A Direct Dopaminergic Control of Aromatase Activity in the Quail Preoptic Area

[en] In the quail preoptic area (POA) anatomical and pharmacological data suggest that catecholamines may be implicated in the control of testosterone (T) aromatization into estrogens. The biochemical mechanism(s) mediating this control of the enzyme activity is (are) however unexplored. The present studies were carried out to investigate whether the catecholamines, dopamine (DA) and norepinephrine (NE) are able to directly affect aromatase activity (AA) measured during in vitro incubations of POA homogenates. AA was quantified in the POA-hypothalamus of adult male Japanese quail by measuring the tritiated water production from [1beta-3H]-androstenedione. Enzyme activity was linear as a function of the incubation time and of the protein content of homogenates. It exhibited a typical Michaelis-Menten kinetics, with an apparent Km of 2.8 nM and a Vmax of 266.6 fmol h(-1) mg wet weight(-1). AA was then measured at a substrate concentration of 25 nM in the presence of catecholamines and some of their receptor agonists or antagonists, at two concentrations, 10(-3) and 10(-6) M. Norepinephrine and prazosin (alpha1-adrenergic antagonist) had no or very limited effects on AA at both concentrations. In contrast, DA and some D1 and/or D2 receptor agonists (apomorphine[D1/D2], SKF-38393 [D1] and RU-24213 [D2]) depressed AA by 40 to 70% at the 10(-3) M concentration. One D2 receptor antagonist also produced a major inhibition of AA (sulpiride) while other antagonists either had no significant effect or only produced moderate decreases in enzyme activity (SCH-23390 [D1], spiperone [D2], pimozide [D2]) as did two DA indirect agonists, amfonelic acid and nomifensine. The inhibitory effect of the agonists was not antagonized by the less active antagonists, SCH-23390 [D1] or spiperone [D2]. Taken together these results suggest that the inhibitory effects do not involve specific binding of DA or its agonists/antagonists to dopaminergic receptors mediating changes in cAMP concentration. This conclusion is also supported by the observation that addition of dibutyryl cAMP did not change brain AA. It appears more likely that DA and dopaminergic drugs inhibit AA by a direct effect on the enzyme, as suggested by the competitive nature of DA and SKF-38393 inhibition of AA (Ki's of 59 and 84 microM, respectively). The functional significance of this effect should still be demonstrated but this mechanism may represent an important physiological pathway through which neurotransmitters could rapidly affect steroid-dependent processes such as the neural synthesis of estrogens. This would provide a mean by which environmental stimuli could affect reproductive behavior and physiology.

Disciplines :

Pharmacy, pharmacology & toxicology
Zoology
Neurosciences & behavior

Author, co-author :

Baillien, M.

Balthazart, Jacques ; Université de Liège - ULiège > Département des sciences biomédicales et précliniques > Biologie de la différenciation sexuelle du cerveau

Language :

English

Title :

A Direct Dopaminergic Control of Aromatase Activity in the Quail Preoptic Area

Publication date :

1997

Journal title :

Journal of Steroid Biochemistry and Molecular Biology

ISSN :

0960-0760

eISSN :

1879-1220

Publisher :

Elsevier, United Kingdom

Volume :

Issue :

1-3, Sep-Oct

Pages :

