Hiroaki Homma scite author profile

We examined menstrual cycle-dependent changes in the expression of human endometrial epidermal growth factor (EGF), transforming growth factor alpha (TGF alpha), and epidermal growth factor receptor (EGFR) and their mRNA using immunoblot analysis, 125I-EGF binding, and competitive reverse transcription and polymerase chain reaction (RT-PCR). We also studied their localization in the endometrial tissue by immunohistochemistry. Endometrial samples were obtained at three stages of menstruation: the early follicular stage, which exhibits low serum estradiol (E2) and progesterone (P) levels; the late follicular stage, which exhibits high E2 and low P levels; and the luteal stage, which exhibits high E2 and P levels. Immunohistochemical examination showed that EGF, TGF alpha, and EGFR were localized to the endometrial epithelium. Immunoblot analysis revealed that endometrial EGF, TGF alpha, and EGFR levels were significantly (p < 0.01) increased at the late follicular and luteal stages compared to the early follicular stage. 125I-EGF-specific binding levels at the late follicular and luteal stages were significantly (p < 0.01) higher than at the early follicular stage, consistent with the results of immunoblot analysis. Competitive RT-PCR revealed that EGF, TGF alpha, and EGFR mRNA levels were significantly (p < 0.01) higher at the late follicular and luteal stages than at the early follicular stage. Changes in EGF, TGF alpha, and EGFR mRNA levels were consistent with changes in protein levels. These findings suggest that synthesis and expression of human endometrial EGF, TGF alpha, and EGFR vary with the stage of the menstrual cycle and that their expression in the human endometrium is associated with the increase in the serum E2 but not with the increase in P levels.

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Estrogen Suppresses Transcription of Lipoprotein Lipase Gene

Homma¹,

Kurachi²,

Nishio³

et al. 2000

Journal of Biological Chemistry

176

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Estrogen exerts a variety of effects not only on female reproductive organs but also on nonreproductive organs, including adipose tissue. Estrogen inhibits obesity triggered by ovariectomy in rodents. We studied the mechanism underlying this estrogen-dependent inhibition of obesity. Estrogen markedly decreased the amounts of fat accumulation and lipoprotein lipase (LPL) mRNA as well as triglyceride accumulation in genetically manipulated 3T3-L1 adipocytes stably expressing the estrogen receptor (ER). A pLPL(1980)-CAT construct, along with an ER expression vector, was introduced into differentiated 3T3-L1 cells, and CAT activities were determined. ER, mostly ligand-dependently, inhibited the basal LPL promoter activity by 7-fold. We searched the LPL promoter for an estrogen-responsive suppressive element by employing a set of 5-deletion mutants of the pLPL-CAT reporter. Although there was no classical estrogen response element, it was demonstrated that an AP-1-like TGAATTC sequence located at (؊1856/؊1850) was responsible for the suppression of the LPL gene transcription by estrogen. An electrophoretic mobility shift assay probed with the TGAATTC sequence demonstrated formation of a specific DNAnuclear protein complex. Interestingly, this complex was not affected by the addition of any antibodies against ER, c-Jun, c-Fos, JunB, or JunD. Because this TGAATTC element responded to phorbol ester and overexpression of CREB-binding protein abrogated the suppressive effect of estrogen on the LPL promoter, we conclude that a unique protein that is related to the AP-1 transcription factor families may be involved in the complex that binds to the TGAATTC element.

