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Stereoselectivity in the metabolism of 3H-noradrenaline during uptake into and efflux from the isolated rat vas deferens (1977)

Graefe, K. -H. ; Stefano, F. J. E. ; Langer, S. Z.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 299 (1977), S. 225-238

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ISSN: 1432-1912

Keywords: Stereoselective metabolism of noradrenaline ; Neuronal efflux ; Cocaine ; Phenoxybenzamine ; Rat vas deferens

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. The metabolism of 3H-(-)- and 3H-(±)-noradrenaline (NA) was studied in the isolated rat vas deferens either under conditions of uptake or of efflux of the amine. Any differences obtained between 3H-(-)-and 3H-(±)NA as substrate were interpreted as being a reflection of differences between the two isomers of the amine. 2. Uptake experiments (0.13 μM; 7.5 min) showed that neuronal mechanisms of amine disposition prevail over extraneuronal ones. Thus, most of the metabolites of 3H-NA formed during incubation with the amine (including the O-methylated products) were of neuronal origin. The acid deaminated metabolite 3,4-dihydroxymandelic acid (DOMA), tended to be much better retained by the tissue than the neutral deaminated metabolite, 3,4-dihydroxyphenylethyleneglycol (DOPEG). While neuronal uptake exhibited no stereoselectivity, a pronounced stereoselectivity was found for monoamine oxidase (MAO) [(-)NA〉 (+)NA] as well as for the enzymes which are in series with MAO, namely, aldehyde reductase and aldehyde dehydrogenase [(-)DOPEG〉 (+)DOPEG; (-)DOMA 〈(+)DOMA]. 3. After about 2 h of washout, the efflux of radioactivity from the tissue [which was previously incubated for 30 min with 1.2 μM of either 3H-(-)- or 3H-(±)NA] originated from one neuronal compartment with no stereoselectivity of the rate constant for the efflux of total tritium. The rate-limiting step for the neuronal efflux of tritium resided either in the net efflux of amine from the storage vesicles (normal tissues) or in the net efflux across the axonal membrane (tissues with the amine metabolizing enzymes inhibited). The effects of cocaine and phenoxybenzamine on the neuronal efflux of tritiated compounds strongly depended on the intraneuronal distribution of the 3H-amine. The results indicate that cocaine has only one site of action (neuronal uptake), while phenoxybenzamine exerts reserpine-like as well as cocaine-like effects. 4. The neuronal efflux of tritium from normal tissues preloaded with 3H-(-)- or 3H-(±)NA consisted mainly of amine metabolites (90% of the total; most of this was DOPEG). Since after 2 h of washout the tissue contained hardly any metabolites, these metabolites did not represent pre-formed metabolites (formed during the period of preloading) but newly formed metabolites resulting from the catabolism of the neuronally stored amine. This catabolism was brought about through the activity of presynaptic enzymes and was stereoselective in that more DOPEG, less DOMA and less O-methylated metabolites were formed from (-)-than from (+)NA.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00500315

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Choline+: A substrate of the neuronal noradrenaline carrier in the rat vas deferens (1986)

Ungell, Anna-Lena ; Bönisch, H. ; Graefe, K.-H.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 334 (1986), S. 223-227

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ISSN: 1432-1912

Keywords: Neuronal noradrenaline carrier ; Choline+ ; Accelerative exchange diffusion ; Substitution for Na+ ; Rat vas deferens

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. The effects of choline+ (10–40 mmol/l) on 3H-noradrenaline uptake by, and 3H-noradrenaline efflux from, noradrenergic neurones were studied in vasa deferentia of reserpine-pretreated rats at an external Na+ concentration of 100 mmol/l. Monoamine oxidase and catechol-O-methyltransferase were inhibited. 2. Choline+ (20 and 40 mmol/l) competitively inhibited the neuronal uptake of 3H-noradrenaline. From the choline+-induced changes in the apparent Km for 3H-noradrenaline transport, a Ki of 35 mmol/l was obtained. 3. Choline+ (10, 20 and 40 mmol/l) accelerated the neuronal efflux of 3H-noradrenaline in a concentration-dependent manner. This acceleration of efflux was greatly reduced in the presence of 1 μmol/l desipramine, indicating that choline+ is capable of eliciting “accelerative exchange diffusion”. 4. Choline+ (40 mmol/l) and (−)noradrenaline (4.5 μmol/l) (i.e., concentrations about equivalent to the Ki and Km for choline+ and (−)noradrenaline, respectively) produced virtually identical increases in the neuronal efflux of 3H-noradrenaline. 5. Choline+ (3–300 mmol/l) inhibited the specific binding of 3H-desipramine to plasma membranes derived from cultured rat phaeochromocytoma (PC-12) cells. The Ki for this interaction was 48 mmol/l. 6. This results suggest that choline+ acts as alternative substrate of the neuronal noradrenaline transport system and should, therefore, not be used in transport studies with noradrenaline as substitute for Na+ in Na+-deficient media.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00508775

