ca reached its peak at 6 hours after dosing in both timings, while the value was significantly higher in the 2 HALO trial than in the 14 HALO trial. Area under the serum Ca concentration-time curve from 0 to 12 hours (AUC0-12h) and urinary excretion of Ca for 6 hours were also significantly higher in the 2 HALO trial than in the 14 HALO trial. When fasted, basal Ca concentration was reduced compared with the free-fed condition, while the daily variation was maintained. Serum Ca concentration profiles from 3 to 12 hours after dosing were not significantly different between the 2 HALO and 14 HALO trials. The AUC0-12h of serum Ca or its urinary excretion was not different between both trials. Serum concentrations of parathyroid hormone and total protein, measured before and 6 hours after the dosing were not affected by the dosing schedule. We have concluded that intestinal Ca absorption is a major factor for the chronopharmacological phenomenon of D3-induced hypercalcemia in intact rats, while intestinal and renal involvement may be relatively small in the mechanism of the intrinsic diurnal variation of serum Ca.     

Chronopharmacological study of furosemide; (VIII) influence of feeding restriction

We have previously reported that a time-dependent variation is observed in the diuretic effect of furosemide and the light-dark cycle is a potent zeitgeber for this chronopharmacological phenomenon of the agent in rats. The present study was undertaken to examine whether a time of food intake is another zeitgeber for this event. In study I, rats were maintained with free access to food for 3 weeks. Furosemide (30 mg/kg) was given orally at 12 am or 12 pm. Urine was collected for 8 hours after the agent and urinary excretion of sodium and furosemide were determined. Thereafter, these rats were maintained under a daytime-restricted feeding schedule (9 am-11 am) for 3 weeks (study II) and a night-time-restricted feeding schedule (9 pm-11 pm) for 3 weeks (study III). The identical protocol of study I was repeated at the end of study II and III. Diuretic effect of furosemide and its urinary excretion were significantly greater at 12 am than at 12 pm in study I and III. However such an administration time-dependent change in the effect of furosemide and its urinary amount disappeared in study II. These data indicate that a time of food intake is another potent zeitgeber for the time-dependent variation in the diuretic effect of furosemide.     

Decrease in the Time-Dependent Difference in Urinary Excretion of Furosemide with Age

The influence of age on the time-dependent difference in urinary excretion of furosemide, a loop diuretic agent, was examined in this longitudinal study. Male Wistar rats were maintained under conditions of light from 07:00 to 19:00 h and dark from 19:00 to 07:00 h. Furosemide (30 mg/kg) was given orally at 12:00 h (day trial) or 00:00 h (night trial) to rats at 3 months of age, and urine was collected for 8 h after dosage. Thereafter, the identical protocol was repeated using the same animals at 6, 9, 12, 15, 18, and 21 months of age. The urinary excretion of furosemide was significantly greater in the day than in the night trial at 3 months of age. Such a time-dependent difference was observed for up to 15 months, but disappeared at 18 and 21 months of age. The time-dependent difference in urinary excretion of furosemide (day trial — night trial) decreased gradually throughout the observation period of the study. These results suggest that the time-dependent difference in the urinary excretion of furosemide diminishes during the aging process and disappears by 18 months of age in male Wistar rats.     

Urinary excretion of furosemide in rats with HgCl2-induced acute renal damage.

To examine the influence of mercuric chloride (HgCl2)-induced acute renal damage on urinary excretion of furosemide, HgCl2 (1 mg/kg) or its vehicle alone was given intraperitoneally to Wistar rats. The following two experiments were done. Study I: Three percent body weight (b.w.) of 1% NaCl solution or furosemide (30 mg/kg) in 3% b.w. of 1% NaCl solution was given orally before and after HgCl2 treatment, and an 8-hour urine was collected. Study II: Furosemide (30 mg/kg) was given orally, and blood samples were obtained at 1, 2, 3, 4, 6 and 8 hours after administration. Urinary excretion of N-acetyl-beta-D-glucosaminidase increased, and urine volume and urinary excretions of furosemide and sodium decreased in the HgCl2-treated rats. There were significant correlations between the urinary furosemide and its diuretic effects. Regression lines after HgCl2 were significantly different from those before treatment. The values of absorption as well as elimination rate constant were smaller, while the time to maximum concentration and the elimination half-life were longer in the HgCl2-treated rats compared to vehicle-treated animals. These results suggest that the urinary excretion of furosemide and the responsiveness of renal tubular cells to this agent are impaired in rats with HgCl2-induced acute renal damage.     

