L. Caligaris scite author profile

SUMMARY The concentration of prolactin in serum after oestrogen and progesterone injection into spayed rats was measured by radioimmunoassay. After a single injection of 5 μg oestradiol benzoate (OB) into long-term ovariectomized rats, serum prolactin concentrations showed a circadian rhythm with high levels in the afternoon and almost no changes in the morning. Peaks of prolactin occurred 2, 3 and 4 days after the injection. Below a dose of 1 μg OB, the response was dose-dependent, but the response was then maximal. In spayed rats primed with 5 μg OB, the injection of 2 mg progesterone 2, 3 or 4 days later resulted in a significant increase in serum prolactin. This response, in contrast to that of oestrogen, occurred in the morning and in the evening and was found to be dose-dependent. The rise in serum prolactin after injection of 1 mg progesterone also showed a close relationship to the priming dose of OB. Progesterone had no effect in spayed, untreated animals. Maximal levels of prolactin were attained 3–4 h after the s.c. injection of progesterone. The release of prolactin which can be induced either by OB or by progesterone was blocked by the administration of progesterone injected 1 day before the expected release would occur. These results indicate that progesterone exerts both facilitatory and inhibitory effects on prolactin secretion. Male rats were found to be less sensitive to the ovarian steroid treatment. It is suggested that oestrogen could be responsible for the rise in prolactin observed at pro-oestrus and progesterone for the increase in prolactin in pseudopregnancy and pregnancy.

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Biphasic Effect of Progesterone on the Release of Gonadotropin in Rats

Caligaris

1971

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Influence of Age on the Release of Luteinizing Hormone Induced by Oestrogen and Progesterone in Immature Rats

Caligaris¹,

Astrada²,

Taleisnik³

1972

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SUMMARY In immature female rats serum luteinizing hormone (LH) concentration, as measured by radioimmunoassay, was found to be higher at 10 or 15 days of age than thereafter. Animals ovariectomized soon after birth or at 5 days of age showed a significant rise in serum LH levels 10 days later. A positive feedback effect on LH secretion was observed on the day following a single injection of oestradiol benzoate (OB) in 28-day-old rats but not in younger animals. However, in animals primed with OB a second dose of OB 2 days later resulted in a significant rise in serum LH levels even in rats of 22 days of age. Progesterone (1 mg) injected 3 days after the injection of a single dose of OB induced, a few hours later, a significant rise in serum LH concentration. This effect was observed from the 22nd day of age but not in younger animals. The magnitude of the response to progesterone, as revealed by the serum LH levels, sharply decreased at the time of puberty. It is concluded that the mechanisms responsible for the tonic release of LH are ready to function at the time of birth or shortly thereafter, while those involved in the phasic release mature around 22 days of age.

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Effect of Copulation on the Release of Pituitary Gonadotropins in Male and Female Rats

1966

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L. Caligaris

Release of Luteinizing Hormone Induced by Estrogen Injection Into Ovariectomized Rats

Oestrogen and Progesterone Influence on the Release of Prolactin in Ovariectomized Rats

Biphasic Effect of Progesterone on the Release of Gonadotropin in Rats

Influence of Age on the Release of Luteinizing Hormone Induced by Oestrogen and Progesterone in Immature Rats

Effect of Copulation on the Release of Pituitary Gonadotropins in Male and Female Rats

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