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1,1'-Diisopropyl-2,4'-cyanine (disprocynium24), a potent inhibitor of the extraneuronal monoamine transport system (uptake2), was previously shown to reduce the clearance of catecholamines from plasma not only by blocking uptake2 but presumably also by blocking organic cation transport. To provide more direct evidence for the latter conclusion, the present study was carried out in anaesthetized rabbits. It aimed at determining the effect of disprocynium24 on the renal excretion of catecholamines which is known to be, at least in part, a consequence of organic cation transport in the kidney. To this end, the plasma clearance due to renal excretion (Cl(u)) of endogenous as well as infused 3H-labelled adrenaline, noradrenaline and dopamine was determined for 60-min periods of urine collection in rabbits treated either with disprocynium24 (270 nmol kg(-1) i.v. followed by i.v. infusion of 80 nmol kg(-1) min(-1)) or vehicle. Two groups of animals were studied: group I (monoamine oxidase and catechol-O-methyltransferase intact) and group II (monoamine oxidase and catechol-O-methyltransferase inhibited). A third group of animals with intact monoamine oxidase and catechol-O-methyltransferase was used to study the effect of disprocynium24 on the glomerular filtration rate (as determined by measuring the plasma clearance of inulin). In vehicle controls, Cl(u) of endogenous adrenaline, noradrenaline and dopamine was 7.2, 5.2 and 153.6 ml kg(-1) min(-1), respectively, in group I and 10.4, 7.0 and 134.3 ml kg(-1) min(-1), respectively, in group II. Similar control values of Cl(u) were obtained for infused 3H-adrenaline and 3H-noradrenaline, but not for infused 3H-dopamine; Cl(u) of 3H-dopamine (4.9 ml kg(-1) min(-1) in group I and 15.4 ml kg(-1) min(-1) in group II) was considerably smaller than Cl(u) of endogenous dopamine, indicating that most of the dopamine in urine (i.e., 98% in group I and 92% in group II) was derived from the kidneys rather than from the circulation. By contrast, only about one quarter of the noradrenaline in urine (32% in group I and 24% in group II) and none of the urinary adrenaline were of renal origin. In both groups, disprocynium24 markedly reduced the Cl(u) of endogenous catecholamines (by 72-90%) and of infused 3H-catecholamines (by 49-69%). Moreover, it preferentially inhibited the renal excretion of those components of urinary dopamine and noradrenaline which were derived from the kidney. Therefore, disprocynium24 inhibits the tubular secretion of catecholamines and, hence, organic cation transport in the kidney. This conclusion was substantiated by the observation that disprocynium24 did not alter the glomerular filtration rate.

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1,1'-Diethyl-2,2'-cyanine (decynium22) and 1,1'-diisopropyl-2,4'-cyanine (disprocynium24) are highly potent inhibitors of the extraneuronal monamine transporter. When given as i.v. bolus injections (4 mumol kg-1) to anaesthetized rabbits, both drugs elicited a transient fall in blood pressure without altering heart rate. The observed maximum fall in diastolic blood pressure was 59% after decynium22 and 43% after disprocynium24 administration. The pharmacokinetics of decynium22 and disprocynium24 were similar; they were characterized by short half-lives for elimination (8.2 and 4.5 min, respectively) and very high plasma clearances (173 and 180 ml kg-1 min-1, respectively). The mechanism underlying the blood pressure-lowering effect of decynium22 was explored in the isolated incubated rabbit aorta. Decynium22 antagonized the noradrenaline-induced contraction; the pA2 for this interaction was 7.6, and the slope of the corresponding Schild plot was unity. In a membrane preparation from rat myocardium, decynium22 as well as disprocynium24 inhibited the specific binding of [125I]-2-[beta-(4-hydroxy-3-iodophenyl)-ethylaminomethyl]- tetralone (125I-HEAT), a selective ligand to alpha 1-adrenoceptors. The Ki's were 5.3 and 240 mumol l-1 for decynium22 and disprocynium24, respectively. The type of binding inhibition by decynium22 was competitive. It is concluded that the two inhibitors of extraneuronal monoamine transport decynium22 and disprocynium24 lower blood pressure by blocking alpha 1-adrenoceptors. A comparison of their potencies in blocking extraneuronal monoamine transport and alpha 1-adrenoceptors clearly indicates that disprocynium24 is more suitable for studies designed to determine the role of extraneuronal monoamine transport in vivo. Considering its very fast elimination kinetics, disprocynium24 must be administered by constant rate-infusions in order to avoid large fluctuations of plasma levels.

