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Chronic salt loading: Effects on plasma volume and regulation of glomerular filtration rate in Wistar rats (1982)

Häberle, D. A. ; Davis, J. M.

Springer

Journal of molecular medicine 60 (1982), S. 1245-1248

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ISSN: 1432-1440

Keywords: Chronic salt loading ; Volume expansion ; Glomerular filtration rate ; Tubuloglomerular feedback ; Humoral substances in tubular fluid ; Chronische Salzbelastung ; Volumenexpansion ; Glomeruläre Filtrationsrate ; Tubuloglomeruläre Rückkoppelung ; Humorale Substanzen in tubulärer Flüssigkeit

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung Bei normalem Extrazellulärvolumen reduziert der Harnfluß durch das macula densa Segment der Henle'schen Schleife die glomeruläre Filtrationsrate durch ein Signal aus dem juxtaglomerulären Apparat (tubuloglomerulärer Rückkopplungsmechanismus, TGF). Bei Vergrößerung des Extrazellulärvolumens wird dieser Mechanismus gehemmt, so daß die glomeruläre Filtrationsrate ansteigt. Um festzustellen, ob diese Hemmung durch Veränderungen im juxtaglomerulären Apparat oder in der Tubulusflüssigkeit verursacht wird, wurden an zwei Gruppen von Ratten, deren Extrazellulärvolumen entweder normal war oder durch kochsalzreiche Ernährung expandiert wurde, Austauschversuche mit spätproximaler Tubulusflüssigkeit durchgeführt. Die Tubulusflüssigkeit wurde mit Mikrosaug/Perfusionspumpen gesammelt. Ihre Wirkung auf den TGF wurde geschätzt, indem Henle'sche Schleifen einzelner Tubuli mit 40, 10, und 0 nl/min perfundiert wurden, während gleichzeitig der Harnfluß (EPF) in einem glomerulusnahen Segment des jeweiligen proximalen Tubulus gemessen wurde. Insalzreich ernährten Tieren war die EPF von der Schleifenperfusionsrate unabhängig, wenn die Henle'schen Schleifen mithomologer Tubulusflüssigkeit perfundiert wurden. Mit Tubulusflüssigkeit aussalzarm ernährten Tieren und einer Schleifenperfusionsrate von 40 nl/min fiel die EPF jedoch um etwa 50% gegenüber dem Kontrollwert bei nichtperfundierter Schleife ab. Insalzarm ernährten Tieren, deren Henle'sche Schleifen mithomologer Tubulusflüssigkeit und einer Rate von 40 nl/min perfundiert wurden, fiel die EPF um etwa 50% gegenüber dem Kontrollwert bei nicht perfundierter Schleife ab. Mit Tubulusflüssigkeit aussalzreich ernährten Tieren war die EPF von der Schleifenperfusionsrate unabhängig. Es wird gefolgert, daß der TGF in volumenexpandierten Tieren durch eine Substanz in der Tubulusflüssigkeit gehemmt wird.

Notes: Summary Experiments were carried out in Wistar rats to determine whether the loss of sensitivity of the tubuloglomerular feedback mechanism (TGF) which is known to occur in volume expansion is due to a change in the functional characteristics of the juxtaglomerular apparatus or to a change in some property of the tubular fluid which influences the feedback signal at the macula densa. Proximal tubular fluid was collected by means of a microperfusion/suction pump from Wistar rats maintained for a minimum of 10 days on a high salt diet and also from rats fed a control low salt diet. Both fluids were then used to perfuse loops of Henle in rats from both groups and the feedback response assessed from the change in early proximal tubular flow rate (EPF). In high salt rats, perfusion of the loop of Henle with homologous tubular fluid confirmed the loss of sensitivity of the TGF mechanism in volume expansion, the response of EPF was practically absent. In contrast, the low salt rat responded with a 50% decrease in EPF to loop perfusion at 40 nl/min with its homologous fluid. On the other hand, when the loop of Henle in high salt rats was perfused at 40 nl/min with heterologous (low salt) tubular fluid, EPF again decreased by some 50% whereas EPF in low salt rats failed to respond to loop perfusion with high salt fluid. From these results it is concluded that in rats chronically volume expanded by a high salt diet an unknown inhibitory principle occurs in the proximal tubular fluid which reduces the sensitivity of the tubuloglomerular feedback mechanism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01716731

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Resetting of tubuloglomerular feedback in acute volume expansion in rats (1988)

Davis, J. M. ; Takabatake, T. ; Kawata, T. ; [et al.]

