J. A. Van Der Krogt

Norepinephrine removal and release in the forearm of healthy subjects.

The relevance of local removal and release of norepinephrine (NE) for antecubital venous plasma NE concentration was studied in 22 healthy subjects. Arterial and venous plasma NE and forearm blood flow were measured during intra-arterial infusion of two doses of NE, intra-arterial NE infusion with two doses of sodium nitroprusside, intravenous infusion of NE with intra-arterial infusion of four doses of sodium nitroprusside, and lower body negative pressure of -20 mm Hg for 15 minutes. The venous plasma NE concentration-time curves during the infusions of the two doses of NE indicated first-order kinetics for forearm extraction: forearm NE extraction rate during the low dose infusion was 67 +/- 4.1% (SEM) and correlated with basal forearm blood flow (r = -0.64, p less than 0.03, n = 12). Local sodium nitroprusside-induced vasodilatation during the intra-arterial and intravenous NE infusions was accompanied by dose-dependent decreases in forearm extraction rates for NE and epinephrine. During lower body negative pressure, taking into account the high basal forearm extraction rate for NE, local and systemic release of NE was indicated by increases in arterial and venous plasma and the venous-arterial plasma NE concentration difference (p less than 0.05 for all). These data show that removal of NE from forearm circulation is a process with a high extraction ratio obeying first-order kinetics and that this extraction process inversely relates to forearm blood flow. Thus, antecubital venous plasma NE is likely to be derived mainly from local release and not from the arterial plasma NE input.

Diurnal variation of essential and physiological tremor.

Evaluations were made of the diurnal variations of tremor power at rest, after fatigue and after mass loading, and plasma norepinephrine in patients with familial essential tremor and normal subjects. Diurnal tremor power rhythms for both essential and physiological tremor pursued identical temporal profiles. Plasma norepinephrine levels followed a congruent diurnal pattern with later peak values than the peak values of tremor power. Sympathetic nervous system activity is unlikely to be the cause of diurnal tremor power variation. The consistent diurnal rhythm of tremor power may affect dosage schemes of tremorolytic drugs.

Demonstration of neuronal and extraneuronal uptake of circulating norepinephrine in the forearm.

Disturbances in peripheral norepinephrine release or removal by neuronal and extraneuronal uptake may have pathogenetic significance in cardiovascular disease states. We investigated the mechanisms of removal of norepinephrine in the forearm of healthy subjects under basal conditions, using measurements of arterial and venous plasma norepinephrine concentrations, blood pressure, heart rate, and forearm blood flow. The specific inhibitor of neuronal uptake, desipramine, was infused intra-arterially into the brachial artery of five subjects. Net norepinephrine overflow from the forearm increased markedly, revealing considerable local release of norepinephrine. Six other subjects received four intra-arterial infusions of norepinephrine, 1.18 pmol/kg/min, with various doses of desipramine and the extraneuronal uptake-inhibiting drug hydrocortisone. The forearm extraction rate for circulating norepinephrine decreased with increasing doses of desipramine (from 69.4 +/- 3.0 [SEM] to 35.3 +/- 8.4%; p less than 0.001). Increasing doses of hydrocortisone during continued inhibition of neuronal uptake resulted in decreased forearm extraction of norepinephrine (from 63.3 +/- 4.9 to 40.6 +/- 4.4%; p less than 0.01). In six other subjects who received the highest dose of hydrocortisone without concomitant inhibition of neuronal uptake, forearm extraction of norepinephrine decreased from 57.1 +/- 4.9 to 51.5 +/- 4.7% (p less than 0.05). These results suggest that neuronal uptake contributes markedly to the removal of circulating and endogenously released norepinephrine in the forearm. For circulating norepinephrine, a corticosteroid-sensitive mechanism of extraneuronal uptake was also demonstrated. These results indicate that neuronal and extraneuronal uptake can be estimated separately in this vascular bed. Similar organ-specific studies in patients may reveal disturbances in mechanisms of norepinephrine removal.

Functional and structural determinants of glomerulosclerosis in the fawn-hooded rat

Abstract. The effect of uninephrectomy (UN) at 4 months of age was studied on several parameters involved in the development of glomerulosclerosis (GS) in male spontaneously hypertensive Fawn‐Hooded rats. Protein excretion per animal was significantly more increased in UN rats at 2 months after operation compared to sham operated controls (202±104 vs. 88±37 mg 24 h‐1, P=0.005) and remained significantly higher throughout the rest of the observation period. At 11 months of age UN rats had a marked increase in the incidence of GS, 37± 16% compared to 5 ± 3% (P < 0.001) in controls. No differences were observed in mean arterial blood pressure.

Binding of [3H]flunitrazepam and [3H]spiperone to melanoma cell membrane preparations

Binding of [3H]flunitrazepam and [3H]spiperone to membrane preparations isolated by high speed centrifugation of hamster, rabbit and human melanoma cell homogenates was analyzed. All melanoma cell types expressed a high density of specific binding sites for [3H]flunitrazepam (3-4 pmol/mg protein) with a high affinity (Kd about 30 nM). This binding was independent of melanin content of cells and could be classified, based on competition experiments, as a Ro 5-4864-like binding type. Specific [3H]spiperone binding to these cell lines clearly revealed at least two types of binding sites: a low affinity, high capacity type of binding site (Kd greater than 100 nM, Bmax about 50 pmol/mg protein) and a high affinity, low capacity binding site (Kd less than 1 nm, Bmax 30 fmol/mg protein). Binding of spiperone to the low affinity, high capacity site appeared displaceable by NM 113 and dependent on melanin content of the cells and probably represents binding to melanin. Analysis of drug binding to melanoma membrane cell preparations and correlation with drug effects should include the possible involvement of binding to melanin.

