Your search keyword '"Laoharatchatathanin T"' showing total 9 results

1. Parallel expression patterns of NR4A nuclear receptor family genes in the pituitary gland of proestrus rats.

Author

Terashima R, Nagao D, Ikeo M, Morioka K, Laoharatchatathanin T, Kurusu S, and Kawaminami M

Subjects

Female, Rats, Animals, Proestrus physiology, Gonadotropin-Releasing Hormone metabolism, Gonadotropins metabolism, Pituitary Gland metabolism, Pituitary Gland, Anterior metabolism

Abstract

The NR4A nuclear receptor family (NR4As), encompassing NR4A1, NR4A2, and NR4A3, exerts pivotal roles in cellular processes through intricate expression patterns and interactions. Despite the influence of some NR4As on anterior pituitary functions regulated by the hypothalamus, their physiological expression patterns remain unclear. In our prior work, we demonstrated the specific upregulation of NR4A3 in the rat anterior pituitary gland during the proestrus afternoon, coinciding with a gonadotropin surge. In this study, we investigated changes in pituitary Nr4a gene expression throughout the estrous cycle in rats and a gonadotropin surge-induced model. Nr4a1 and Nr4a2 gene expression significantly increased during proestrus, aligning with previous observations for Nr4a3. Furthermore, prolactin gene expression increased sequentially with rising Nr4a gene expression, while thyroid-stimulating hormone beta gene expression remained stable. Immunohistochemistry revealed a widespread and differential distribution of NR4A proteins in the anterior pituitary, with NR4A1 and NR4A3 being particularly abundant in thyrotrophs, and NR4A2 in gonadotrophs. In estrogen-treated ovariectomized rats, elevated luteinizing hormone secretion corresponded to markedly upregulated expression of Nr4a1, Nr4a2, and Nr4a3. In gonadotroph and somatomammotroph cell lines, gonadotropin- and thyrotropin-releasing hormones transiently and dose-dependently increased the expression of Nr4a genes. These findings suggest that hypothalamic hormone secretion during proestrus may induce the parallel expression of pituitary Nr4a genes, potentially influencing the pituitary gene expression program related to endocrine functions before and after ovulation.

Published

2024

2. Mast Cell Dynamics in the Ovary Are Governed by GnRH and Prolactin.

Author

Laoharatchatathanin T, Rieanrakwong D, Hatsugai Y, Terashima R, Yonezawa T, Kurusu S, and Kawaminami M

Subjects

Female, Pregnancy, Animals, Prolactin metabolism, Mast Cells metabolism, RNA, Messenger metabolism, Gonadotropin-Releasing Hormone metabolism, Ovary metabolism

Abstract

Gonadotrophin releasing hormone (GnRH) facilitates the migration of mast cells (MCs) into the involuting mammary gland. As GnRH is also expressed in the ovary, we examined changes in ovarian MCs. MCs in the ovary were mainly in interstitial tissue and their number increased during the estrous cycle to produce 2 peaks, one at diestrus 2 (20:00 hours) and another at proestrus (17:00 hours). Laser microdissection demonstrated that GnRH mRNA is expressed throughout ovarian tissues (corpora lutea, follicles, and interstitial tissues). GnRH immunoreactivity was also ubiquitous, but MCs were the most strongly immunostained. Analysis of GnRH mRNA in the ovary showed it to fluctuate similarly to the variation in MC number during the estrous cycle, and MCs also expressed GnRH. Local administration of a GnRH agonist (GnRHa) into the hemilateral ovarian bursa increased MCs in the administered ovary. MC number and GnRH mRNA were significantly lowered in the pregnant ovary. Prolactin administration suppressed the normal peaks in MC number in the ovary at both diestrus and proestrus. By contrast, a dopamine agonist, administered when prolactin was elevated during pseudopregnancy, increased ovarian MC number. Furthermore, prolactin inhibited GnRHa-induced peritoneal MC migration in a Transwell assay. These data clearly demonstrate that ovarian MC number is regulated positively by local GnRH expression and negatively by prolactin. The suppressive effect of prolactin on GnRH and MCs would be part of its luteotrophic action., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Endocrine Society. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2023

3. Sequential preovulatory expression of a gonadotropin-releasing hormone-inducible gene, Nr4a3, and its suppressor Anxa5 in the pituitary gland of female rats.

