Aldo Gonzalez‐Brito scite author profile

In photoperiodic mammals, seasonal cycles of growth and reproduction are cued by changes in the duration of the nocturnal profile of secretion of the pineal hormone melatonin. To investigate the likely mode of action of this hormone on target tissues, the effect of prolonged treatment with melatonin on the sensitivity of the adenylate cyclase (AC) system was examined in primary cultures of ovine pars tuberalis (PT) cells. When cells were exposed to melatonin (100 pM or 1 microM) for 16 h, and the hormone was then removed by a series of washes, basal production of cAMP was elevated over that observed in cells not treated with melatonin. Moreover, the rate of accumulation of cAMP after stimulation with forskolin (1 microM) was markedly enhanced in cells previously treated with melatonin compared to that in untreated controls. This sensitization by melatonin of the basal and forskolin-stimulated responses developed gradually and was half-maximal after approximately 8 h of exposure. There was no significant difference between the sensitizing effects of the two melatonin concentrations used. Treatment with melatonin for 24 h reduced the total amount of specific [125I]iodomelatonin binding in PT cell membranes by 30-50%. However, over the same period there was no reduction in the ability of a maximal (1 microM) concentration of melatonin to inhibit forskolin-stimulated cAMP production, indicating the presence of an excess capacity of melatonin receptors in cultured PT cells. Nevertheless, treatment with melatonin for 16 h did result in a 10-fold increase in the IC50 for the inhibition by melatonin of forskolin-stimulated cAMP production. The enhancement of cAMP production after prolonged treatment with melatonin was not masked by the inclusion of isobutylmethylxanthine (1 mM) during the subsequent challenge with forskolin, suggesting that sensitization was not due to a reduction in the activity of cAMP-phosphodiesterase. In control cells, aluminium fluoride caused an inhibition of forskolin-stimulated cAMP production. Prolonged treatment with melatonin abolished the inhibitory effect of aluminium fluoride, suggesting that treatment with melatonin caused a shift in the net balance between the G-protein-mediated stimulatory and inhibitory influences on the AC system. The sensitization of AC was not blocked by the inclusion of cycloheximide (10 micrograms/ml) during prolonged exposure to melatonin, suggesting that de novo protein synthesis is not a requirement for this effect of the hormone. These results constitute the first demonstration of an independent action of melatonin on ovine PT cells that is dependent upon the duration of the endocrine stimulus.(ABSTRACT TRUNCATED AT 400 WORDS)

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N-Acetyltransferase activity, hydroxyindole-O-methyltransferase activity, and melatonin levels in the Harderian glands of the female Syrian hamster: Changes during the light: Dark cycle and the effect of 6-parachlorophenylalanine administration

Menéndez-Peláez

Howes

Gonzalez‐Brito

et al. 1987

Biochemical and Biophysical Research Communications

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5 -Dihydrotestosterone Administration Converts Indolamine Metabolism and Porphyrin Content of the Female Syrian Hamster Harderian Gland to the Male Type

Menéndez-Peláez

Buzzell

et al. 1989

Experimental Biology and Medicine

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The effects of ovariectomy and exogenous androgen administration on the indole and porphyrin metabolism of Syrian hamster Harderian glands were studied. Ovariectomy alone had no effect on any of the parameters analyzed. The administration of either testosterone or 5a-dihydrotestosterone increased the activity of N-acetyltransferase in the Harderian glands. However, androgen treatment failed to change the activity of hydroxyindole-O-rnethyltransferase. Melatonin content of the glands dropped 20 days after treatment with testosterone and 10 days after the administration of 5adihydrotestosterone. The porphyrin content of the Harderian glands was dramatically depressed after the administration of either androgen. It is concluded that the Harderian glands of Syrian hamsters are under an androgenic control involving 5a-dihydrotestosterone. [P.S.E.B.M. 1989[P.S.E.B.M. , Vol 1921 he Harderian glands are located in the posterior part of the orbital cavities of most of the mam-

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Characterization and measurement of [125I]iodopindolol binding in individual rat pineal glands: existence of a 24-h rhythm in β-adrenergic receptor density

et al. 1988

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Thyroxine ′-Deiodination in Brown Adipose Tissue and Pineal Gland: Implications for Thermogenic Regulation and Role of Melatonin*

et al. 1988

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T4 type II 5'-deiodinase (5'-D II) activity was studied in wild-captured Richardson's ground squirrels. As previously reported for other species, 5'-D II activity was detected in frontal cortex, cerebellum, pineal gland, and brown adipose tissue (BAT); in the median eminence the levels of 5'-D II activity were undetectable with our methodology. When pineal gland, frontal cortex, and cerebellum nyctohemeral profiles were studied, none of them showed variations. Cold exposure for 4 h led to an increase in the enzymatic activity 10-fold above the basal values for BAT, while in the pineal gland the values were doubled; cold exposure failed to change the 5'-D II activity in the frontal cortex. Acute melatonin treatment caused a 7-fold increase in 5'-D II activity in BAT, but did not affect enzyme activity in either the pineal gland or frontal cortex. The data indicate that 5'-D II in Richardson's ground squirrel shows classical localizations. Additionally, two new regulatory factors of 5'-D II are reported, i.e. melatonin for BAT and cold for the pineal gland.

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