Your search keyword '"Walter SJ"' showing total 3 results

1. The natriuretic effect of glibenclamide: evidence for a non-luminal site of action.

Author

Bailey MA, Shirley DG, Stocking CJ, Slater JM, and Walter SJ

Subjects

Animals, Electrophoresis, Capillary, Glomerular Filtration Rate, Injections, Intravenous, Loop of Henle physiology, Male, Potassium metabolism, Potassium Channels metabolism, Rats, Rats, Sprague-Dawley, Rats, Wistar, Sodium metabolism, Glyburide pharmacology, Hypoglycemic Agents pharmacology, Loop of Henle drug effects, Natriuresis drug effects

Abstract

Inhibition of sodium reabsorption in the loop of Henle (LOH) contributes to the natriuretic effect of systemically administered glibenclamide. Although it has been suggested that the underlying mechanism involves inhibition of low-conductance potassium channels in the apical membrane of the thick ascending limb, these channels are relatively insensitive to glibenclamide ( K(i) ~200 micro M). In the present study we used capillary electrophoresis techniques to determine plasma and tubular fluid concentrations of glibenclamide in anaesthetised, glibenclamide-infused rats during maximal natriuresis. The plasma glibenclamide concentration was 158+/-29 micro M, whereas that in the tubular fluid entering the LOH was below detectable limits (10 micro M). In additional experiments, rats were infused intravenously with either glibenclamide or vehicle alone, while the LOH was perfused with a standard, glibenclamide-free solution. Loop sodium reabsorption ( J(Na)) was significantly reduced in the rats receiving the drug (vehicle: J(Na) 1.65+/-0.05 nmol/min, n=23; glibenclamide: J(Na) 1.34+/-0.07 nmol/min, n=36; P<0.01). In a further group of rats, glibenclamide was introduced directly into the LOH at a concentration known to inhibit the low-conductance potassium channel in vitro (250 micro M). However, J(Na) was unaffected. These data confirm that systemic glibenclamide inhibits sodium reabsorption in the LOH but argue strongly that it does not act from the luminal site.

Published

2002

2. Renal function in normal and potassium-depleted rats before and after preparation for micropuncture experimentation.

Author

Shirley DG, Zewde T, and Walter SJ

Subjects

Anesthesia, Animals, Blood Pressure, Glomerular Filtration Rate, Inulin urine, Kidney surgery, Lithium urine, Male, Potassium urine, Rats, Sodium urine, Thiopental analogs & derivatives, Thiopental pharmacology, Kidney metabolism, Potassium administration & dosage

Abstract

Renal function was examined in unrestrained conscious rats maintained on either a control diet or a low-potassium diet, then re-examined in the same animals after thiobutabarbital (Inactin) anaesthesia and preparation for micropuncture studies. In conscious rats, insulin clearance (CIn) was not significantly different in the two groups (control 1012 +/- 43, low-K 904 +/- 58 microliters/min per 100g body wt; mean +/- SE), but lithium clearance (CLi; used as an estimate of end-proximal fluid delivery) and fractional lithium excretion (FELi) were substantially reduced in the low-K group (CLi: 246 +/- 11 vs 126 +/- 8 microliters/min per 100g body wt, P less than 0.001; FELi: 0.245 +/- 0.009 vs 0.143 +/- 0.008, P less than 0.001). Following anaesthesia and preparation for micropuncture, there were significant reductions in urine flow rate and sodium excretion in the control group, but not in the low-K rats. Potassium excretion increased in both groups, but values in the potassium-depleted animals remained extremely low. In neither group of rats was preparation for micropuncture associated with significant changes in CIn, CLi or FELi. Thus, differences in tubular function between control and potassium-depleted rats were still apparent. The results suggest that preparation for micropuncture disturbs the function of the distal nephron, but that rates of glomerular filtration and proximal tubular reabsorption remain similar to values in conscious animals.

Published

1990

3. A comparison of micropuncture and lithium clearance methods in the assessment of renal tubular function in rats with diabetes insipidus.

Author

Shirley DG, Walter SJ, and Thomsen K

Subjects

Animals, Diabetes Insipidus genetics, Glomerular Filtration Rate, Hydrochlorothiazide pharmacology, Inulin metabolism, Male, Punctures, Rats, Rats, Brattleboro, Diabetes Insipidus physiopathology, Kidney Tubules, Proximal physiopathology, Lithium metabolism

Abstract

The lithium clearance technique has been proposed as a non-invasive method whereby fluid delivery from the pars recta and pars convoluta of proximal tubules can be measured as CLi and CIN [0.78 CLi/CIN + 0.22], respectively [12], CLi being the clearance of lithium and CIN that of inulin. In the present study, fluid delivery from proximal tubules was estimated simultaneously by micropuncture and lithium clearance techniques in anaesthetized Brattleboro rats with diabetes insipidus, under control conditions and following chronic treatment with hydrochlorothiazide. Absolute deliveries from the proximal convoluted tubules as determined by the micropuncture and lithium clearance methods were 437 and 427 microliter/min, respectively, in untreated animals and 348 and 355 microliter/min, respectively, in thiazide-treated animals. The individual results obtained by the two methods showed a high degree of correlation (r = 0.85, P less than 0.001). In untreated Brattleboro rats, proximal fluid delivery as estimated by both the micropuncture and lithium clearance techniques showed significant (P less than 0.001) correlations with urine flow rate. These results provide further evidence for the acceptance of lithium clearance as a valid estimate of proximal tubular fluid delivery.

Published

1983