Author

Terashima R, Laoharatchatathanin T, Kurusu S, and Kawaminami M

Subjects

Animals, Annexin A5 genetics, DNA-Binding Proteins genetics, Estrous Cycle genetics, Female, Gene Expression Regulation, Gonadotropin-Releasing Hormone analogs & derivatives, Gonadotropin-Releasing Hormone antagonists & inhibitors, Gonadotropin-Releasing Hormone pharmacology, Hormone Antagonists pharmacology, Luteinizing Hormone blood, Nerve Tissue Proteins genetics, Pituitary Gland drug effects, Rats, Receptors, FSH genetics, Receptors, FSH metabolism, Annexin A5 metabolism, DNA-Binding Proteins metabolism, Estrous Cycle metabolism, Nerve Tissue Proteins metabolism, Pituitary Gland metabolism

Abstract

Functional relationship between nuclear receptor subfamily 4 group A member 3 (Nr4a3) and annexin A5 (Anxa5), which are two gonadotropin-releasing hormone (GnRH)-inducible genes, has been established while evaluating pituitary gonadotropes in relation to follicle-stimulating hormone beta (Fshb) expression. However, the physiological variations that arise due to the differential expression of these genes in the pituitary gland during rat estrous cycle remain unknown. This study aimed to evaluate the Nr4a3 and Anxa5 mRNA expression during the estrous cycle in rats in comparison with the expression of the gonadotropin subunit genes, luteinizing hormone beta (Lhb) and Fshb. Nr4a3 mRNA expression showed a single peak at 1400 h of proestrus during the 4-d estrous cycle. Anxa5 mRNA level was elevated along with increased Fshb mRNA expression after the decline of Nr4a3 mRNA until 2300 h. Lhb mRNA expression levels were not significantly changed during the estrous cycle. Notably, addition of a GnRH antagonist at 1100 h completely eradicated luteinizing hormone secretion at 1400 h and 1700 h of proestrus, and significantly reduced the Nr4a3 mRNA expression level at both the time points. These results suggest that GnRH is, at least partly, responsible for the increase in pituitary Nr4a3, and that the interaction between NR4A3 and ANXA5 is required to regulate Fshb expression during the preovulatory gonadotropin surge.

Published

2021

4. Augmentation of Nr4a3 and Suppression of Fshb Expression in the Pituitary Gland of Female Annexin A5 Null Mouse.

Author

Terashima R, Saigo T, Laoharatchatathanin T, Kurusu S, Brachvogel B, Pöschl E, and Kawaminami M

Abstract

GnRH enhances the expression of annexin A5 (ANXA5) in pituitary gonadotropes, and ANXA5 enhances gonadotropin secretion. However, the impact of ANXA5 regulation on the expression of pituitary hormone genes remains unclear. Here, using quantitative PCR, we demonstrated that ANXA5 deficiency in female mice reduced the expression of Fshb and Gh in their pituitary glands. Transcriptome analysis confirmed a specific increase in Nr4a3 mRNA expression in addition to lower levels of Fshb expression in ANXA5-deficient female pituitary glands. This gene was then found to be a GnRH-inducible immediate early gene, and its increased expression caused protein to accumulate in the nucleus after administration of a GnRH agonist in LβT2 cells, which are an in vitro pituitary gonadotrope model. The increase in ANXA5 protein levels in LβT2 cells clearly suppressed Nr4a3 expression. siRNA-mediated inhibition of Nr4a3 expression increased Fshb expression. The results revealed that GnRH stimulates Nr4a3 and Anxa5 sequentially. NR4A3 suppression of Fshb may be necessary for later massive secretion of FSH by GnRH in gonadotropes, and Nr4a3 would be negatively regulated by ANXA5 to increase FSH secretion., (© Endocrine Society 2020.)

Published

2020

5. Effects of gonadotropin-releasing hormone agonist on human chorionic gonadotropin activity in granulosa cells of immature female rats.