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Identification of an inducible glucosyltransferase from Phytolacca americana L. cells that are capable of glucosylating capsaicin

Kunikane

Homma

Liu

et al. 2009

Plant Biotechnology

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Involvement of epidermal growth factor in inducing adiposity of aged female mice

Adachi

Kurachi²,

Homma³

et al. 1995

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Aged mice exhibit an increase in their body weight (BW), which is associated with fat deposit increase. Epidermal growth factor (EGF) concentration in the submandibular gland also increases with aging. We examined the effects of elevated EGF on the adiposity of aged female mice. Studies were started in two groups of animals consisting of sham-operated (n = 10) and sialoadenectomized (n = 10, Sx; surgical removal of the submandibular glands) mice at 8 weeks of age. Body weight gain and food intake were measured throughout 78 weeks of age in these two groups. Body weight was significantly less in the Sx group throughout 78 weeks, while food intake was not changed by Sx after 12 weeks of age. To examine further if EGF plays a role in the induction of adiposity in aged female mice, sham-operated animals were given 100 microliters anti-EGF rabbit antiserum (anti-EGF group, n = 5) or normal rabbit serum (control group, n = 5) every 3 days, and Sx animals were given 5 micrograms/day EGF (Sx+EGF group, n = 5) or saline (Sx group, n = 5) from 78 weeks of age for 3 weeks. At 81 weeks of age, all animals of these four groups were killed, and carcass fat deposition and fat cell sizes were measured. Although the relative weights (weight ratio to BW) of the liver and kidney were not changed by Sx and anti-EGF treatment, the relative weights of mesenteric and subcutaneous fat tissues and adipocyte weights were significantly decreased in Sx and anti-EGF groups compared with the control group. Moreover, both acyl-CoA synthetase (ACS) and lipoprotein lipase (LPL) mRNA levels were significantly decreased by Sx or anti-EGF administration in mesenteric and subcutaneous fat tissues. On the other hand, EGF administration to Sx animals had no effect on BW, fat tissues and adipocyte weights, and ACS and LPL mRNA levels. The results, however, were consistent with the fact that adipose tissue EGF receptors were down regulated in Sx mice. These findings suggest that EGF may play a role in the induction of adiposity in aged female mice.

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Human Chorionic Gonadotropin-α Gene Is Transcriptionally Activated by Epidermal Growth Factor through cAMP Response Element in Trophoblast Cells

Matsumoto

Yamamoto

Kurachi

et al. 1998

Journal of Biological Chemistry

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The purpose of this study was to analyze the mechanism of transcriptional activation of human chorionic gonadotropin-␣ (hCG␣) gene by epidermal growth factor (EGF) in trophoblast cells. We stably transfected hCG␣ promoter-chloramphenicol acetyltransferase constructs into Rcho-1 trophoblast cells and monitored the promoter activities. ؊290-base pair hCG␣ promoter containing a tandem repeat of cAMP response element (CRE) was activated by EGF in a dose-and time-dependent manner. Deletion analysis of hCG␣ promoter suggested an involvement of CRE in EGF-induced hCG␣ transcriptional activation. Moreover, the hCG␣ promoter, of which both CREs were mutated, did not respond to EGF. These results indicate that EGF activates the hCG␣ gene transcription through CRE. Although EGF did not alter the amount of CRE-binding protein (CREB), EGF induced CREB phosphorylation. We next examined the mechanism of CREB phosphorylation by EGF. Protein kinase C inhibitors (H7, staurosporin, and chelerythrine) inhibited EGF-induced CREB phosphorylation, whereas either mitogen-activated protein kinase kinase-1 inhibitor (PD98059) or protein kinase A inhibitor (H8) showed no effect. Furthermore, H7 and staurosporin but not H8 inhibited hCG␣ promoter activation by EGF. In conclusion, EGF promotes hCG␣ gene transcription via the CRE region probably by phosphorylating CREB mainly through the protein kinase C pathway in trophoblast cells.

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Hiroaki Homma

Changes in Epidermal Growth Factor Receptor and the Levels of its Ligands during Menstrual Cycle in Human Endometrium

Estrogen Suppresses Transcription of Lipoprotein Lipase Gene

Identification of an inducible glucosyltransferase from Phytolacca americana L. cells that are capable of glucosylating capsaicin

Involvement of epidermal growth factor in inducing adiposity of aged female mice

Human Chorionic Gonadotropin-α Gene Is Transcriptionally Activated by Epidermal Growth Factor through cAMP Response Element in Trophoblast Cells

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