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A Comparison of the Growth Hormone Responses to Clonidine and Apomorphine in the Same Patients with Endogenous Depression

Published online by Cambridge University Press:  29 January 2018

T. H. Corn ,
A. S. Hale ,
C. Thompson ,
P. K. Bridges  and
S. A. Checkley
T. H. Corn
Affiliation:
Institute of Psychiatry, De Crespigny Park, Denmark Hill, London, SE5 8AF
A. S. Hale
Affiliation:
Geoffrey Knight Psychosurgical Unit, Brook General Hospital, Shooters Hill Road, London, SE18 4IW
C. Thompson
Affiliation:
Institute of Psychiatry
P. K. Bridges
Affiliation:
Geoffrey Knight Psychosurgical Unit, Brook General Hospital, and Senior Lecturer in Psychiatry, Guy's Hospital Medical School, London
S. A. Checkley
Affiliation:
The Maudsley Hospital, Denmark Hill, London, SE5 8AF
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Summary

The growth hormone responses to clonidine (1.3 μg/kgm) and apomorphine (0.005 mg/kgm) have been measured in 8 drug free patients with endogenous depression. In these patients the growth hormone responses to clonidine were significantly smaller than to apomorphine. As these doses of clonidine and apomorphine have previously been reported to cause similar growth hormone responses in normal subjects, these findings support the hypothesis of a defect in the adrenergic but not the dopaminergic regulation of growth hormone in patients with endogenous depression.

Type
Papers
Information
The British Journal of Psychiatry , Volume 144 , Issue 6 , June 1984 , pp. 636 - 639
Copyright
Copyright © 1984 The Royal College of Psychiatrists 