99-113

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 17 November 2009

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Bibliography

Balthazart, J., Steroid metabolism and the activation of social behavior. In Advances in Comparative and Environmental Physiology, Vol. 3, ed. J. Balthazart. Springer Verlag, Berlin, 1989, pp. 105-159.
Balthazart J. and Foidart A., Brain aromatase and the control of male sexual behavior. J. Steroid Biochem. Mol. Biol. 44 (1993) 521-540.
Naftolin, F. and MacLusky, N. J., Aromatization hypothesis revisited. In Sexual Differentiation: Basic and Clinical Aspects, eds. M. Serio, M. Motta, M. Zanisi and L. Martini. Raven Press, New York, 1984, pp. 79-91.
Naftolin F., Ryan K. J., Davies I. J., Reddy V. V., Flores F., Petro Z., Kuhn M., White R. J., Takaoka Y. and Wolin L., The formation of estrogens by central neuroendocrine tissues. Rec. Prog. Harm. Res. 31 (1975) 295-319.
Adkins E. K., Boop J. J., Koutnik D. L., Morris J. B. and Pniewski E. E., Further evidence that androgen aromatization is essential for the activation of copulation in male quail. Physiol. Behav. 24 (1980) 441-446.
Panzica G. C., Viglietti-Panzica C. and Balthazart J., The sexually dimorphic medial preoptic nucleus of quail: a key brain area mediating steroid action on male sexual behavior. Front. Neuroendocrinol. 17 (1996) 51-125.
Panzica G. C., Viglietti-Panzica C., Calcagni M., Anselmetti G. C., Schumacher M. and Balthazart J., Sexual differentiation and hormonal control of the sexually dimorphic preoptic medial nucleus in quail. Brain Res. 416 (1987) 59-68.
Schumacher M. and Balthazart J., Neuroanatomical distribution of testosterone metabolizing enzymes in the Japanese quail. Brain Res. 422 (1987) 137-148.
Viglietti-Panzica C., Panzica G. C., Fiori M. G., Calcagni M., Anselmetti G. C. and Balthazart J., A sexually dimorphic nucleus in the quail preoptic area. Neurosci. Lett. 64 (1986) 129-134.
Schumacher M. and Balthazart J., Testosterone-induced brain aromatase is sexually dimorphic. Brain Res. 370 (1986) 285-293.
Schumacher M., Alexandre C. and Balthazart J., Interactions des androgècircanes et des oestrogènes dans le contrôle de la reproduction. C. R. Acad. Sci. Paris Série III 305 (1987) 569-574.
Harada N., Abe-Dohmae S., Loeffen R., Foidart A. and Balthazart J., Synergism between androgens and estrogens in the induction of aromatase and its messenger RNA in the brain. Brain Res. 622 (1993) 243-256.
Balthazart J., Foidart A., Surlemont C. and Harada N., Neuroanatomical specificity in the co-localization of aromatase and estrogen receptors. J. Neurobiol. 22 (1991) 143-157.
Foidart A., Houbart M., Harada N. and Balthazart J., Effects of castration and testosterone replacement on the colocalization of estrogen receptors and aromatase in the quail brain. Soc. Neurosci. Abstr. 22 (1996) 1588.
Barraclough C. A. and Wise P. M., The role of catecholamines in the regulation of pituitary luteinizing hormone and follicle stimulating-hormone secretion. Endocr. Rev. 3 (1982) 91-119.
DeVries G. J., Sex differences in neurotransmitter systems. J. Neuroendocrinol. 2 (1990) 1-13.
Weiner, R. I., Findell, P. R. and Kordon, C., Role of classic and peptide neuromediators in the neuroendocrine regulation of LH and prolactin. In The Physiology of Reproduction, eds. E. Knobil, J. Neill et al. Raven Press, New York, 1988, pp. 1235-1281.
Bailhache T., Foidart A., Surlemont C., Harada N. and Balthazart J., Catecholaminergic innervation of aromatase and estrogen receptor-immunoreactive cells in the quail brain. Soc. Neurosci. Abstr. 17 (1991) 269.
Balthazart J., Foidart A., Absil P. and Harada N., Effects of testosterone and its metabolites on aromatase-immunoreactive cells in the quail brain: Relationship with the activation of male reproductive behavior. J. Steroid Biochem. Mol. Biol. 56 (1996) 185-200.