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As selective inhibitors of the extraneuronal monoamine uptake system (uptake2) suitable for in-vivo studies were not available, the question of whether uptake2 plays a definite role in vivo is largely unresolved. We attempted to resolve the question by using 1,1'-diisopropyl-2,4'-cyanine iodide (disprocynium24), a novel agent that blocks uptake2 in vitro with high potency. Anaesthetized rabbits were infused with 3H-labelled noradrenaline, adrenaline and dopamine, and catecholamine plasma clearances as well as rates of spillover of endogenous catecholamines into plasma were measured before and during treatment with either disprocynium24 or vehicle. Four groups of animals were studied: group I, no further treatment: group II, monoamine oxidase (MAO) and catechol-O-methyltransferase (COMT) inhibited; group III, neuronal uptake (uptake1) inhibited; group IV, uptake1 as well as MAO and COMT inhibited. Disprocynium24 (270 nmol kg-1 i.v. followed by an i.v. infusion of 80 nmol kg-1 min-1) did not alter heart rate and mean arterial blood pressure, but increased cardiac output by 22% and decreased the total peripheral vascular resistance by 16% with no difference between groups. When compared with vehicle controls, catecholamine clearances (normalized for the cardiac output of plasma) were decreased and spillover rates increased in response to disprocynium24. Although there were statistically significant between-group differences in baseline clearances (which decreased in the order: group I > group II > group III > group IV), the drug-induced clearance reductions relative to vehicle controls were similar in groups I to IV and amounted to 29-38% for noradrenaline, 22-31% for adrenaline and 16-22% for dopamine. Hence, there was still a significant % reduction in catecholamine clearances even after the combined inhibition of MAO and COMT, and there was no increase in the % reduction of clearances after inhibition of uptake1. Noradrenaline spillover increased in response to disprocynium24 in all four groups by 1.6- to 1.9-fold, whereas a 1.5- to 2.0-fold increase in adrenaline and dopamine spillover was observed in groups II and IV only. The results indicate that disprocynium24 interferes with the removal of circulating catecholamines not only by inhibiting uptake2, but also by inhibiting related organic cation transporters. As disprocynium24 increased the spillover of endogenous catecholamines into plasma even after inhibition of MAO and COMT, organic cation transporters may also be involved in the removal of endogenous catecholamines before they enter the circulation.

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To study the effects of inhibition of catechol-O-methyltransferase (COMT) and monoamine oxidase (MAO) on the removal of circulating catecholamines, anaesthetized rabbits were infused for 120 min with 3H-labelled noradrenaline, adrenaline and dopamine. Total-body plasma clearances (Cltot) and pulmonary fractional extractions (ERp) of the infused amines and the cardiac output of plasma (CO(p)) were determined under steady-state conditions at the end of each of two consecutive 60-min treatment periods. MAO and COMT were inhibited by treatment with pargyline (40 mg/kg) and tolcapone (3 mg/kg followed by 1.5 mg/kg given every 30 min), respectively. Two groups of animals were studied. Group I involved animals treated with tolcapone throughout and given pargyline at the beginning of the second treatment period. In group II, pargyline was given at the beginning of the first, and the treatment with tolcapone was started at the beginning of the second treatment period. As previous experiments had shown that COMT inhibition alone is without any effect on Cltot of the three catecholamines considered here, the results obtained in the first treatment period of group I can be taken to reflect control results. At the end of the first treatment period, Cltot of noradrenaline, adrenaline and dopamine (expressed as a percentage of CO(p)) was 88%, 85% and 142%, respectively, in group I (COMT inhibition) and 67%, 77% and 115%, respectively, in group II (MAO inhibition; P < 0.05 for the group difference regarding Cltot of noradrenaline and dopamine). MAO inhibition on top of COMT inhibition (group I) lowered Cltot of noradrenaline, adrenaline and dopamine by 23%, 12% and 26%, respectively, and COMT inhibition on top of MAO inhibition (group II) reduced Cltot of these catecholamines by 13%, 20% and 17%, respectively. At the end of the first treatment period, the pulmonary plasma clearance (Clp = ERp x CO(p)) of noradrenaline and dopamine was 13 and 25 ml kg-1 min-1, respectively, in group I and 12 and 28 ml kg-1 min-1, respectively, in group II. Clp of adrenaline did not differ from zero in either group. Clp of noradrenaline and dopamine was reduced by 74% and 70%, respectively, when both enzymes were inhibited in group I and by 70% and 67%, respectively, when both enzymes were inhibited in group II. Hence, inhibition of either MAO or COMT alone had little, if any, effect on the removal of noradrenaline, adrenaline and dopamine on passage through the systemic and pulmonary circulation. Combined inhibition of both MAO and COMT was highly effective in reducing the pulmonary clearance of noradrenaline and dopamine, but produced only minor decreases in the total-body clearance of all three catecholamines.