Stimulation of Norepinephrine Release By Peripheral Presynaptic β-Adrenoceptors

Increases in plasma norepinephrine (NE) concentration induced by β-agonist infusion have been taken as evidence for the existence of peripheral presynaptic β-adrenoceptors, facilitating NE release. Concomitant hemodynamic changes, however, could invoke reflex mechanisms and thus hamper the interpretation of the results. We studied the presence of peripheral presynaptic β-adrenoceptors by giving intra-arterial infusions of EPI in the forearm before and during uptake inhibition, and the effects of systemic infusions of very low-dose epinephrine (EPI) and isoproterenol (ISO) on hemodynamics and arterial and venous plasma NE concentrations. An i.a. infusion of EPI, 0.1 ng.kg−1.min−1. increased the net overflow of NE from 0.3 ± 1.0 to 5.4 ± 1.8 pmol.min−1 (M ± SEM, p < 0.05) and raised the calculated arterial plasma EPI concentration to 0.92 ± 0.22 nmol.l−1. The uptake inhibition increased the net overflow of NE to 15.4 ± 2.4 pmol.min−1 and during addition of EPI, 0.1 ng.kg−1.min−1. it further increased to 23....

Monitoring the specific activities of dopamine and its metabolites in striatum and olfactory tubercle after intravenous administration of L-[3H]tyrosine: complex relations, indicating more than two compartments

It is still a matter of debate whether in dopaminergic nerve endings dopamine (DA) is present in different functional and/or metabolic compartments. To investigate this, DA metabolism was studied in vivo by measuring the specific activity of DA and its metabolites after intravenous administration of l-[3,5-(3)H]tyrosine (200 ?Ci/rat) to freely moving animals. The incorporation of (3)H into DA and metabolites was determined in striatum and olfactory tubercle at 5, 10, 20, 40, 60 and 80 min after [(3)H]tyrosine administration. In both structures the level of [(3)H]tyrosine initially declined monoexponentially, but deviated from that pattern later on. The curves representing the formation in time of [(3)H]DA and [(3)H]metabolites were very similar in both structures, although as a whole, the levels in the olfactory tubercle were higher. The relative patterns of the specific activities of DA and those of its metabolites, a possible clue to DA compartmentation, neither indicated a clearcut metabolic one-compartment, nor a two-compartment system. The flow of radioactivity through DA metabolism could in fact only be explained by assuming more complex metabolic relations.

4-[123I]iodospiperone as a ligand for dopamine DA receptors: in vitro and in vivo experiments in a rat model.

Radioiodinated spiperone is of interest for dopamine (DA) receptor studies in the living human brain by single photon emission computed tomography (SPECT). Stimulated by data obtained with [11C]-N-methyl-spiperone we synthesized 4-[123I]iodospiperone and investigated the in vitro binding characteristics of this ligand to the striatal membrane of the rat and the in vivo distribution over various rat brain regions. The in vitro binding experiments showed that this radioligand displays about 10 times less affinity for the DA receptor than spiperone and specific binding, as shown with [3H]spiperone, was not observed. Displacement by butaclamol was not observed. The in vivo studies demonstrated that both 4-[123I]iodospiperone and [3H]spiperone concentrate in striatal tissue, respectively, 1.9 and 3.5 times as high as in cerebellar tissue. Haloperidol pretreatment largely prevented this accumulation. In view of the obtained target-to-non-target ratios we believe, however, that this accumulation in brain areas rich in DA-receptors does not offer prospects for clinical receptor imaging with SPECT.

IS THERE A RELATION BETWEEN THE STRIATAL DOPAMINE-SUSCEPTIBLE Na,K-ATPase ACTIVITY AND DOPAMINE RECEPTORS?

Publisher Summary This chapter discusses a study to investigate the relation between the striatal dopamine-susceptible Na,K-ATPase activity and dopamine receptors. The stimulation of striatal Na,K-ATPase activity by dopamine (DA) and apomorphine was further investigated. Besides by DA and apomorphine, striatal Na,K-ATPase is also strongly stimulated by 2-amino-6,7-dihydroxy-1,2,3,4-tetrahydronaphthalene (ADTN). However, other DA agonists showed no effect at all or stimulated only slightly. Stimulation by DA or apomorphine was not counteracted by haloperidol. Cis -flupenthixol, another DA receptor antagonist, did strongly inhibit DA stimulation at concentrations, which inhibited basal Na,K-ATPase activity to a limited extent only. Trans-flupenthixol, an isomer that is much less active in DA receptor blocking tests, inhibited the stimulation by DA even more. The DA susceptibility of the striatal enzyme is affected neither by the degeneration of DA containing terminals nor by the degeneration of neurons postsynaptically with regard to DA terminals. It is concluded that the DA susceptibility of striatal Na,K-ATPase activity probably is a general characteristic of striatal Na,K-ATPase and is not related to DA receptor mechanisms.