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Failure of K+ to affect the potency of inhibitors of the neuronal noradrenaline carrier in the rat vas deferens (1987)

Ungell, Anna-Lena ; Graefe, K. H.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 335 (1987), S. 250-254

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ISSN: 1432-1912

Keywords: High K+ ; Neuronal uptake ; Inhibition of neuronal uptake ; Potencies of uptake inhibitors ; Rat vas deferens

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. To examine whether K+ affects the potency of inhibitors of neuronal uptake, experiments were carried out in the rat vas deferens after pretreatment of the animals with reserpine and after inhibition of monoamine oxidase and catechol-O-methyltransferase. Initial rates of the neuronal uptake of 3H-noradrenaline and IC50 values for uptake inhibition by desipramine, cocaine and (−)metaraminol were determined in the presence of various concentrations of external K+ (5–45 mmol/l), both at 100 mmol/l Na+ and 50 mmol/l Na+. 2. When measured at the 3H-noradrenaline concentration used to determine IC50 values (0.024 μmol/l), neuronal uptake was progressively impaired by increasing K+ concentrations at 50, but not at 100 mmol/l Na+. 3. Neither at 100 mmol/l Na+ nor at 50 mmol/l Na+ was there any consistent, concentration-dependent effect of K+ on the IC50 values of desipramine, cocaine and (−)metaraminol. 4. The analysis of the saturation kinetics of 3H-noradrenaline uptake (determined in the presence of 50 mmol/l Na+ at 5 mmol/l K+ or 45 mmol/l K+) showed that high K+ concentrations inhibit neuronal uptake by decreasing V max without any change in K max. 5. The results indicate that K+ does not competitively interact with Na+ at sites on the noradrenaline carrier which mediate the tansport-stimulating properties of Na+ Hence, the inhibition of neuronal uptake produced by high K+ concentrations is probably due to membrane depolarization which simply reduces V max.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00172792

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The heterogeneity of the neuronal distribution of exogenous noradrenaline in the rat vas deferens (1990)

Schömig, E. ; Schönfeld, C.-L. ; Halbrügge, T. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 342 (1990), S. 160-170

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ISSN: 1432-1912

Keywords: Rat vas deferens ; Heterogeneous labelling ; 3H-noradrenaline ; Desipramine ; Inhibition of vesicular uptake

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary After loading of the incubated rat vas deferens with 0.2 μmol/l 3H-noradrenaline (followed by 100 min of wash-out with amine-free solution), the efflux of endogenous and exogenous compounds was determined by HPLC with electrochemical detection and by column chromatography with scintillation counting. Two different types of heterogeneity of labelling were found. The first one is due to the preferential labelling of varicosities close to the surface of the tissue, the second one to the preferential labelling of vesicles close to the surface of loaded varicosities. As diffusion distances within the tissue and within varicosities are then longer for endogenous than for exogenous amine and metabolites, the composition of spontaneous efflux of exogenous compounds differed from that for endogenous compounds. Because of preferential neuronal and vesicular re-uptake of endogenous noradrenaline, the percentage contribution by noradrenaline to overall efflux was: endogenous 〈 exogenous. While 3H-DOPEG was the predominant exogenous metabolite, DOPEG and MOPEG equally contributed to the “endogenous” efflux. Desipramine abolished the consequences of the first heterogeneity of labelling, i.e., it increased the efflux more for endogenous than for exogenous noradrenaline; moreover it decreased the efflux of 3H-DOPEG, but increased that of 3H-MOPEG. The reserpine-like compound Ro 41284, on the other hand, abolished the consequences of the second type of heterogeneity; it reduced the specific activity of “total efflux” (i.e., of the sum of noradrenaline + DOPEG + MOPEG) to the specific activity of the tissue noradrenaline. The degree of heterogeneity of labelling was reduced after inhibition of monoamine oxidase and also when the tissues were loaded with 2 or 20 μmol/l 3H-noradrenaline. It is proposed that the various “compartments” and “pools” of noradrenaline described in the literature reflect the two heterogeneities described here.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00166959

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The inhibitory effect of some monovalent cations on the stimulation by Na+ of the neuronal uptake of noradrenaline (1979)

Keller, B. ; Graefe, K.-H.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 309 (1979), S. 89-97

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ISSN: 1432-1912

Keywords: Neuronal noradrenaline uptake ; Na+-dependent noradrenaline transport ; Effect of monovalent cations ; Rat vas deferens