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Anesthetized rabbits were simultaneously infused with [3H]norepinephrine (NE), [3H]epinephrine (Epi), [3H]dopamine (DA), and [3H]isoproterenol (Iso), and their plasma clearances and fractional extractions across the systemic (ERS), as well as pulmonary (ERP), circulation were determined before and after blockade of uptake1 by desipramine (2 mg/kg). Desipramine reduced the clearance of NE, Epi, and DA by 39, 13, and 14%, respectively, but did not affect Iso clearance. Similar results were obtained with respect to the effects of desipramine on ERS. By contrast, desipramine reduced ERP of NE and DA (which for both amines was markedly lower than ERS) by > 70%; its effect on the very low ERP of Epi was not determinable. Comparison of the desipramine-sensitive components of ERS and ERP indicated that for uptake1 NE was the preferred substrate in the systemic circulation and DA was preferred in the pulmonary circulation. In the absence and presence of desipramine, catechol-O-methyltransferase inhibition had no effect on the clearance of NE, Epi, and DA and decreased Iso clearance by 25%. Hence the contribution by uptake1 to the removal of circulating catecholamines depends on the type of amine and on whether the systemic or pulmonary circulation is considered. Moreover catechol-O-methyltransferase does not appear to contribute to the clearance of NE, Epi, and DA but plays a definite role in the removal of circulating Iso.

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Heart transplantation causes sympathetic cardiac denervation. Measurements of plasma concentrations of the main presynaptic noradrenaline metabolite, dihydroxyphenylglycol (DOPEG, the plasma pool of which is exclusively neuronal in origin), were used to examine sympathetic reinnervation of the transplanted human heart. We determined arterial and coronary-venous plasma concentrations of DOPEG in 27 heart transplant recipients (transplant age ranging from 0.5 to 5 years) and in 9 control patients. In each of the control patients the DOPEG concentration was higher in coronary venous plasma than in arterial plasma (mean arterio-venous increment: 57.3 +/- 8.7%; p < 0.001). However, in heart transplant recipients, 18 out of 27 patients showed an arteriovenous increment in plasma DOPEG (mean increment in all patients 12.6 +/- 2.0%; p < 0.05). The ratio of the coronary-venous to arterial DOPEG concentration was positively correlated with the time after transplantation (p = 0.02 for individual results and p < 0.01 for mean group results). Thus, our data provide evidence for a time-dependent partial sympathetic reinnervation of the transplanted heart.

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Heart transplantation causes total cardiac denervation. Measurements of plasma concentrations of the main presynaptic noradrenal metabolite, dihydroxyphenylglycol (DOPEG, exclusively neuronal in origin), were used to examine the possibility of sympathetic reinnervation of the transplanted human heart. We determined arterial and coronary-venous plasma concentrations of DOPEG in 15 heart transplant recipients (28-68 years of age at the time of transplantation with the transplant ageing from 0.5 to 4 years at the time of investigation) and in nine control patients (45-75 years of age). In each of the control patients the DOPEG concentration was higher in coronary venous plasma than in arterial plasma (mean arteriovenous increment: 60 +/- 10%; P < 0.001). In the heart transplant recipients nine patients showed an arteriovenous increment in plasma DOPEG. For the mean group results it was found that the ratio of the coronary-venous to arterial DOPEG concentration was positively correlated with the time after transplantation (r = 0.92; n = 5; P < 0.05). Thus, our data provide neurochemical evidence for partial sympathetic reinnervation in some of the heart transplants. Moreover, it is suggested that the time after transplantation is unlikely to be the only determinant for the occurrence and extent of sympathetic reinnervation.

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The present study, carried out in anaesthetized rabbits, aimed at determining the effects of catechol-O-methytransferase (COMT) inhibition on the plasma kinetics of infused 3,4-dihydroxyphenylglycol (DOPEG) and 3,4-dihydroxyphenylalanine (DOPA) as well as on endogenous plasma noradrenaline, DOPEG, DOPA and 3-methoxy-4-hydroxyphenylglycol (MOPEG). The plasma kinetics of infused MOPEG were also evaluated. To block the function of COMT, 3,4-dihydroxy-4'-methyl-5-nitrobenzophenone (Ro 40-7592) was given intravenously. Dose-finding experiments, in which the drug-induced fall in endogenous plasma MOPEG was used to quantify COMT inhibition, indicated that a Ro 40-7592 dose of 3 mg/kg followed by 1.5 mg/kg every 30 min was sufficient to obtain a virtually complete inhibition of COMT. More than 150 min of COMT inhibition were required for endogenous MOPEG to disappear from plasma, since the plasma half-life of MOPEG was 54 min. COMT inhibition produced marked increases in the plasma levels of endogenous DOPA (1.7-fold) and DOPEG (3.9-fold) and did not alter endogenous plasma noradrenaline. The results concerning the effect of COMT inhibition on the plasma kinetics of infused DOPA and DOPEG were as follows: the plasma clearance of DOPA was not altered, whereas that of DOPEG fell by 41%; the plasma half-life of DOPA increased from 4.9 to 13.0 min and that of DOPEG from 4.8 to 31.0 min; there was an increase in the volume of distribution of DOPA (2 to 3-fold) and DOPEG (4 to 5-fold).(ABSTRACT TRUNCATED AT 250 WORDS)

