Toshiki Iwasaka scite author profile

We studied the expression of prolactin (PRL) mRNA in the mammary gland of resting, pregnant, lactating, and weanling rats using in situ and solution reverse transcriptase-polymerase chain reaction (RT-PCR). In mid- to late pregnancy and throughout lactation, PRL mRNA was detected in both in situ and solution RT-PCR. These PRL mRNA signals were clearly identified in the cytoplasm of alveolar and ductal mammary epithelial cells by the in situ RT-PCR method. In mid- to late pregnancy, such as at the initiating point of PRL mRNA expression, we confirmed in some cases a lack of PRL mRNA by solution RT-PCR. In addition, in the early weaning phase, no signals were detected by solution RT-PCR. However, slight focal signals were detected in some poorly vacuolated cytoplasm of regressing acinar cells by in situ RT-PCR. These findings suggest that PRL mRNA in rat mammary gland begins in mid- to late pregnancy in parallel with the development of the mammary gland, continues throughout lactation, and declines in the early phase of weaning, with regression of mammary epithelial cells.

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Alterations of myoepithelial cells in the rat mammary gland during pregnancy, lactation and involution, and after estradiol treatment

Jin¹,

Umemura²,

Iwasaka³

et al. 2000

Pathology International

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Hormone-induced alterations of myoepithelial cells in the mammary gland have not been fully investigated. The aim of the present study was to examine whether myoepithelial cells are altered in response to hormonal conditions. The immunohistochemical findings of smooth muscle actin for myoepithelial cells were studied during pregnancy, lactation and involution, and after estradiol dipropionate (ED) treatment (50, 500, 1000 microg/kg per week for 1-4 weeks) using a total of 71 Wistar female rats. Myoepithelial cells showed a stratified appearance around ducts during pregnancy, extended cytoplasmic processes with wider distance during lactation, and vacuolated cytoplasm after weaning. ED treatment (50-1000 microg/kg per week) for 1 week increased myoepithelial cells to a variable degree, achieving a level similar to that in pregnancy, but ED treatment for 4 weeks reduced them as the dose elevated. The present study showed that the myoepithelial cells became hyperplastic or hypertrophic by low-dose ED treatment within the physiological range, while weaning pups, and excess high-dose ED treatment beyond the physiological range or prolonged ED treatment induced reduction of the myoepithelial cells. Results indicate that myoepithelial cells themselves are also altered by hormonal conditions coordinating the mammary gland development.

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Expression of chromogranin/secretogranin mRNA in spontaneous mammary tumors in aging Fischer‐344 rats

Umemura

Iwasaka

Osamura

2001

Pathology International

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There is a type of human breast cancer showing a neuroendocrine differentiation. Little is known, however, about the cell origin of this cancer or the process by which it expresses neuroendocrine features. Rat mammary tumors, either spontaneous or induced, have not been subjects for the investigation of aspects regarding the neuroendocrine differentiation of mammary epithelial cells. The aim of the present study was to show the potential of rat mammary tumors for expressing chromogranin (Cg)/secretogranin (Sg) mRNA. We examined CgA, SgI and SgII mRNA expression by reverse transcription-polymerase chain reaction in rat mammary adenocarcinoma and fibroadenoma which had arisen spontaneously in aging Fischer-344 rats. CgA and SgII mRNA were expressed in both mammary tumors, but SgI mRNA was not detected in either. The results of the present study show that rat mammary tumors can express chromogranin genes.

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Lack of Prolactin (PRL) mRNA Expression in Estrogen-treated Rat Mammary Glands.

et al. 2000

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Toshiki Iwasaka

Expression of Prolactin mRNA in Rat Mammary Gland During Pregnancy and Lactation

Alterations of myoepithelial cells in the rat mammary gland during pregnancy, lactation and involution, and after estradiol treatment

Expression of chromogranin/secretogranin mRNA in spontaneous mammary tumors in aging Fischer‐344 rats

Lack of Prolactin (PRL) mRNA Expression in Estrogen-treated Rat Mammary Glands.

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