S Miyamoto scite author profile

Recent studies have revealed the occurrence of five first exon variants of the rat prolactin receptor mRNA, suggesting that multiple promoters direct prolactin receptor transcription in response to different regulatory factors. In the present study, regional expression of these first exon variants, as well as two prolactin receptor subtypes generated by alternative splicing, was examined in the brains and anterior pituitary glands of female rats. Expression of the long-form was detected in the choroid plexus, hypothalamus, hippocampus, cerebral cortex and anterior pituitary gland, whereas the short form was detected only in the choroid plexus. E1-3 mRNA, a first exon variant, was detected in the choroid plexus, hypothalamus, and anterior pituitary gland, whereas E1-4 was detected only in the choroid plexus. Other variants were not detectable by the polymerase chain reaction protocol employed in this study. Ovariectomy increased the short form in the choroid plexus and the E1-3 expression in the choroid plexus and pituitary gland, but changes in the long-form and E1-4 expression were minimal. Replacement of oestrogens and prolactin suggest that oestrogens down-regulate E1-3 expression in the choroid plexus and pituitary gland, and that the negative effect of oestrogen is mediated by prolactin in the pituitary gland. The present results revealed the region-specific promoter usage in prolactin receptor mRNA transcription, as well as the involvement of oestrogens in the regulation of E1-3 mRNA expression in the brain and pituitary gland.

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Effects of activin on hormone secretion by single female rat pituitary cells: analysis by cell immunoblot assay

Miyamoto

Irahara²,

Ushigoe³

et al. 1999

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We investigated the effect of activin A on secretion of LH, FSH, and prolactin (PRL) by female cultured rat pituitary cells at the single-cell level by means of the cell immunoblot assay. Anterior pituitary cells from 8-week-old female rats were preincubated with or without activin A for 24 h, after which they were monodispersed and immediately used for cell immunoblot assay.The percentages of LH-, FSH-and PRLimmunoreactive cell blots detected were 5·5, 5·3 and 43·1%, respectively, of all pituitary cells applied to the transfer membrane. The percentage of LH-secreting cells and mean LH secretion per cell did not change after treatment with activin. In contrast, activin significantly increased the percentage of FSH-secreting cells and mean FSH secretion per cell to 136·0 and 114·5% respectively. In addition, activin significantly decreased the percentage of PRL-secreting cells and mean PRL secretion per cell to 52·2 and 72·0% respectively.These results suggest that (1) activin A has effects on female rat pituitary cells that increase not only the amount of FSH secretion per cell but also the number of FSHsecreting cells, and (2) activin A decreases both the amount of PRL secretion per cell and the number of PRL-secreting cells.

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The Gene Expression of Activin Receptors in Rat Pituitary

Aono¹,

Kuwahara²,

Tamura³

et al. 1997

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S Miyamoto

Region‐Specific Expression and Hormonal Regulation of the First Exon Variants of Rat Prolactin Receptor mRNA in Rat Brain and Anterior Pituitary Gland

Effects of activin on hormone secretion by single female rat pituitary cells: analysis by cell immunoblot assay

The Gene Expression of Activin Receptors in Rat Pituitary

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