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Circadian rhythm of catecholaminergic binding sites on blood cells and catecholamines in plasma of healthy volunteers

Published online by Cambridge University Press:  28 April 2020

M. Fröhler ,
M. Ackenheil ,
R. Bak ,
B. Bondy ,
E. Feistenauer ,
E. Hofschuster cand. med. ,
Y. Saito ,
A. Vakis  and
D. Welter
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Summary

Circadian variations of catecholaminergic binding sites on blood cells and circulating catecholamines (CA) in serum from ten healthy volunteers, with ordinary daily activities during the investigation were examined. Simultaneously, psychological status was analysed by different tests (MMPI-Saarbrücken, EWL and BfS).

A significant increase in binding capacity (maximum at 8 p.m.) of α2-receptors with a concomitant significant decrease in affinity (minimum at 8 p.m.) was observed. β2-receptors showed a slight, but significant diurnal decrease in capacity (maximum at 8 a.m.) with no change in affinity. 3-H-spiperone binding sites on lymphocytes and circulating plasma CA did not differ significantly during 24 hours. The psychological tests showed significant diurnal variations for only the EWL-subgroups «activity» and «general inactivity» respectively with the BfS.

No correlations has been observed between biological and psychological data.

Résumé

Résumé

Les variations au cours de la journée des sites de liaisons catécholaminergiques sur les cellules sanguines et des catécholamines circulantes dans le sérum ont été analysées chez des sujets sains ne changeant rien à leurs habitudes durant la journée d'examen. Simultanément leur état psychologique a été déterminé à l‘aide de différents tests (MMPI-Saarbrücken*, EWL* et BfS*).

Une augmentation significative de la capacité de liaison (maximum à 8 heures du soir) ainsi qu’une diminution significative de l’affinité (minimum à 8 heures du soir) des récepteurs α2-adrénergiques ont pu être mises en évidence. La capacité de liaison des récepteurs β2 diminue significativement durant la journée (maximum à 8 heures du matin) tandis que leur affinité reste inchangée. Les sites de liaison du spipérone-3H sur les lymphocytes et les catéecholamines plasmatiques ne montrent pas de différence significative durant ces 24 heures. Les tests psychologiques ne montrent des variations significatives au cours de la journée que pour les sous-groupes «activité» et «inactivité générale» du test EWL et de la BfS.

Il n’existe pas de corrélations temporelles entre les variations biologiques et psychologiques.

Keywords

Catecholamine-receptorsα2-, β2- and 3-H-Spiperone Binding SitesCircadian RhythmNeurotransmitter ReceptorsPlasma catecholaminesRécepteurs catécholaminergiquesα2-, β2- et sites de liaison du spipérone-3H Rythme circadienRécepteurs des neurotransmetteursCatécholamine et plasma
Type
Research Article
Information
Psychiatry and Psychobiology , Volume 1 , Issue 4 , 1986 , pp. 309 - 317
Copyright
Copyright © European Psychiatric Association 1986