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References

Carney, M. W. P., Roth, M. & Garside, R. F. (1965) The diagnosis of depressive symptoms and the prediction of ECT response. British Journal of Psychiatry, 111, 659–72.Google Scholar
Caspar, R. C., Davis, J. M., Pandey, G. N., Garver, D. & Dekirmenjian, H. (1977) Neuroendocrine and amine studies in affective illness. Psychoneuroendocrinology, 2, 105–14.Google Scholar
Cella, S. G., Picotti, G. B. & Muller, E. E. (1983) Alpha, adrenergic stimulation enhances growth hormone secretion in the dog: a presynaptic mechanism? Life Sciences, 32, 2785–92.Google Scholar
Charney, D. S., Heninger, G. R., Sternberg, D. E., Hafstad, K. M., Giddings, S. & Lancis, D. H. (1982) Adrenergic receptor sensitivity in depression. Effects of clonidine in depressed patients and healthy subjects. Archives of General Psychiatry, 39, 290–4.Google Scholar
Checkley, S. A. (1980) Neuroendocrine tests of monoamine function in man: a review of basic theory and its application to the study of depressive illness. Psychological Medicine, 10, 3553.CrossRefGoogle Scholar
Checkley, S. A., Slade, A. P. & Shur, E. (1981) Growth hormone and other responses to clonidine in patients with endogenous depression. British Journal of Psychiatry, 138, 51–5.Google Scholar
Checkley, S. A., Glass, I. B., Thompson, C., Corn, T. & Robinson, P. (1984) The GH response to clonidine in endogenous as compared to reactive depression. Psychological Medicine (accepted for publication).CrossRefGoogle Scholar
Corn, T., Checkley, S. A. & Thompson, C. (1984) The effects of treatment with and withdrawal from desipramine upon the effects of clonidine in normal subjects. British Journal of Psychiatry (accepted for publication).Google Scholar
Costain, D. W., Cowen, P. J., Gelder, M. G. & Grahame-Smith, D. G. (1982) Electroconvulsive therapy and the brain: evidence for increased dopamine mediated response. Lancet, ii, 400–4.Google Scholar
Endicott, J. & Spitzer, R. (1978) A diagnostic interview. The Schedule for Affective Disorder and Schizophrenia. Archives of General Psychiatry, 35, 837–44.CrossRefGoogle ScholarPubMed
Eriksson, E., Eden, B. & Modigh, K. (1982) Up and down-regulation of central postsynaptic alpha2 receptors reflected in the growth hormone response to clonidine in reserpine pre-treated rats. Psychopharmacology, 77, 327–31.Google Scholar
Frazer, A. (1975) Adrenergic responses in depression: implications for a receptor defect. In Biological Psychiatry, ed. J. Mendels, pp. 726. New York: Wiley.Google Scholar
Glass, I. B., Checkley, S. A., Shur, E. & Dawling, S. (1982) The effect of desipramine upon central adrenergic function in depressed patients. British Journal of Psychiatry, 141, 372–6.Google Scholar
Göktepe, E. O., Young, L. B. & Bridges, P. K. (1975) A further review of stereotactic subcaudate tractotomy. British Journal of Psychiatry, 126, 478–81.CrossRefGoogle Scholar
Hamilton, M. (1967) Development of a rating scale for primary depressive illness. British Journal of Social and Clinical Psychology, 6, 278–96.Google Scholar
Krulich, L., Mayfield, M. A., Steele, M. K., McMillen, B. A., McCann, S. M. & Koenig, J. I. (1982) Differential effects of pharmacological manipulations of central alpha1 and alpha2 adrenergic receptors on the secretion of thyrotropin and growth hormone in male rats. Endocrinology, 110, 796804.Google Scholar
Laakman, G. (1980) Beinflussung der Hypophysenvorderlappen-Hormonsekretion durch Antidepressiva bei gesunden Probanden, neurotisch und endogen depressiven Patienten, Der Nervenarzt, 51, 725–32.Google Scholar
Lal, S., De La Vega, C. E., Sourkes, T. L. & Fkiesen, H. G. (1973) Effect of apomorphine on growth hormone, prolactin, luteinizing hormone, and follicle stimulating hormone levels in human serum. Journal of Clinical Endocrinology and Metabolism, 37, 719–24.Google Scholar
Lal, S., Guyda, H. & Bikadoroff, S. (1977) Effect of methysergide and pimozide on apomorphine induced growth hormone secretion in man. Journal of Clinical Endocrinology and Metabolism. 44, 766–70.Google Scholar
Lovinger, R., Holland, J., Kaplan, S., Grumnach, M. M., Boryczka, A. T., Shacklepord, R., Salmon, J., Reid, I. A. & Ganong, W. F. (1976) Pharmacological evidence for stimulation of growth hormone secretion by a central noradrenergic system in dogs. Neuroscience, 1, 443–50.CrossRefGoogle ScholarPubMed
McWilliam, J. R. & Meldrum, B. S. (1983) Noradrenergic regulation of growth hormone secretion in the baboon. Endocrinology, 112, 256–9.Google Scholar
Matussek, N., Ackenheil, M., Hippius, H., Muller, F., Schroder, H. Th., Schultes, H. & Wasilewski, B. (1980) Effect of clonidine on growth hormone release in psychiatric patients and controls. Psychiatry Research, 2, 2536.Google Scholar
Nair, N. P. V., Lal, S., Cervantes, P., Yasa, R. & Guyda, H. (1979) Effect of clozapine on apomorphine induced growth hormone secretion and serum prolactin concentrations in schizophrenia. Neuropsychobiology, 5, 136–42.CrossRefGoogle ScholarPubMed
Rotrosen, J., Angrist, B., Gershon, S., Paquin, J., Brahchey, L., Oleshansky, M., Halpern, F. & Sachar, E. J. (1979) Neuroendocrine effects of apomorphine: characterisation of response patterns and application to schizophrenia research. British Journal of Psychiatry, 135, 444–56.CrossRefGoogle ScholarPubMed
Rudolph, C. D., Kaplan, S. L. & Ganong, W. F. (1980) Sites at which clonidine acts to affect blood pressure and the secretion of Renin, Growth Hormone and ACTH, Neuroendocrinology, 31, 121–8.Google Scholar
Sakuma, M. & Knobil, E. (1970) Inhibition of endogenous growth hormone secretion by exogenous growth hormone infusion in the rhesus monkey. Endocrinology, 86, 890–4.Google Scholar
Siever, L. J., Uhde, T. W., Silberman, E. K., Jimerson, D. G., Aloi, J. A., Post, R. M. & Murphy, D. L. (1982) Growth hormone response to clonidine as a probe of noradrenergic receptor responsiveness in affective disorder patients and controls. Psychiatry Research, 6, 171–83.Google Scholar
Slade, A. P. & Checkley, S. A. (1980) A neuroendocrine study of the mechanism of action of ECT. British Journal of Psychiatry, 137, 217–21.Google Scholar
Spitzer, R. L., Endicott, J. & Robins, E. (1977) Research Diagnostic Criteria (RDC) for a Selected Group of Functional Disorders. New York: New York Psychiatric Institute.Google Scholar
von Zerssen, D., Berger, M. & Doerr, P. (1984) Neuroendocrine dysfunction in subtypes of depression, In Psychoneuroendocrine Dysfunction in Psychiatric and Neurological Illness; Influence of Psychopharmacological Agents, eds. Shah N. S. and Donald A. G. New York: Plenum Publishing Co.Google Scholar
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