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The rate constants for the efflux of deaminated metabolites of 3H-dopamine from the perfused rat heart (1980)

Bönisch, H.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 314 (1980), S. 231-235

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ISSN: 1432-1912

Keywords: Rat heart ; 3H-Dopamine ; Neuronal uptake ; Extraneuronal uptake ; Rate constants for efflux ; Dopamine metabolites

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Hearts of rats pretreated with reserpine and FLA 63 were perfused for 30 min with 1 μmol/l 3H-dopamine and in the presence of an inhibitor of either neuronal (30 μmol/l cocaine) or extraneuronal uptake (87 μmol/l corticosterone). From the rate at which the deaminated metabolites appeared in the venous perfusate and from the tissue content of the metabolites at the end of the perfusion rate constants for efflux (k-values) were determined. The k-values for the deaminated metabolites of dopamine did not differe when the deamination of dopamine was restricted to either extraneuronal or neuronal sites. However, marked differences existed between the rate constant for efflux of the deaminated acid DOPAC (dihydroxyphenylacetic acid) and the glycol DOPET (dihydroxyphenylethanol). The relationship between the apparent lipophilicity and the rate constant for efflux of DOPAC fitted very well with that reported for other metabolites of catecholamines.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00498544

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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.

Type of Medium: Electronic Resource

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

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Autoradiographic study of rat hearts perfused with3H-isoprenaline (1983)

Azevedo, Isabel ; Bönisch, H. ; Osswald, W. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 322 (1983), S. 1-5

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ISSN: 1432-1912

Keywords: 3H-isoprenaline ; Extraneuronal distribution compartments ; Perfused rat heart ; Extraneuronal uptake ; Autoradiography

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Bönisch et al. (1974) identified kinetically two extraneuronal compartments into which3H-isoprenaline distributes in the perfused rat heart: compartment III (characterized by a half time for the efflux of3H-isoprenaline of about 10 min) had about the same size as compartment IV (half time for efflux: 23 min). These authors suggested that compartment III might be located in the vascular smooth muscle, while compartment IV might be located in myocardial cells. The present study was carried out to validate or refute this suggestion. Rat hearts were perfused for 4, 20 or 60 min with 1 μmol/l3H-isoprenaline; additional hearts were perfused with 1 μmol/l3H-isoprenaline for 30 min in the presence of either 20 μmol/l corticosterone or 20 μmol/l corticosterone plus 30 μmol/l cocaine. COMT was inhibited in all experiments (by the presence of 100 μmol/l U-0521). Quantitative autoradiography revealed in all groups that the silver grain density (grains/mm2) was greater over small blood vessels (arterioles and venules) than over myocardial cells. However, total silver grains over myocardial cells greatly exceeded those over small blood vessels (by a factor of 6 to 9). Thus, the suggestion of Bönisch et al. (1974) is untenable. Autoradiographic results obtained with small specimens of ventricular muscle are representative of the whole heart, since “silver grains over total tissue” (per mm2) were highly significantly correlated with the3H-isoprenaline content of the homogenized hearts (in pmol/g). While corticosterone reduced the accumulation of3H-isoprenaline in myocardial cells, it failed to affect the appearance of silver grains over Purkinje cells. However, cocaine prevented this type of accumulation. Thus, uptake in Purkinje cells appears to resemble neuronal rather than extraneuronal uptake.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00649345

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Uptake of 14C-tyramine and release of extravesicular 3H-noradrenaline in isolated perfused rabbit hearts (1983)

Bönisch, H. ; Rodrigues-Pereira, E.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 323 (1983), S. 233-244

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ISSN: 1432-1912

Keywords: Uptake of tyramine ; Indirectly acting amines ; Extravesicular binding ; Neuronal efflux of noradrenaline ; Compartment analysis ; Rabbit heart