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References

Bibliographie/References

Ackenheil, M., Albus, M., F., Müller, Müller, Th., Welter, D., Zander, K., Engel, R.- Catecholamine Response To Short-Time Stress In Schizophrenic And Depressive Patients. In: E.Usdin, , Kopin, I., Barchas, J.D. Eds: Catecholamines: Basic and Clinical Frontiers Proc of the 4th Catecholamine Symposium. 1937-1939, Pergamon Press, Oxford, 1979.Google Scholar
Ackenheil, M., FrÖhler, M., Goldig, G., Rall, G., Welter, D.- Catecholaminbestimmung im Blut und Liquor mit Hochdruckflüssigkeitschromatographie. Arzneimittelforsch/Drug Research 1982; 32: 893.Google Scholar
Ackenheil, M., Bondy, B., FrÖhler, M., Vakis, A.- Des récepteurs catécholaminergiques aux cellules sanguines des schizophrènes. Encèphale 1985; XI: 95100.Google Scholar
Bondy, B., Ackenheil, M., Birzle, W., Elbers, R., Fröhler, M.- Catecholamines and their receptors in blood: evidence for alterations in schizophrenia. Biol Psychiatry 1984; 19: 13771392.Google Scholar
Bondy, B., Ackenheil, M., Elbers, R.. Fröhler, M.- Binding of 3-H-spiperone to human lymphocytes: A biological marker in schizophrcnia? Psychiatry Res 1985; 15:4148.10.1016/0165-1781(85)90038-1CrossRefGoogle Scholar
Böyum, A - Isolation of mononuclear cells and granulocytes from human blood. Scand J Clin Lab Invest (Suppl 97) 1968; 21 : 7789.Google Scholar
Carlsson, A., Svennerholm, L., Winblad, B.- Seasonal and circadian monoamine variations in human brains examined post mortem. Acta Psychiatr Scand 1980; 61, Suppl 280: 7583.10.1111/acps.1980.61.s280.75CrossRefGoogle ScholarPubMed
Daiguji, M., Meltzer, H.Y., U’Prichard, D.C.- Human platelet α 2-adrenergic receptors: Labeling with 3-H-Yohimbine, a selective antagonist ligand. Life Sci 1981;28:27052717.10.1016/0024-3205(81)90171-5CrossRefGoogle Scholar
Daiguji, M., Mikuni, M., Okada, F., Yamashita, I.- The diurnal variations of dopamine-beta-hydroxylase activity in the hypothalamus and locus coeruleus of the rat. Brain Res 1978; 155:409412.10.1016/0006-8993(78)91039-9CrossRefGoogle ScholarPubMed
Debus, G., Ludwig - Untersuchungen zur Frage von Befindlichkeitsschwankungen. Gieβen (unveröffentlichte Untersuchung) 1972.Google Scholar
Dulis, B.H., Wilson, I.B.- The β-adrenergic receptor of live human polymorphonuclear leucocytcs. J Biol Chem 1980; 255: 10431048.Google Scholar
Engel, R.R.- Persönlichkeitsfragebogen MMPl-Saarbrücken. Arztliche Praxis 1978; 25: 768769.Google Scholar
Fiske, D.W., Rice, L.- Intra-individual response variability. Psychol Bull 1959; 51: 217250.Google Scholar
Janke, W.- Experimentelle Untersuchungen über die Wirkungen cines Psychotonicums. Arzneimittelforsch 1961; 11: 783787.Google Scholar
Janke, W., Debus, G.- Die Eigenschaftswörterliste EWL, (C.J. Hogrefe ed): Verlag für Psychologie, Göttingen, Toronto, Zürich, 1978.Google Scholar
Kafka, M.S., Wirz-Justice, A., Naber, D.- Circadian and seasonal rhythms in α and β-adrenergic receptors in the rat brain. Brain Res 1981; 207:409419.10.1016/0006-8993(81)90373-5CrossRefGoogle ScholarPubMed
Kafka, M.S., Wirz-Justice, A., Naber, D., Moore, R.Y., Benedito, M.A.- Circadian rhythms in rat brain neurotransmitter receptors. Fed Proc 1983;42:27962801.Google ScholarPubMed
Krawietz, W., Klein, E.M., Unterberg Ch., Ackenheil M.- Physical activity decreases the number of β-adrenergic receptors on human lymphocytes. Klin Wochenschr 1985;63: 7378.10.1007/BF01733071CrossRefGoogle ScholarPubMed
Lefkowitz, R.J., Murkherjee, C., Coverstone, M., Caron, M.G.- Stereospecific 3-H-(-)-alprenolol binding sites, beta-adrenergie receptors and adenylate cyclase. Biochem Biophys Res Commun 1974; 60: 703709.10.1016/0006-291X(74)90297-6CrossRefGoogle Scholar
LeFur, G., Phan T., Uzan A.- Identification of stereospecific 3-H-spiperone binding sites in mammalian lymphocytes. Life Sci 1980; 26: 11391148.CrossRefGoogle Scholar