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The purpose of this study was to elucidate the finding of Friedgen et al. (1993 b) that catechol-O-methyltransferase (COMT) inhibition is much more effective in increasing the plasma concentration of endogenous dihydroxyphenylglycol (DOPEG) than in increasing the plasma concentration of infused DOPEG. To this end, reserpine-pretreated rabbits were anaesthetized and infused with noradrenaline and/or DOPEG, and the plasma clearances of infused noradrenaline (ClNA) and DOPEG (ClDOPEG) as well as the plasma DOPEG response to noradrenaline infusion [as reflected by the ratio of the steady-state increase in plasma DOPEG (delta DOPEG) to that in plasma noradrenaline (delta NA)] were determined before and after blockade of neuronal uptake by desipramine. Experiments were carried out either under control conditions or after COMT inhibition by i.v. administration of 3,4-dihydroxy-4'-methyl-5-nitrobenzophenone (Ro 40-7592). On the assumption that rates of neuronal noradrenaline uptake equal steady-state rates of neuronal DOPEG formation, the desipramine-sensitive components of ClNA and delta DOPEG/delta NA were used to estimate the apparent plasma clearance of DOPEG formed intraneuronally (Clf-DOPEG) in response to noradrenaline infusion. ClNA was 83.6 ml kg-1 min-1 in the absence and 48.1 ml kg-1 min-1 in the presence of desipramine. Neither the former nor the latter value was altered after COMT inhibition.(ABSTRACT TRUNCATED AT 250 WORDS)

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The purpose of the present study was to compare the plasma kinetics of norepinephrine (NA), epinephrine (A), isoprenaline (ISO), and dopamine (DA) in the anesthetized rabbit. To this end, a mixture of trace amounts of 3H-labeled NA, A, ISO, and DA was infused either into a femoral vein or into the ascending aorta, and the plasma amine clearances (Cl), the fractional amine extractions across the pulmonary (ERp) as well as systemic (ERs) circulation, and the cardiac output of plasma (COp) were determined at steady state of the amine infusion. The values of ERp, ERs, and COp were also used to calculate total-body fractional extractions [ERtot = ERp + ERs(1 - ERp)] and theoretical clearances (Clcalc = ERtot * COp). The four catecholamines differed as to their values of Cl and ERs and even more so with respect to ERp. The Cl was lowest for NA, intermediate for A and ISO, and highest for DA. Statistically significant pulmonary extractions were observed for NA (8.8%) and DA (24.0%), but not for A and ISO. The systemic extraction was lowest for ISO (63%) and highest for DA (75%). Cl values were higher than values of Clcalc and the ratio of Cl/Clcalc increased in the order of NA < A < ISO < DA. In vitro experiments, in which whole rabbit blood was incubated in the presence of added NA, A, ISO, and DA, showed a pronounced ability of blood cells to remove catecholamines from plasma. The four amines rapidly disappeared from plasma at rates increasing in the order of NA < A < ISO < DA.(ABSTRACT TRUNCATED AT 250 WORDS)

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The effects of desipramine on the total body plasma clearance (Cl) as well as the systemic fractional extraction (ERs) of noradrenaline, dopamine, adrenaline, and isoprenaline, and on the pulmonary fractional extraction (ERp) of dopamine and adrenaline were determined in the anaesthetized rabbit. Under control conditions, noradrenaline, dopamine, adrenaline, and isoprenaline had Cl values of 59.5, 116.2, 68.0, 78.4 (ml kg-1 min-1) and ERs values of 0.709, 0.789, 0.694, 0.669, respectively. The ERp of dopamine was 0.235, while that of adrenaline did not differ from zero. Desipramine reduced the Cl of noradrenaline (by 20%), but did not affect that of the other amines. It also reduced the ERs of noradrenaline (by 31%), dopamine (by 10%) and adrenaline (by 10%); the ERp of dopamine was diminished by 84%.

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