Springer

Pflügers Archiv 411 (1988), S. 322-327

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ISSN: 1432-2013

Keywords: Tubuloglomerular feedback ; Juxtaglomerular apparatus ; Glomerular filtration rate ; Acute volume expansion

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Loss of sensitivity or “resetting” of tubuloglomerular feedback has been reported after both acute and chronic volume expansion in rats. In chronic volume expansion due to dietary salt loading, resetting was found to result from the appearance of an inhibitory factor in tubular fluid. The aim of the present study was to test the possibility that resetting after acute isooncotic volume expansion may also be due to such an inhibitor. Rats were acutely volume expanded (4.5% of body weight) by infusion of a solution of fresh plasma and Ringer's solution. Tubuloglomerular feedback activity was assessed in expanded and control animals by measuring early proximal flow (EPF) rate during perfusion of the loop of Henle at varying rates with proximal tubular fluid harvested from the control (control TF) and expanded animals (AVE TF). When loops of Henle in control animals were perfused with control TF at 10, 20 or 40 nl min−1, EPF fell from (mean ±SD) 29.8±5.6 at zero loop flow to 27.5±7.5, 21.1±4.2 and 15.5±4.5 nl min−1 gKW−1 respectively. Perfusion at the same rates with control TF in expanded animals reduced EPF from 39.5±9.6 (at zero loop flow) to 35.9±11.3, 31.6±4.3 and 22.9±6.8 nl min−1 gKW−1 respectively. When loops of Henle in control animals were perfused with AVE TF, EPF fell from 28.6±9.5 (zero loop flow) to 23.5±8.6, 19.9±8.2 and 15.6±6.5 nl min−1 gKW−1 respectively. Perfusion at these rates with AVE TF in the expanded animals depressed EPF from 36.7±7.8 (at zero loop flow) to 33.6±7.3, 28.6±7.6 and 22.7±8.0 nl min−1 gKW−1 respectively. Since the responses to the two perfusion fluids were the same in each group, it is concluded that there is no inhibitory factor present in AVE TF. Although EPF at each perfusion rate was significantly higher in the expanded animals than in control, the change in EPF per unit change in loop perfusion rate was the same in both groups from which it is concluded that no resetting of tubuloglomerular feedback occurred in the present study.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00585122

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Autoregulation of the glomerular filtration rate and the single-nephron glomerular filtration rate despite inhibition of tubuloglomerular feedback in rats chronically volume-expanded by deoxycorticosterone acetate (1990)

Häberle, D. A. ; Königbauer, B. ; Davis, J. M. ; [et al.]

Springer

Pflügers Archiv 416 (1990), S. 548-553

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ISSN: 1432-2013

Keywords: Autoregulation ; Tubuloglomerular feedback ; Renal blood flow ; Glomerular filtration rate ; Plasma renin activity ; Deoxycorticosterone acetate ; Plasma volume ; rats

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Tubuloglomerular feedback (TGF) function and autoregulation (renal blood flow RBF; glomerular filtration rate, GFR; single-nephron glomerular filtration rate, SNGFR) were examined in rats chronically treated with deoxycorticosterone acetate (DOCA) and given isotonic saline to drink. DOCA treatment depressed arterial plasma renin activity, expanded plasma volume by 25% and increased arterial blood pressure. Autoregulation of RBF and GFR was maintained in the DOCA animals above 90 mm Hg and 110 mm Hg respectively, whereby both GFR and RBF were lower than in controls. Micropuncture experiments demonstrated the absence of TGF in the DOCA animals. There was no difference between SNGFR values measured in the distal and proximal tubules, nor was there a significant response of SNGFR when loops of Henle were perfused with Ringer's solution at 20 nl/min. Loop perfusion in control rats with tubular fluid collected in DOCA rats elicited a normal TGF response, showing that TGF inhibition in the DOCA animals is due to changes in the function of the juxtaglomerular apparatus. In contrast to control rats, proximal SNGFR was perfectly autoregulated. These results suggest that TGF is not primarily responsible for autoregulation and that the vasodilatation normally resulting from acute TGF interruption is therefore compensated by some other mechanism such that RBF and GFR are lower than in controls.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00382688

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Renal and single-nephron function is comparable in thiobutabarbitone- and thiopentone-anaesthetised rats (1993)

Häberle, D. A. ; Davis, J. M. ; Kawabata, M. ; [et al.]