Gingrich J. A. and Caron M. G., Recent advances in the molecular biology of dopamine receptors. Ann. Rev. Neurosci. 16 (1993) 299-321.
Lephart E. D., A review of brain aromatase cytochrome P450. Brain Res. Rev. 22 (1996) 1-26.
Lephart E. D., Simpson E. R. and Ojeda S. R., Effects of cyclic AMP and androgens on in vitro brain aromatase enzyme activity during prenatal development in the rat. J. Neuroendocrinol 4 (1992) 29-35.
Simpson E. R., Mahendroo M. S., Means G. D., Kilgore M. W., Hinshelwood M. M., Graham-Lorence S., Amarneh B., Ito Y., Fisher C. R., Michael M. D., Mendelson C. R. and Bulun S. E., Aromatase cytochrome P450, the enzyme responsible for estrogen biosynthesis. Endocr. Rev. 15 (1994) 342-355.
Cardinali D. P., Ritta M. N. and Gejman P. V., Norepinephrine stimulates testosterone aromatization and inhibits 5x-reduction via β-adrenoreceptors in the rat pineal gland. Mol. Cell. Endocrinol. 28 (1982) 199-209.
Verhoeven G., Effect of neurotransmitters and follicle-stimulating hormone on the aromatization of androgens and the production of 3′,5′-monophosphate by cultured testicular cells. J. Steroid Biochem. 12 (1980) 315-322.
Canick J. A., Tobet S. A., Baum M. J., Vaccaro D. E., Ryan K. J., Leeman S. E. and Fox T. O., Studies on the role of catecholamines in the regulation of the developmental pattern of hypothalamic aromatase. Steroids 50 (1987) 510-521.
Raum W. J., Marcano M. and Swerdloff R. S., Nuclear accumulation of estradiol derived from the aromatization of testosterone is inhibited by hypothalamic beta-receptor stimulation in the neonatal female rat. Biol. Reprod. 30 (1984) 388-396.
Raum W. J. and Swerdloff R. S., The role of hypothalamic adrenergic receptors in preventing testosterone-induced androgenization in the female rat brain. Endocrinology 109 (1981) 273-278.
Balthazart J. and Ball G. F., Effects of the noradrenergic neurotoxin DSP-4 on luteinizing hormone levels, catecholamine concentrations, x2-adrenergic receptor binding, and aromatase activity in the brain of the Japanese quail. Brain Res. 492 (1989) 163-175.
Balthazart J., Libioulle J. M. and Sante Ph., Stimulatory effects of the noradrenergic neurotoxin DSP4 on sexual behavior in male quail. Behav. Proc. 17 (1988) 27-44.
Ball G. F., Nock B., McEwen B. S. and Balthazart J., Distribution of x2-adrenergic receptors in the brain of the Japanese quail as determined by quantitative autoradiography: Implications for the control of sexually dimorphic reproductive processes. Brain Res. 491 (1989) 68-79.
Balthazart J., Foidart A. and Harada N., Immunocytochemical localization of aromatase in the brain. Brain Res. 514 (1990) 327-333.
Balthazart J., Foidart A., Surlemont C., Vockel A. and Harada N., Distribution of aromatase in the brain of the Japanese quail, ring dove, and zebra finch: An immunocytochemical study. J. Comp. Neurol. 301 (1990) 276-288.
Balthazart J., Foidart A., Sante P. and Hendrick J. C., Effects of x-methyl-para-tyrosine on monoamine levels in the Japanese quail: Sex differences and testosterone effects. Brain Res. Bull. 28 (1992) 275-288.
Osawa, Y., Higashiyama, T. and Yarborough, C., Diverse functions of aromatase cyt P-450: catecholestrogen synthesis, cocaine N-demethylation, and other selective drug metabolisms. 8th Int. Conf. on Cytochrome P450, 1994, pp. 893-896 (abstract).
Baillien, M. and Balthazart, J., Effects of catecholamines and catecholestrogens on brain aromatase activity. Abst. IVth Int. Aromatase Conf. Lake Tahoe, CA, 1996, p. 33.
Sachs B. D., Photoperiodic control of the cloacal gland of the Japanese quail. Science 157 (1967) 201-203.