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1) In isolated perfused hearts of reserpine (R)-and pargyline (P)-pretreated rabbits (i.e. RP-hearts) initial rates of intracellular uptake of 14C-tyramine and of 3H-amphetamine were measured as described by Graefe et al. (1978). The uptake of 14C-tyramine, but not that of 3H-amphetamine was inhibited by cocaine. 2) Saturation kinetics of the intracellular uptake of 14C-tyramine revealed a non-saturable (diffusional) and a saturable (carrier-mediated) component of uptake. 3) After 30 min of perfusion with 14C-tyramine the accumulated 14C-radioactivity in RP-hearts consisted of unchanged tyramine (about 60%), octopamine (about 30%) and deaminated metabolites (about 10%). In contrast, 14C-octopamine was the main radioactive substance when the perfusion with 14C-tyramine was followed by 100 min of wash-out. 4) IC50-Values of tyramine, amphetamine, amantadine and nomifensine for inhibition of neuronal uptake of 3H-noradrenaline were determined in RPU-hearts (i.e. in RP-hearts whose COMT was inhibited by U-0521). 5) About equieffective concentrations (with respect to inhibition of 3H-noradrenaline uptake) of tyramine, amphetamine, amantadine and noradrenaline (i.e. of substrates of the neuronal amine carrier) caused a pronounced (and comparable) release of 3H-noradrenaline from RPU-hearts, whereas cocaine and nomifensine (i.e. uptake inhibitors) caused only a very small release. Low sodium caused a release comparable to that induced by substrates of the amine carrier. 6) Increasing concentrations of tyramine (0.2–24 μmol/l) caused mobilization of 3H-noradrenaline from a small “bound fraction” and partial mobilization from a large compartment which was characterized by a rate constant for efflux of about 0.014 min−1 (compartment I). The peak-value of the tyramine-induced efflux of 3H-noradrenaline exhibited saturability with increasing concentrations of tyramine. Half-maximal release was observed at a tyramine concentration which corresponded to a) the IC50-value for inhibition of uptake of 3H-noradrenaline and b) the K m of the saturable component of uptake of 14C-tyramine. 7) That part of neuronally accumulated 3H-noradrenaline (mainly in compartment I) which was not further mobilized by high concentrations of tyramine was also hardly mobilized by veratridine (in the absence of Ca2+). However, in the presence of Ca2+, veratridine as well as nicotine induced a release of this “tyramine-resistant” 3H-noradrenaline. 8) It is concluded that in RPU-hearts the distribution of 3H-noradrenaline within the partially “tyramine-resistant” compartment I and within the “bound fraction” might represent 3H-noradrenaline “trapped” within the acid interior of “reserpinized” vesicles and within a small population of intact storage vesicles, respectively. The fast release of 3H-noradrenaline (from RPU-hearts) by tyramine, noradrenaline, amphetamine and amantadine might be caused by facilitation of the outward transport of axoplasmic noradrenaline; the extend of facilitation may be directly connected to the velocity of uptake of these substrates by the amine carrier.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00497669

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The role of sodium influx mediated by nicotinic receptors as an initial event in trans-synaptic induction of tyrosine hydroxylase in adrenergic neurons (1980)

Bönisch, H. ; Otten, U. ; Thoenen, H.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 313 (1980), S. 199-203

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ISSN: 1432-1912

Keywords: 22Na influx ; Superior cervical ganglion ; Cholinomimetics ; Tyrosine hydroxylase induction

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Isolated superior cervical ganglia of the rat were incubated for 2–30 min (37°C) in Krebs' solution or tissue culture medium (BGJb) containing 22Na and then washed for 30 min in ice-cold 22Na-free Krebs' solution (to clear the extracellular space). The radioactivity remaining in the ganglia was taken as a measure of 22Na influx into the intracellular compartment of the ganglion. 2. Addition of cholinomimetics (100 μM nicotine or 100 μM carbachol) to the incubation medium led to an increase in 22Na influx. This increase reached maximal values after 10 min of incubation; it was more pronounced after incubation in Krebs' solution than in BGJb medium. 3. While chlorisondamine (3 μM) or dopamine (100 μM) greatly reduced the carbachol-induced 22Na influx, tetrodotoxin (2 μM) did not have any effect. 4. In ganglia obtained from animals treated with 6-hydroxydopamine in the early postnatal phase (resulting in an extensive destruction of peripheral sympathetic neurons) neither carbachol (100 μM) nor nicotine (100 μM) produced an increase in 22Na influx demonstrating that the intraneuronal compartment is responsible for this enhanced influx. 5. The effects of dopamine, chlorisondamine and tetrodotoxin on the carbachol-induced 22Na uptake into superior cervical ganglia are similar to their effects on carbachol-mediated induction of tyrosine hydroxylase in superior cervical ganglia kept in tissue culture (Thoenen and Otten 1977b). It is concluded that the induction of tyrosine hydroxylase via nicotinic receptors is closely linked to the enhanced sodium influx into the adrenergic neurons mediated by the same receptors.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00505734