Role of the renal kallikrein-kinin system in the development of salt-sensitive hypertension

The role of the renal kallikrein-kinin system in the development of salt-sensitive hypertension was studied using mutant kininogen-deficient Brown-Norway Katholiek (BN-Ka) rats, which generate no kinin in their urine, and other hypertensive rat models. It was found that ingestion of a low sodium diet or infusion of NaCl in doses slightly above 0.15 M caused hypertension and sodium accumulation in erythrocytes and the cerebrospinal fluid of kininogen-deficient BN-Ka rats. Development of hypertension in the deoxycorticosterone-acetate-salt model was completely prevented by administration of a newly discovered inhibitor, ebelactone B, of carboxypeptidase Y-like exopeptidase (an urinary kininase). The urinary kallikrein excretion of spontaneously hypertensive rats was lower than that of Wistar Kyoto rats at 4 weeks of age and did not increase by administration of furosemide, a diuretic agent, although approximately 50% of the diuretic action of this agent was dependent upon the renal kallikrein-kinin system in normal rats. In conclusion, the renal kallikrein-kinin system works as a safety valve for excess sodium intake.     

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.     

Time of day improves efficacy and reduces adverse reactions of vitamin D3 in 5/6 nephrectomized rat

Time-dependent differences in adverse reactions and efficacy by a repeated administration of 1,25(OH)2 vitamin D3 (vit D, 0.3 microg/Kg/day for 12 weeks) were examined in 5/6 nephrectomized rats under a condition of 12-hour light-dark cycle. The 5/6 nephrectomy increased serum concentrations of phosphate, osteocalcin and PTH, and urinary excretions of phosphate and deoxypyridinoline (DPD) while the maneuver reduced serum Ca concentration and its urinary excretion. Animals with a dosing of the drug at 2 hours after light on (HALO) had more grade of hypercalcemia and hyperphosphatemia than those at 14 HALO. Reduction of serum intact PTH and increase of serum vit D were observed in both groups with a similar extent. Increase of osteocalcin by the drug was greater in 14 HALO trial. Urinary excretion of DPD was not influenced by the treatment. The increase in bone density of femur was greater in 14 HALO than in 2 HALO trials. These results suggest that adverse reactions of vit D were ameliorated and its efficacy was enhanced after the repeated dosing of the drug at 14 HALO. Time-dependent variation in the sensitivity of the drug to osteoblast was involved in the mechanism of these events, while the roles of pharmacokinetic alteration and renal response were small, if any.     

Natriuretic and diuretic action of centrally administered rat atrial natriuretic peptide (99-126): possible involvement of aldosterone and the sympathoadrenal system

Intracerebroventricular (ICV) administration of rat atrial natriuretic peptide (99-126) (rANP) to conscious male hydrated rats resulted in a dose-related increase in urinary volume and sodium excretion over a 6-h period of urine collection. A diminished mineralocorticoid effect on the kidneys may explain the natriuretic phenomenon. This hypothesis was tested by ICV rANP injection (1.25 microgram/5 microL) in conscious hydrated rats pretreated beforehand with d-aldosterone (20 micrograms/kg, ip). Although the absolute amount of sodium excreted was reduced, aldosterone did not affect rANP-induced sodium output at 1 and 3 h. Rats that were sham-operated or bilaterally adrenalectomized after 4 days were pretreated with aldosterone and given an oral water load followed by ICV rANP or saline. The possible participation of the peripheral sympathetic nervous system in the central action of rANP was evaluated in rats pretreated with 6-hydroxydopamine. In sympathectomized and adrenalectomized rats natriuresis and diuresis were still evident after rANP. Our results indicate that the natriuretic effect of ICV rANP is independent of mineralocorticoids. Likewise, diuresis and natriuresis can occur in the absence of the adrenal glands and are independent from the neural tone that the adrenergic system exerts on sodium reabsorption.     

Antihypertensive and bilateral renal responses to diuretics in 2-kidney, 1-clip Goldblatt hypertensive rats

Experiments were conducted to assess the effect of furosemide or amiloride alone and a combination of both agents on each kidney in anesthetized 2-kidney, 1 clip Goldblatt hypertensive rats (n = 25). Intravenous infusion of furosemide alone (1.02 mg/kg.hr) significantly reduced the blood pressure by 14 +/- 5 mmHg. There were 6- to 10-fold increases in water, absolute sodium and fractional sodium excretions and a 2-fold increase in potassium excretion in the nonclipped kidney. A smaller but significant increase in the excretory function was also observed in the clipped kidney. There was no significant change in GFR of both kidneys. Indomethacin pretreatment (2 mg/kg) failed to significantly alter the vasodepressor and renal responses to furosemide in both hypertensive and normal rats. Removal of the renal artery clip from the hypertensive rats reduced the blood pressure by 12 +/- 3 mmHg and enhanced the function of the ipsilateral, unclipped kidney. Subsequent administration of furosemide further increased the excretory response. Administration of amiloride alone (2.4 mg/kg.hr) or with furosemide into hypertensive rats reduced the arterial pressure and increased excretion rates of urine flow and urinary sodium. Potassium excretion rate decreased bilaterally in amiloride treated rats but did not alter significantly in rats which received a combination of amiloride and furosemide. These results indicate that diuretics ameliorate the excretory function of both the stenotic kidney and the nonstenotic kidney and that the improvement of the kidney function is independent of prostaglandin. Furthermore, removal of the stenosis accentuates the beneficial effect of diuretics on the kidney.     

