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Repeated tricyclics induce a progressive dopamine autoreceptor subsensitivity independent of daily drug treatment

Nature volumeΒ 287,Β pages 451–454 (1980)Cite this article

Abstract

Dopamine (DA) has largely been ignored in considering possible mechanisms underlying the therapeutic effects of tricyclic anti-depressants (TCA)1–3. Most previous work done has focused on the ability of some TCAs to block the in vitro re-uptake of DA1β€”an effect which unfortunately requires very high doses. Recently, however, Serra et al.3 proposed that TCAs may exert their therapeutic effects by inducing a subsensitivity of presynaptic receptors located on the dendrites and soma of DA neurones (DA autoreceptors). This hypothesis was directly tested by examining the influence of TCAs on the demonstrated ability of the DA agonist, apomorphine, to depress selectively the spontaneous activity of single DA cells. We now report that repeated administration of both typical and atypical TCAs induces a progressive subsensitivity of DA autoreceptors, and that this gradual augmentation of DA autoreceptor subsensitivity depends on the passage of time rather than daily TCA administration. The latter finding suggests that daily drug administration may not be therapeutically necessary.

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References

  1. Halaris, A. E. & Freedman, D. X. in Biology of the Major Psychoses (ed. Freedman, D.) 247–258 (Raven, New York, 1975).

    Google ScholarΒ 

  2. Randrup, A. & Braestrup, C. Psychopharmacology 53, 309–314 (1977).

    ArticleΒ  CASΒ  Google ScholarΒ 

  3. Serra, G., Argiolas, A., Klimek, V., Fadda, F. & Gessa, G. L. Life Sci. 25, 415–424 (1979).

    ArticleΒ  CASΒ  Google ScholarΒ 

  4. Konig, J. F. R. & Klippel, R. A. The Rat Brain: A Stereotaxic Atlas (Williams & Wilkins, Baltimore, 1974).

    Google ScholarΒ 

  5. Chiodo, L. A., Caggiula, A. R., Antelman, S. M. & Lineberry, C. G. Brain Res. 176, 385–390 (1979).

    ArticleΒ  CASΒ  Google ScholarΒ 

  6. Chiodo, L. A., Antelman, S. M., Caggiula, A. R. & Lineberry, C. G. Brain Res. 189, 544–549 (1980).

    ArticleΒ  CASΒ  Google ScholarΒ 

  7. Thomas, R. C. & Wilson, U. J. Nature 206, 211–213 (1965).

    ArticleΒ  ADSΒ  CASΒ  Google ScholarΒ 

  8. Bunney, B. S. & Aghajanian, G. K. in Antipsychotic Drugs: Pharmacodynamics and Pharmacokinetics (eds Sedvall, I. G., Uvnas, B. & Zotterman, Y.) 305–318 (Pergamon, New York, 1976).

    Google ScholarΒ 

  9. Bunney, B. S., Walters, J. R., Roth, R. H. & Aghajanian, G. K. J. Pharmac. exp. Ther. 185, 560–571 (1973).

    CASΒ  Google ScholarΒ 

  10. Skirboll, L. R., Grace, A. A. & Bunney, B. S. Science 206, 80–82 (1979).

    ArticleΒ  ADSΒ  CASΒ  Google ScholarΒ 

  11. Segal, D. S. & Mandell, A. J. Pharmac. biochem. Behav. 2, 249–257 (1974).

    ArticleΒ  CASΒ  Google ScholarΒ 

  12. Stripling, J. S. & Ellinwood, E. H. Jr in Cocaine and Other Stimulatns (eds Ellinwood, E. H. Jr & Kilbey, M. M.) 327–352 (Plenum, New York, 1977).

    BookΒ  Google ScholarΒ 

  13. Antelman, S. M., Eichler, A. J., Black, C. A. & Kocan, D. Science 207, 329–331 (1980).

    ArticleΒ  ADSΒ  CASΒ  Google ScholarΒ 

  14. Glassman, A. H. & Perel, J. M. in Psychopharmacology: A Generation of Progress (eds Lipton, M. A., DiMascio, A. & Killam, K. F.) 917–922 (Raven, New York, 1978).

    Google ScholarΒ 

  15. Vetulani, J., Stawarz, R. J., Dingell, J. V. & Sulser, F. Naunyn-Schmiedebergs Arch. Pharmac. 293, 109–114 (1976).

    ArticleΒ  CASΒ  Google ScholarΒ 

  16. Banerjee, S. P., Kung, L. S., Riggi, S. J. & Chanda, S. K. Nature 268, 455–456 (1977).

    ArticleΒ  ADSΒ  CASΒ  Google ScholarΒ 

  17. de Montigny, C. & Aghajanian, G. K. Science 202, 1303–1306 (1978).

    ArticleΒ  ADSΒ  CASΒ  Google ScholarΒ 

  18. Gallager, D. W., Pert, A. & Bunney, W. E. Jr Nature 273, 309–312 (1978).

    ArticleΒ  ADSΒ  CASΒ  Google ScholarΒ 

  19. Bjorkland, A. & Lindvall, O. Brain Res. 83, 531–537 (1975).

    ArticleΒ  Google ScholarΒ 

  20. Antelman, S. M. & Caggiula, A. R. Science 195, 646–653 (1977).

    ArticleΒ  ADSΒ  CASΒ  Google ScholarΒ 

  21. Antelman, S. M. & Caggiula, A. R. in Animal Model in Psychiatry and Neurology (eds Hanin, I. & Usdin, E.) 227–245 (Pergamon, New York, 1977).

    Google ScholarΒ 

Download references

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Author notes

  1. Seymour M. Antelman: Also at Western Psychiatric Institute and Clinic, Department of Psychiatry, School of Medicine, University of Pittsburgh, Pittsburgh, Pennsylvania 15260.

Authors and Affiliations

  1. Psychobiology Program, Department of Psychology, University of Pittsburgh, Pittsburgh, Pennsylvania, 15260

    Louis A. ChiodoΒ &Β Seymour M. Antelman

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  1. Louis A. Chiodo
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  2. Seymour M. Antelman
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Chiodo, L., Antelman, S. Repeated tricyclics induce a progressive dopamine autoreceptor subsensitivity independent of daily drug treatment. Nature 287, 451–454 (1980). https://doi.org/10.1038/287451a0

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