Roselli, C. E. and Resko, J. A., In vitro assay of aromatase activity in the central nervous system. In Neuroendocrine Research Methods, Vol. 2, ed. B. Greenstein. Harwood Academic Publishers, Chur, Switzerland, 1991, pp. 937-951.
Schumacher M., Contenti E. and Balthazart J., Partial characterization of testosterone-metabolizing enzymes in the quail brain. Brain Res. 305 (1984) 51-59.
Timmers R. J. M., Granneman J. C. M., Lambert J. G. D. and van Oordt P. G. W. J., Estrogen-2-hydroxylase in the brain of the male african catfish Clarias gariepinus. Gen. Comp. Endocrinol. 72 (1988) 190-203.
Timmers R. J. M. and Lambert J. G. D., Kinetic studies of the catechol-o-methyltransferase from the brain of the african catfish Clarias gariepinus. Comp. Biochem. Physiol. 91C (1988) 399-402.
Timmers R. J. M. and Lambert J. G. D., Catechol-o-methyltransferase in the brain of the male african catfish, Clarias gariepinus; distribution and significance for the metabolism of catecholestrogens and dopamine. Fish Physiol. Biochem. 7 (1989) 201-210.
Osawa Y., Higashiyama T., Shimizu Y. and Yarborough C., Multiple functions of aromatase and the active site structure; Aromatase is the placental estrogen 2-hydroxylase. J. Steroid Biochem. Mol. Biol. 44 (1993) 469-480.
Palkovits M., Isolated removal of hypothalamic or other brain nuclei of the rat. Brain Res. 59 (1973) 449-450.
Palkovits, M. and Brownstein, M. J., Microdissection of brain areas by the punch technique. In Brain Microdissection Techniques, ed. A. C. Cuello. Wiley, New York, 1983, pp. 1-36.
Steimer, T. and Hutchison, J. B., Micromethods for the in vitro study of steroid metabolism in the brain using radio-labelled tracers. In Neuroendocrine Research Methods, Vol. 2, ed. B. Greenstein. Harwood Academic Publishers, Chur, Switzerland, 1991, pp. 875-919.
Neve, K. A. and Neve, R. L., Molecular biology of dopamine receptors. In The Dopamine Receptors, eds. K. A. Neve and R. L. Neve. Humana Press, Totowa, New Jersey, 1997, pp. 27-76.
Da Prada M., Borgulya J., Napolitano A. and Zürcher G., Improved therapy of Parkinson's disease with tolcapone, a central and peripheral COMT inhibitor with an S-adenosyl-L-methionine-sparing effect. Clin. Neuropharmacol. 17 (Suppl. 3) (1994) S26-S37.
Kita T., Wagner G. C., Philibert M. A., King L. A. and Lowndes H. E., Effects of pargyline and pyrogallol on the methamphetamine-induced dopamine depletion. Mol. Chem. Neuropathol. 24 (1995) 31-41.
Nissinen E., Linden I. B., Schultz E., Kaakkola S., Männistö P. T. and Pohto P., Inhibition of catechol-o-methyltransferase activity by two novel disubstituted catechols in the rat. Eur. J. Pharmacol. 153 (1988) 263-269.
Osawa, Y., Higashiyama, T. and Yarborough, C., Formation of 6x-hydroxyestradiol (6x-OHE2) from E2 by aromatase: evidence for the reverse side interaction of E2 at the active site of aromatase. Endoc. Soc. Abst., 1995, 88.
Toma Y., Higashiyama T., Yarborough C. and Osawa Y., Diverse functions of aromatase: O-deethylation of 7-ethoxycoumarin. Endocrinology 137 (1996) 3791-3796.
Ottinger M. A. and Balthazart J., Brain monoamines in Japanese quail: effects of castration and steroid replacement therapy. Behav. Proc. 14 (1987) 197-216.
Ottinger M. A., Schumacher M., Clarke R. N., Duchala C. S. Balthazart J., Comparison of monoamine concentrations in the brains of adult male and female Japanese quail. Poultry Sci. 65 (1986) 1413-1420.
Simerly, R. B., Hormonal regulation of limbic and hypothalamic pathways. In Neurobiological Effects of Sex Steroid Hormones, eds. P. E. Micevych and R. P. Hammer Jr. Cambridge University Press, Cambridge, 1995, pp. 85-114.
Simerly R. B., Swanson L. W. and Gorski R. A., The distribution of monoaminergic cells and fibers in a periventricular preoptic nucleus involved in the control of gonadotropin release: Immunohistochemical evidence for a dopaminergic sexual dimorphism. Brain Res. 330 (1985) 55-64.