Dosing time-dependent nephrotoxicity of cyclosporin A during 21-day administration to Wistar rats

The incidence of cyclosporine A (CsA) nephrotoxicity with reference to the temporal stage of administration was studied during a chronic 21-day treatment in male Wistar rats. Oral administration (20 mg/kg/day) was given at four different times: 1, 7, 13, or 19 hours after light onset (HALO). Plasma creatinine and blood urea nitrogen (BUN) levels were determined at regular intervals over the 24 h: before treatment (day 0); 7, 14, and 21 days after the beginning of treatment (days 7, 14, and 21); and 7 and 14 days after CsA withdrawal (days 28 and 35). At the same times, creatinine clearance and g-glutamyl transferase urinary excretion were determined in the groups of animals treated at 7 and 19 HALO. Residual concentrations of CsA in the renal tissue were measured at the end of the treatment period (day 21) in all groups. Nephrotoxicity of CsA was dependent on the temporal stage of administration. The renal vasoconstriction showed by the increase in plasma creatinine and BUN levels and the decrease in creatinine clearance was maximal when the CsA was given at 7 and 19 HALO and was correlated to the tissue concentrations of CsA. Tubular injury seems to occur earlier and the return to normal function less rapidly in animals treated at 19 HALO compared with animals treated at 7 HALO.     

The significance of duration of salt loading on cardiovascular response and urinary excretion of catecholamine in rats

To analyze the conflicting data on the relationship between sodium intake and catecholamine release, the effect of the duration of high sodium loading on cardiovascular response and catecholamine release was examined in conscious rats. Urinary excretions of norepinephrine (NE), and dopamine (DA) were measured frequently over a 4 week period. Male Wistar rats at 4 weeks of age were given a diet containing either basal (0.3%) or high (3.1%) sodium content. Systolic blood pressure was measured weekly by the tail cuff method. Twenty-four hour urine collections were made for analysis of catecholamines in metabolic cages every other day during the initial 2 weeks and once a week in the following 2 weeks of salt loading. High sodium intake resulted in a rise in blood pressure and a reduction in heart rate. Bradycardia was significant during the initial 2 weeks and not significant during the following 2 weeks after the initiation of salt loading. Urinary excretion of NE did not change during the initial 2 weeks of salt loading but increased significantly following the 2 week period after salt loading. Urinary excretion of DA increased diphasically, showing the first peak at 1 week after salt loading and the second peak at 4 weeks after the initiation of salt loading. These results suggest that the heart rate and urinary excretion of catecholamine are influenced by the duration of salt loading. When we estimate the effect of salt loading on cardiovascular response and urinary excretion of catecholamine, we should draw attention to the importance of the duration of salt loading, because this duration of time further elicites delayed response in the sympathetic nervous system.     

Chronopharmacology of oxacalcitriol in 5/6 nephrectomized rats

We previously reported on the merits of the chronopharmacological effects of 1,25(OH) 2 vitaminD3 in 5/6 nephrectomized rats (Tsuruoka et al, Life Scineces 2002; 71: 1809-1820). In this study, the chronopharmacological effect of 22-oxacalcitriol (OCT), a newly developed active vitaminD3 analogue with less calcemic activity, was evaluated by a single and repeated dosing of the drug. The 5/6 nephrectomized animals were kept in rooms with a 12-h light/dark cycle. Single (12.5 microg/kg, i.v.) and repeated (5 microg/kg, i.v. three times a week for 12 weeks) dosing of OCT or vehicle was given at either 2 hours after lights on (2HALO) or 14 hours after lights on (14HALO). The severity of hypercalcemia and hyperphosphatemia was significantly milder when the drug was given at 14HALO. Serum concentrations of total OCT and albumin of the 2HALO and 14HALO trials did not differ significantly. The decrease of parathyroid hormone concentration was greater in the 14HALO trial while the increase in urinary ratio of Ca to creatinine was greater in the 2HALO trial. The suppression of urinary deoxypyridinoline excretion, an index of bone resorption capacity of osteoclast, and the increase in bone density of both femurs were greater in the 14HALO trial. These results suggest that the adverse reactions of OCT were ameliorated and its efficacy was enhanced after dosing of the drug at 14HALO. Chronopharmacological differences of OCT were more prominent than those seen with other vitamin D analogues. Dosing-time-dependent variation in the sensitivity of the drug to osteoclast were involved in the mechanisms of these events.