Springer

Pflügers Archiv 424 (1993), S. 224-230

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ISSN: 1432-2013

Keywords: Rat ; Renal function ; Micropuncture ; Blood gases ; Anaesthesia ; Thiopentone ; Thiobutabarbitone

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The thiobutabarbitone(TB, Inactin)-anaesthetised rat is an extremely widely used preparation for the study of renal function at the whole-organ and nephron levels. The recent withdrawal of TB from the market has made it essential to find an anaesthetic producing experimental conditions as similar as possible to TB to allow comparison of past and future data. Blood gas analysis, clearance and micropuncture studies were therefore performed in rats anaesthetised with TB or the related thiobarbiturate thiopentone (TP) (both 100 mg/ kg body weight) to establish whether the latter meets this requirement. Both barbiturates caused similar transient respiratory depression and acidosis. Mean values (TP versus TB) over the total 8-h observation period for glomerular filtration rate (0.94 versus 1.05 ml/min), urine flow (3.8 versus 4.4 μl/min) and K+ excretion (0.98 versus 1.18 μmol/min) were slightly lower (P〈0.05) in TP rats, whereas renal blood flow (6.26 versus 6.24 ml/min), filtration fraction (0.31 versus 0.34) and Na+ excretion (0.11 versus 0.098 μmol/min) did not differ. The single-nephron filtration rate (SNGFR) (42.1 versus 41.1 nl/min) and fractional reabsorption (42% versus 47%), both measured in the proximal tubule, did not differ, although in the TP group SNGFR rose with time (4.4%/h) whereas the fractional reabsorption did not change significantly; in the TB group SNGFR was constant but fractional reabsorption declined with time (1.5%/h). Fractional reabsorption up to the distal convoluted tubule declined with time, this was more pronounced in the TP group. SNGFR measured at this site did not differ between TP and TB (30.3 versus 30.1 nl/min) but increased with time with TP (2.7%/h). Although renal function under TP is somewhat less stable than under TB, the differences are minor and, given that the latter is also characterised by non-steady-state conditions, it is concluded that TP is a reasonable replacement for TB.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00384346

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Micropuncture studies on the renal handling of 2,4-diamino-6,7-dimethylpteridine (1979)

Häberle, D. A. ; Schiffl, H. ; Mayer, G. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 306 (1979), S. 287-293

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ISSN: 1432-1912

Keywords: 2.4-diamino-6.7-dialkylpteridine ; Diuretics ; Micropuncture ; Tubular transport ; Rat kidney

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The excretion of the diuretic substance DADMP (2.4-diamino-6.7-dimethylpteridine) and of DMP (6.7-dimethylpterin) was studied on single nephrons of the rat kidney using microperfusion and microinjection techniques. In the proximal tubule only DADMP was reabsorbed to a significant degree. Fractional reabsorption rate was independent of the load applied and the permeability constant was found to be 2.2·10−4 cm·s−1. Similar results were obtained in nephrons in which the substances, with inulin, were injected from middle proximal tubular puncture sites and recovered in the urine. DMP appeared in the urine quantitatively and simultaneously with the injected inulin. DADMP recovery, however, was only 20–30% of the injected load during the injection period and after 2 h some 70% was recovered from the urine of both kidneys. The reabsorbed fractions were independent of the loads applied, which varied between 2·10−13 mol·min−1 and 10−9 mol·min−1. A comparison of the microperfusion and the microinfusion data suggests that the reabsorption of DADMP occurs predominantly in the proximal convolution, and it appears that the differences between the renal handling of DMP and DADMP are explicable by their different lipid solubilities.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00507116

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