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Vasa deferentia obtained from reserpine-pretreated rats were incubated (after inhibition of both monoamine oxidase and catechol O-methyltransferase) in media containing 1.1 μmol·l−1 3H-(−)noradrenaline and various concentrations of Na+ (0–140 mmol·l−1; isosmolality maintained by sucrose or by several monovalent cations). Initial rates of neuronal uptake were determined in each single vas from the difference between “total” and “cocaine-resistant” uptake of 3H-noradrenaline. 2. The “cocaine-resistant” uptake (i.e., the distribution of 3H-noradrenaline observed in the presence of 100 μmol·l−1 cocaine) was considered to be nonneuronal. It was entirely independent of both the external Na+ concentration and the substance used to replace Na+ (or NaCl) in the medium. 3. The neuronal uptake of 3H-noradrenaline was virtually absent in Na+-free medium and was progressively stimulated by increasing Na+ concentrations. The stimulation of uptake by low Na+ concentrations was most pronounced when Tris+ was used to replace Na+; i.e., all other substitutes tested here (including sucrose, Li+, choline+ and K+) inhibited neuronal uptake when compared with Tris+. 4. While the Na+-dependent stimulation of neuronal uptake followed Michaelis-Menten kinetics in Tris+- or Li+-containing media, the kinetics of uptake stimulation by Na+ were rather complex in media containing choline+ or K+ as the substitute cation. 5. Li+ and K+ acted as competitive inhibitors with respect to Na+, whereas the inhibition of neuronal uptake by choline+ was the more pronounced, the higher the concentration of external Na+. 6. At concentrations higher than 25 mmol·l−1, the impairment of neuronal uptake by K+ exceeded that predictable from competitive inhibition of the action of Na+. This was due to the fact that high external K+ concentrations decelerated net uptake very early in the time course of amine accumulation, so that initial rates of uptake are likely to be underestimated under these conditions. 7. Thus, apart from maintaining isosmolality, several substances used to replace Na+ in the medium have inhibitory effects which must be considered in experiments designed to examine the role of Na+ in membrane transport of noradrenaline.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00501215

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Kinetic analysis of the interaction between noradrenaline and Na+ in neuronal uptake: Kinetic evidence for CO-transport (1979)

Sammet, S. ; Graefe, K.-H.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 309 (1979), S. 99-107

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ISSN: 1432-1912

Keywords: Neuronal uptake ; Noradrenaline ; Effects of Na+ ; Na+-coupled membrane transport ; Rat vas deferens

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Vasa deferentia obtained from reserpine-pretreated rats were incubated (under conditions of inhibition of both monoamine oxidase and catechol O-methyltransferase) in medium containing various concentrations of 3H-(−)noradrenaline (1.25–30.25 μmol·l−1) and Na+ (0–143 mmol·l−1; isosmolality maintained by Tris+). Initial rates of neuronal uptake (v i ) were determined in each single vas from the difference between the uptake of noradrenaline occurring in the absence and that occurring in the presence of 100 μmol·l−1 cocaine. 2. The uptake of noradrenaline observed after exposure to cocaine was virtually identical with that observed after incubation in Na+-free medium (containing or not containing cocaine). Under these experimental conditions, 70% of the uptake was due to extracellular distribution of the amine, and not only this part of uptake, but also the remaineder was linearly related to the noradrenaline concentration in the medium. 3. The neuronal uptake of noradrenaline showed saturation with increasing concentrations of noradrenaline or Na+. When determined at several fixed concentrations of Na+ (or noradrenaline), the plots of 1/v i vs. 1/[noradrenaline] (or 1/[Na+]) were all linear and intersected at a common point to the left of the ordinate and above the abscissa. Increases in the fixed concentration of Na+ (or noradrenaline) progressively increased the apparent V max and progressively decreased the apparent K m of the system for noradrenaline (or Na+). Moreover, the vertical intercept (1/apparent V max) and the slope (apparent ratio of K m /V max) of the Lineweaver-Burk plots were linearly related to the reciprocal of the concentration of the “fixed” substrate. 4. Thus, the neuronal uptake mechanism exhibits the kinetic properties of a two-substrate sequential reaction in which both noradrenaline and Na+ (1:1) must bind to the carrier for transport of noradrenaline to occur and in which noradrenaline and Na+ act as mutually cooperative co-substrates.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00501216

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The effect of (±)-dobutamine on adrenergic nerve endings (1989)

Fischer, P. ; Burger, A. ; Graefe, K. H. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 339 (1989), S. 79-84

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ISSN: 1432-1912

Keywords: Chromaffin granule ghosts ; PC-12 cells ; Rat vas deferens ; Dobutamine ; Uptake1