Lemmer, B., Berger, T.- Diurnal rhythms in the central dopamine turnover in the rat. Naunyn Schmiedebergs Arch Pharmacol 1978; 303: 257261.Google ScholarPubMed
Motulsky, H.J., Shattil, S.J., Insel, P.A.- Characterization of adrenergjc receptors on human platelets using 3-H-yohimbine. Biochem Biophys Res Commun 1980;97: 15621570.10.1016/S0006-291X(80)80044-1CrossRefGoogle Scholar
Naber, D., Wirz-Justice, A., Kafka, M.S., Tobler, I., Borbely, A.A - Seasonal variations in the endogenous rhythms of dopamine receptor binding in rat striatum. Biol Psychiatry 1981;16:831835.Google Scholar
Naber, D., Wirz-Justice, A., Kafka, M.S., Wehr, T.A.- Dopamine receptor binding in rat striatum: ultradian rhythm and its modification by chronic imipramine. Psychopharmacoiogy 1980; 58: 15.Google Scholar
Nowalis, V.- The description and analysis of mood. Ann NY Acad Sci 1956; 65: 345355.10.1111/j.1749-6632.1956.tb49644.xCrossRefGoogle Scholar
Pangerl, A., Remien, J., Haen, E.- The number of β-adrenoceptor sites on intact human lymphocytes depends on time of day, on season, and on sex. In: Reinberg, A., Smolensky, M., Labrecque, G., eds: Annual Review of Chronopharmacology Vol 3, 331334, Pergamon Press, Oxford, 1986.Google Scholar
Peizer, D.B., Pratt, J.W.- A normal approximation of binomial, F, and other common related tail probabilities. J Am Stat Assoc 1968; 63: 14571483.Google Scholar
Perlow, M., Ebert, M.H., Gordon, E.K., Ziegler, M.G., Lake, R.C., Chase, T.N.- The circadian variation of catecholamine metabolism in the subhuman primate. Brain Res 1978; 139: 101113.CrossRefGoogle ScholarPubMed
Perlow, M.J., Cordon, E.K., Ebert, M.H., Hoffmann, H.J. Chase, T.N.- The circadian variation in dopamine metabolism in the subhuman primate. J Neurochem 1977; 28: 13811383.10.1111/j.1471-4159.1977.tb12336.xCrossRefGoogle ScholarPubMed
Ratge, D., Knoll, E., Diener, U., Hadjidimos, A., Wisser, H.- Altered circadian rhythm of catecholamines in patients with apallic syndrome. Experientia 1981; 37: 12071209.10.1007/BF01989922CrossRefGoogle ScholarPubMed
Romero, J.A., Zatz, M., Kebabian, J.W., Axelrod, J.- Circadian cycles in binding of 3-H-alprenolol to β-adrenergic receptor sites in rat pineal. Nature 1975;258:435436.CrossRefGoogle Scholar
Rosenthal, H.E.- A graphic method fort the determination and presentation of binding parameters in a complex system. J Anal Biochem 1967;20:525532.10.1016/0003-2697(67)90297-7CrossRefGoogle Scholar
Scatchard, G.- The attraction of proteins for small molecules and ions. Ann Rev NY Acad Sci 1949;51:590672.Google Scholar
Scheving, L.E., Harrison, W.H., Cordon, P., Pauly, J.E.- Daily fluctuation in biogenic amines of the rat brain. Am J Physiol 1968; 214: 166173.10.1152/ajplegacy.1968.214.1.166CrossRefGoogle ScholarPubMed
Simon, M.L., George, R.- Diurnal variations in plasma corticosterone and growth hormone as correlated with regional variations in norepinephrine, dopamine and serotonin content of rat brain. Neuroendocrinology 1975; 17:125138.10.1159/000122348CrossRefGoogle ScholarPubMed
Titinchi, S., Al Shamma M., Patel K.R., Kerr J.W., Clark B.- Circadian variation in number and affinity of β-adrenoceptors in lymphocytes of asthmatic patients. Clin Sci 1984;66: 323328.10.1042/cs0660323CrossRefGoogle ScholarPubMed
Wehr, T.A., Goodwin, F.K.- Biological rhythms and psychiatry. In: Arieti, , Keith, , Arieti, eds: American handbook of psychiatry, 7, Basic Books 1981.Google Scholar
Wood, K., Coppen, A.- Platelet alpha-adrenoreceptor sensitivity in depressive illness. In: Mendlewicz, J., Van Praag, H.M. eds: Advances in Biological Psychiatry, 7, 8589, S. Karger, Basel, 1981.Google Scholar
Zerssen, D.V.- Befindlichkeitsskala. In: Beltz, ed: CIPS (Internationale Skalen für Psychiatrie) Weinheim 1981.Google Scholar
Ziegler, M.G., Lake, C.R., Wood, J.H., Ebert, M.H.- Circadian rhythm in cerebrospinal fluid noradrenaline of man and monkey. Nature 1976;264:656658.Google ScholarPubMed
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