Absil P., Foidart A., Houbart M. and Balthazart J., Quantitative analysis of dopaminergic inputs to aromatase-containing areas in the quail brain. Soc. Neurosci. Abstr. 21 (1995) 101.
Absil P., Foidart A., Surlemont C. and Balthazart J., Dopaminergic inputs to aromatase-containing areas in the quail brain identified by double label immunocytochemistry and retrograde tracing. Soc. Neurosci. Abstr. 20 (1994) 827.
Balthazart J. and Absil P., Identification of catecholaminergic inputs to and outputs from aromatase-containing brain areas of the Japanese quail by retrograde tracing combined with tyrosine hydroxylase immunocytochemistry. J. Comp. Neural 382 (1997) 401-428.
Bailhache T. and Balthazart J., The catecholaminergic system of the quail brain: Immunocytochemical studies of dopamine β-hydroxylase and tyrosine hydroxylase. J. Comp. Neural. 329 (1993) 230-256.
Reiner, A., Karle, E. J., Anderson, K. D. and Medina, L., Catecholaminergic perikarya and fibers in the avian nervous system. In Phylogeny and Development of Catecholamine Systems in the CNS of Vertebrates, eds. W. J. A. J. Smeets and A. Reiner. Cambridge University Press, Cambridge U.K., 1994, pp. 135-181.
Ciliax B. J., Heilman C., Demchyshyn L. L., Pristupa Z. B., Ince E., Hersch S. M., Niznik H. B. and Levey A. I., The dopamine transporter: Immunochemical characterization and localization in brain. J. Neurosci. 15 (1995) 1714-1723.
Nirenberg M. J., Vaughan R. A., Uhl G. R., Kuhar M. J. and Pickel V. M., The dopamine transporter is localized to dendritic and axonal plasma membranes of nigrostriatal dopaminergic neurons. J. Neurosci. 16 (1996) 436-447.
Revay R., Vaughan R., Grant S. and Kuhar M. J., Dopamine transporter immunohistochemistry in median eminence, amygdala, and other areas of the rat brain. Synapse 22 (1996) 93-99.
Schlinger B. A. and Callard G. V., Localization of aromatase in synaptosomal and microsomal subfractions of quail (Coturnix coturnix japonica) brain. Neuroendocrinology 49 (1989) 434-441.
Steimer Th., Aromatase activity in rat brain synaptosomes. Is an enzyme associated with the neuronal cell membrane involved in mediating non-genomic effects of androgens. Eur. J. Neurosci. Suppl. 1988 (1988) 9.
Naftolin F., Horvath T. L., Jakab R. L., Leranth C., Harada N. and Balthazart J., Aromatase immunoreactivity in axon terminals of the vertebrate brain - An immunocytochemical study on quail, rat, monkey and human tissues. Neuroendocrinology 63 (1996) 149-155.
Amarneh B. A. and Simpson E. R., Detection of aromatase cytochrome P450, 17x-hydroxylase cytochrome P450 and NADPH:P450 reductase on the surface of cells in which they are expressed. Mol. Cell. Endocrinol 119 (1996) 69-74.
Simpson, E. R., Means, G. D., Mahendroo, M. S., Kilgore, M. W., Corbin, C. J. and Mendelson, C. R., Analysis of the gene encoding human aromatase cytochrome P-450. In The New Biology of Steroid Hormones, eds. R. B. Hochberg and F. Naftolin. Raven Press, New York, 1991, pp. 1-13.
Power R. F., Mani S. K., Codina J., Conneely O. M. and O'Malley B. W., Dopaminergic and ligand-independent activation of steroid hormone receptors. Science 254 (1991) 1636-1639.
Mani S. K., Allen J. M. C., Clark J. H., Blaustein J. D. and O'Malley B. W., Convergent pathways for steroid hormoneand neurotransmitter-induced rat sexual behavior. Science 265 (1994) 1246-1249.
McEwen B. S., Steroid hormone actions on the brain: When is the genome involved?. Harm. Behav. 28 (1994) 396-405.
Pasqualini C., Olivier V., Guibert B., Frain O. and Leviel V., Acute stimulatory effect of estradiol on striatal dopamine synthesis. J. Neurochem. 65 (1995) 1651-1657.
Schumacher M., Rapid membrane effects of steroid hormones: an emerging concept in neuroendocrinology. TINS 13 (1990) 359-362.