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Hemmung der extrarenalen Wirkung von d-Aldosteron durch Actinomycin D (1967)

Bartelheimer, H. K. ; Losert, W. ; Senft, G. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 258 (1967), S. 372-382

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ISSN: 1432-1912

Keywords: 1) d-aldosterone — enzyme synthesis and activation of cellular sodium transport, diminution of renal proximal transit time prolonged in adrenalectomized rats ; 2) actinomycin D — prevention of renal and extrarenal aldosterone action ; 1. d-Aldosteron — Enzym-Induktion und Aktivierung des cellulären Na+-Transports, Verkürzung der verlängerten proximalen tubulären Passagezeit adrenalektomierter Ratten ; 2. Actonomycin D — Verhinderung der renalen und extrarenalen Aldosteron-Wirkung

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Experiments are described in which the distribution of sodium and potassium ions between the intra- und extracellular fluid of liver has been studied in nephrectomized adrenalectomized rats and in nephrectomized adrenalectomized rats given d-aldosterone (1 μg/150 g b.w., subcutaneously, single dose). d-Aldosterone has been found to decrease intracellular sodium concentration in liver and to increase the concentration quotient $$\frac{{{\text{Na}}^{\text{ + }} _e }}{{{\text{Na}}^{\text{ + }} _i }}$$ after a delay time of 90 min. Pretreatment with actinomycin D (300 μg/150 g b.w., i.p., single dose) prevents the aldosterone induced acceleration of cellular net sodium transport as well as the aldosterone induced increase in tubular sodium transport. Our findings indicate the aldosterone dependent increase in extrarenal cellular sodium transport being mediated by an induction of enzyme proteins as has been assumed by Edelman et al. as well as by Leaf et al. for the urinary bladder of Bufo marinus and the rat kidney. The results are discussed with respect to whether the enzyme system induced by aldosterone may function by increasing the permeability of the mucosal (luminal) cell membrane for sodium and a consequent increase in the availability of sodium to be transported through the serosal (peritubular) cell membrane, or by a channelling of metabolism to provide more energy for the active transport of sodium. It is difficult to apply the “permease” theory to explain the aldosterone dependent increase in hepatic cellular sodium transport resulting in a decrease in intracellular sodium concentration. Renal proximal transit time measured with lissamin green in adrenalectomized rats has been found to diminish with chronic treatment with d-aldosterone (1 μg/300 g b.w., s.c., daily for 4 days). This finding may explain why the effect of aldosterone decreases with chronic administration of the hormone. Although tubular reabsorptive capacity remains increased shortening of the contact of tubular fluid with the epithelial cells results in a reduction of the amount of sodium ions reabsorbed by the tubules under the influence of aldosterone.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00536591

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Hemmung der Insulininkretion durch α-Receptoren stimulierende Substanzen (1968)

Senft, G. ; Sitt, R. ; Losert, W. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 260 (1968), S. 309-323

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ISSN: 1432-1912

Keywords: Insulin Secretion and its Control ; α-Receptors and Insulin Secretion ; 3′,5′-AMP and Insulin Secretion ; Diazoxide and Insulin Secretion ; 2-(2,6-Dichlorophenylamino)-2-Imidazoline Hydrochloride (DCAI) and Insulin Secretion ; Insulininkretion und ihre Steuerung ; α-Receptoren und Insulininkretion ; 3′,5′-AMP und Insulininkretion ; Diazoxid und Insulininkretion ; 2-(2,6-Dichlorphenylamino)-2-imidazolin-hydrochlorid (DCAI) und Insulininkretion

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Experiments are described in which the influence of an α-adrenergic blocking agent, phentolamine, and of two hypotensive drugs, diazoxide and 2-(2,6-dichlorophenylamino)-2-imidazoline hydrochloride (DCAI) on blood glucose, plasma insulin and glucose-stimulated insulin secretion has been measured in male Wistar rats. Blood glucose concentration has been found to be decreased and plasma insulin concentration has been found to be increased after one or two injections of 50 mg phentolamine/kg b.w., intraperitoneally. These results are in accordance with the observation that α-adrenergic stimulation inhibits and β-adrenergic stimulation promotes insulin secretion (Porte, 1967 a, 1967 b). If the α-adrenergic stimulatory effect of endogenous catecholamines is blocked by phentolamine, the remaining β-adrenergic stimulatory effect of endogenous epinephrine leads to an increase in insulin secretion. Treating rats with diazoxide (200 mg/kg b.w., i.v.) or DCAI (200 μg/kg b.w., s.c.), respectively, has been found to lead to a decrease in plasma insulin concentration as well as to an almost complete inhibition of the ability of the pancreas to secrete insulin in response to an elevation of blood glucose concentration. As these effects have been found to be abolished by pretreatment with phentolamine, the inhibition of insulin secretion caused by diazoxide and DCAI may be regarded as being mediated by α-adrenergic stimulation. Recent studies of Turtle and Kipnis (1967) have shown that α-adrenergic stimulation lowers islet 3′,5′-AMP concentration and prevents the increase in islet 3′,5′-AMP concentration which is caused by β-adrenergic stimulation. In view of these results indicating an antagonistic influence of α- and β-adrenergic stimulation on 3′,5′-AMP formation in islet tissue, the inhibitory action of diazoxide and DCAI on insulin secretion may be explained by a decrease in adenyl cyclase activity in this tissue.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00537636

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