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The transport of (+)-amphetamine by the neuronal noradrenaline carrier (1984)

Bönisch, H.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 327 (1984), S. 267-272

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ISSN: 1432-1912

Keywords: (+)-amphetamine ; Neuronal uptake ; Sympathomimetic amines

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary PC-12 cells (a clonal line of rat phaeochromocytoma cells) take up noradrenaline by a transport system which is identical with the neuronal amine transport system (“uptake1”). The uptake of 3H-noradrenaline into reserpine-pretreated PC-12 cells (monoamine oxidase inhibited) was saturable (Km=0.6±0.1 μmol/l), dependent on sodium and chloride, and competitively inhibited by (+)-amphetamine (Ki=0.18±0.04 μmol/l), cocaine (Ki=0.55±0.15 μmol/l) and desipramine (Ki=4.3±0.6 nmol/l). The uptake and accumulation of 3H (+)-amphetamine showed characteristics comparable to those of 3H-noradrenaline, since the uptake of 3H (+)-amphetamine (0.1 μmol/l) was reduced by omission of sodium or chloride from the incubation medium. The sodium-sensitive component of uptake and accumulation of 3H (+)-amphetamine was fully inhibited by cocaine and desipramine. The IC50 of desipramine for inhibition of the sodium-sensitive component of the 1-min uptake of 3H (+)-amphetamine (20 nmol/l) was about 2 nmol/l, i.e., identical with the Ki for inhibition of uptake of 3H-noradrenaline. At concentrations above 1 μmol/l, desipramine additionally caused an inhibition of the sodium-independent permeation of 3H (+)-amphetamine into PC-12 cells. Hence, by using a homogeneous population of cells endowed with “uptake1”, it is possible to demonstrate — besides a pronounced lipophilic entry — a carrier-mediated uptake of 3H (+)-amphetamine.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00506235

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The extraneuronal compartments for the distribution of isoprenaline in the rat heart (1983)

Trendelenburg, U. ; Fleig, H. ; Bryan, L. J. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 324 (1983), S. 169-179

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ISSN: 1432-1912

Keywords: Extraneuronal uptake ; 3H-Isoprenaline ; Rat heart ; Corticosterone ; Compartment analysis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The distribution of 3H-isoprenaline in the perfused rat heart was re-examined. After initial loading with 3H-isoprenaline hearts were washed out with amine-free solution; the efflux curves were subjected to the peeling technique, and half times for efflux and compartment sizes were determined. In contrast to earlier reports from this department (Bönisch et al. 1974; Bönisch 1978), 3H-isoprenaline was found to distribute mainly into one extraneuronal compartment, irrespective of whether COMT was intact or inhibited (by the presence of U-0521). It was also not influenced by pretreatment of the animals with reserpine. This type of distribution was influenced neither by the concentration of isoprenaline nor by the duration of the loading of the tissue with the amine. The one major extraneuronal distribution compartment of 3H-isoprenaline has the characteristics of the “old” compartment III: it has a relatively short half time for the efflux of 3H-isoprenaline and it has a high activity of COMT. Moreover, corticosterone inhibits the inward and outward flux of 3H-isoprenaline into and from compartment III. The K i for the inhibition by corticosterone of the efflux of 3H-isoprenaline (2 μmol/l) is very similar to the K i for impairment of uptake2 (determined by Bönisch 1978). Apart from the major distribution compartment III, two minor distribution compartments were detected: On the one hand, experiments with hearts which had an intact COMT revealed that a minor distribution compartment IV (Characterized by a long half time for efflux and by an absence of COMT activity) may exist, although its magnitude does not exceed one tenth of the former compartment IV. In addition, part of the quickly equilibrating (and rather small) compartment II was corticosterone-sensitive. When the results of Azevedo et al. (1983) are considered together with the present results, compartment III appears to represent the uptake of 3H-isoprenaline into myocardial cells, while it is likely that radioactivity accumulated in the smooth muscle of blood vessels may constitute the corticosterone-sensitive part of compartment II.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00503890

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