Author

Tungmahasuk D, Fungbun N, Laoharatchatathanin T, Terashima R, Kurusu S, and Kawaminami M

Subjects

Animals, Annexin A5 agonists, Annexin A5 genetics, Annexin A5 metabolism, Biomarkers blood, Biomarkers metabolism, Cells, Cultured, Female, Gonadotropin-Releasing Hormone analogs & derivatives, Gonadotropin-Releasing Hormone genetics, Gonadotropin-Releasing Hormone metabolism, Gonadotropin-Releasing Hormone pharmacology, Gonadotropins, Equine pharmacology, Granulosa Cells cytology, Granulosa Cells metabolism, Humans, Immunohistochemistry, Ovary cytology, Ovary growth & development, Ovary metabolism, Progesterone agonists, Progesterone antagonists & inhibitors, Progesterone biosynthesis, Progesterone blood, Rats, Wistar, Receptors, FSH agonists, Receptors, FSH antagonists & inhibitors, Receptors, FSH genetics, Receptors, FSH metabolism, Receptors, LH agonists, Receptors, LH genetics, Receptors, LH metabolism, Chorionic Gonadotropin pharmacology, Fertility Agents, Female pharmacology, Gene Expression Regulation, Developmental drug effects, Gonadotropin-Releasing Hormone agonists, Granulosa Cells drug effects, Luteinization drug effects, Ovary drug effects

Abstract

Although the expression of gonadotropin-releasing hormone (GnRH) in the ovaries is well established, its physiological role remains unknown. The aim of this study was to determine whether ovarian GnRH mediates the actions of human chorionic gonadotropin (hCG) in the granulosa cells of immature female rats. Follicular growth was induced by administration of pregnant mare serum gonadotropin (PMSG, 15 IU/0.15 ml) on day 25 after birth, and hCG (20 IU/0.2 ml) was administered on day 27 revealing the increase of plasma progesterone level. Primary cultures of granulosa cells were established from large follicles 2 days after PMSG treatment. Progesterone synthesis was augmented by hCG in a dose-dependent manner. Annexin A5 (ANXA5), a biomarker of GnRH, was expressed in the granulosa-luteal cells after hCG treatment, as shown by immunohistochemistry, suggesting that hCG treatment induced GnRH action. The GnRH mRNA level was increased by hCG, and treatment with GnRH agonist (GnRHa) increased ANXA5 mRNA levels in the primary cultures of granulosa cells. Concomitant incubation of GnRH (10 -7 M) or GnRHa (fertirelin acetate, 10 -8 M) with hCG suppressed progesterone synthesis during a 3 h incubation period. The mRNA expression of luteinizing hormone receptor (LHR) and follicle-stimulating hormone receptor (FSHR) was synergistically stimulated and suppressed by hCG and GnRHa, respectively. GnRHa stimulated p21 expression, and GnRHa and hCG synergistically reduced the mRNA expression levels of p27 and FOXO1. These data suggest that GnRH induced by LH may have a role for the LH-mediated luteinization of granulosa cells. In addition, ANXA5 may be involved in GnRH action. GnRH-ANXA5 would be an important mechanism in cell differentiation.

Published

2018

6. Augmentation of gonadotropin-releasing hormone receptor expression in the post-lactational mammary tissues of rats.

Author

Terashima R, Laoharatchatathanin T, Kurusu S, and Kawaminami M

Subjects

Animals, Annexin A5 metabolism, Apoptosis, Epithelial Cells cytology, Exons, Female, Pituitary Gland, Anterior metabolism, Rats, Rats, Wistar, Gene Expression Regulation, Gonadotropin-Releasing Hormone metabolism, Lactation, Mammary Glands, Animal metabolism, Receptors, LHRH metabolism