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Possible effects of (±)-dobutamine on adrenergic nerve endings were determined in experiments with ghosts of bovine chromaffin granules, with rat phaeochromocytoma (PC-12) cells and with the rat vas deferens. Dobutamine inhibited the vesicular uptake of a mixture of 70% adrenaline + 30% 3H-noradrenaline into ghosts, with an IC50 of 1.7 μmol/l. Dobutamine inhibited uptake, of 3H-noradrenaline in PC-12 cells (with an IC50 of 0.38 μmol/l) without being a substrate. However, dobutamine easily entered PC-12 cells by diffusion. After inhibition of MAO, COMT and vesicular uptake dobutamine (15 and 45 μmol/l) released tritium from rat vasa deferentia preloaded with 3H-noradrenaline. Equi-inhibitory concentrations of dobutamine and desipramine (against uptake1) were equireleasing. On the other hand, when MAO and vesicular uptake were intact, dobutamine (15 μmol/l) increased the efflux of tritium from preloaded vasa deferentia much more than did an equi-inhibitory concentration of desipramine. Most of the released tritium was then 3H-DOPEG. Dobutamine is a potent inhibitor of uptake1 as well as of vesicular uptake; moreover, it easily diffuses into adrenergic nerve endings. Hence, it blocks the neuronal and the vesicular re-uptake of noradrenaline; consequently, when MAO and vesicular uptake are intact, dobutamine increases the net leakage of noradrenaline from the storage vesicles, thereby leading to an efflux of deaminated metabolites. However, dobutamine is virtually unable to release noradrenaline into the extracellular space.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00165130

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Tetrodotoxin-sensitive and-resistant effects of veratridine on the noradrenergic neurone of the rat vas deferens (1983)

Bönisch, H. ; Graefe, K. -H. ; Keller, B.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 324 (1983), S. 264-270

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ISSN: 1432-1912

Keywords: Veratridine ; Exocytotic release ; Neuronal efflux ; “Reserpine-like” effects ; Rat vas deferens

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1) The veratridine-induced release of 3H-noradrenaline from noradrenergic neurones was examined in the isolated vas deferens of either untreated or reserpine plus pargyline-pretreated rats. The rat vas deferens, whose catechol O-methyltransferase was inhibited, was first incubated with 0.4 μmol/l 3H-(−)noradrenaline (30 min) and then washed repeatedly with amine-free solution. After 120 min (i.e., well after the efflux of tritium from the tissue had reached a steady level and was predominantly of neuronal origin), washout was continued in the presence of veratridine for further 10–15 min. 2) In vasa deferentia of untreated rats, variatridine (1–100 μmol/l) caused a concentration-dependent increase in the efflux of tritium. At high concentrations of the drug (30 or 100 μmol/l), this increase in efflux was peak-like during the first 3 min (“peak response”) and then fell to a plateau (“plateau response”). In the presence of veratridine, unchanged 3H-noradrenaline accounted for about 75% of the tritium efflux (the rest being represented by deaminated 3H-catechol metabolites). 3) The “peak response” to veratridine (100 μmol/l) was abolished by tetrodotoxin (TTX; 1 μmol/l) or the absence of external Ca2+. Cocaine (10 μmol/l) affected neither the “peak response” as such nor the contribution by 3H-noradrenaline to the efflux of tritium during that response. Hence, the “peak response” was due to exocytotic release of 3H-noradrenaline from the neurone. 4) The “plateau response” to veratridine (100 μmol/l) was unaffected by the absence of external Ca2+, largely resistant to TTX (1 μmol/l) and moderately reduced by cocaine. However, both TTX and cocaine drastically changed the composition of the radioactivity during the “plateau response”: they greatly reduced or even abolished the efflux of unchanged 3H-noradrenaline and markedly increased the efflux of deaminated 3H-metabolites. Hence, the “plateau response” represented a “reserpine-like” vesicular effect of varatridine; the ensuing 3H-noradrenaline efflux out of the neurone was mediated by the neuronal amine carrier. 5) After pretreatment with reserpine (to inhibit vesicular uptake) and pargyline (to inhibit monoamine oxidase), veratridine (100 μmol/l) elicited a phasic, peak-like increase in the efflux of tritium (about 90% of which was unchanged 3H-noradrenaline). This response to veratridine was abolished by TTX (1 μmol/l) and unaffected by the absence of external Ca2+; moreover, it was greatly reduced by either cocaine (10 μmol/l) or desipramine (1 μmol/l) and, hence brought about by carrier-mediated outward transport across the axonal membrane. 6) It is concluded that, in addition to its well-known action on the fast sodium channel, veratridine somehow increases the leakage of noradrenaline from storage vesicles; this “reserpine-like” effect of veratridine is resistant to TTX and therefore not a consequence of the drug-induced changes in the sodium permeability of the axolemma.

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URL: http://dx.doi.org/10.1007/BF00502621

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