Abstract

Gonadotropin-releasing hormone (GnRH) is a neurohormone of the hypothalamus controlling pituitary gonadotropin secretion and hence gametogenesis. While it has also been believed that GnRH is synthesized and functions in various peripheral tissues, the expression of GnRH receptor (GnRH-R) in peripheral tissues is not well-described. We previously found that annexin A5, which is increased in the pituitary gonadotropes by GnRH, is dramatically increased in rat mammary epithelial cells after weaning, suggesting that local GnRH is responsible for this increase. Annexin A5 is a member of the annexin family of proteins and is thought to be involved in various regulatory mechanisms, including apoptosis. In the present study, we examined GnRH-R expression in the mammary tissues after weaning. Although GnRH-R mRNA was not detected in the mammary tissues during lactation, it was dramatically increased after weaning. Forced weaning at mid-lactation (day 10) also promoted the expression of GnRH-R transcripts in mammary tissues within 2 days. Furthermore, western blotting analysis with anti-GnRH-R showed that the expression of an immuno-positive 60-kDa protein, whose size was equivalent to that of rat GnRH-R, was confirmed to increase after weaning. These findings clarified the induction of GnRH-R in the mammary tissues after weaning and suggest that GnRH is involved in the involution and tissue remodeling of post-lactating rat mammary tissues.

Published

2016

7. Prolactin Suppression of Gonadotropin-Releasing Hormone Initiation of Mammary Gland Involution in Female Rats.

Author

Rieanrakwong D, Laoharatchatathanin T, Terashima R, Yonezawa T, Kurusu S, Hasegawa Y, and Kawaminami M

Subjects

Animals, Annexin A5 genetics, Female, Gonadotropin-Releasing Hormone analogs & derivatives, Gonadotropin-Releasing Hormone antagonists & inhibitors, Gonadotropin-Releasing Hormone genetics, Gonadotropin-Releasing Hormone pharmacology, Hormone Antagonists pharmacology, Lactation metabolism, Mammary Glands, Animal drug effects, Mast Cells metabolism, Milk metabolism, Rats, Rats, Wistar, Annexin A5 metabolism, Apoptosis drug effects, Gonadotropin-Releasing Hormone metabolism, Mammary Glands, Animal metabolism, Prolactin blood

Abstract

It has been demonstrated that mammary gland involution after lactation is initiated by accumulation of milk in alveoli after weaning. Here, we report that involution is also dependent on mammary GnRH expression that is suppressed by PRL during lactation. Reduction of plasma prolactin (PRL) by the withdrawal of suckling stimuli increased GnRH and annexin A5 (ANXA5) expression in the mammary tissues after lactation with augmentation of epithelial apoptosis. Intramammary injection of a GnRH antagonist suppressed ANXA5 expression and apoptosis of epithelial cells after forcible weaning at midlactation, whereas local administration of GnRH agonist (GnRHa) caused apoptosis of epithelial cells with ANXA5 augmentation in lactating rats. The latter treatment also decreased mammary weight, milk production, and casein accumulation. Mammary mast cells were strongly immunopositive for GnRH and the number increased in the mammary tissues after weaning. GnRHa was shown to be a chemoattractant for mast cells by mammary local administration of GnRHa and Boyden chamber assay. PRL suppressed the mammary expression of both ANXA5 and GnRH mRNA. It also decreased mast cell numbers in the gland after lactation. These results are the first to demonstrate that GnRH, synthesized locally in the mammary tissues, is required for mammary involution after lactation. GnRH is also suggested to introduce mast cells into the regressing mammary gland and would be in favor of tissue remodeling. The suppression of these processes by PRL is a novel physiological function of PRL.

Published

2016

8. Augmentation of Metastin/Kisspeptin mRNA Expression by the Proestrous Luteinizing Hormone Surge in Granulosa Cells of Rats: Implications for Luteinization.

Author

Laoharatchatathanin T, Terashima R, Yonezawa T, Kurusu S, and Kawaminami M

Subjects

Animals, Corpus Luteum drug effects, Corpus Luteum metabolism, Dynorphins genetics, Dynorphins metabolism, Female, Granulosa Cells drug effects, Kisspeptins genetics, Luteinization genetics, Peptides pharmacology, Proestrus drug effects, Proestrus genetics, RNA, Messenger genetics, RNA, Messenger metabolism, Rats, Rats, Wistar, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled metabolism, Receptors, Kisspeptin-1, Gene Expression Regulation, Granulosa Cells metabolism, Kisspeptins metabolism, Luteinization metabolism, Luteinizing Hormone metabolism, Proestrus metabolism

Abstract

Variations in mRNA levels and sources of metastin/kisspeptin, neurokinin B (NKB), dynorphin, and kisspeptin receptor GPR54 were examined in the ovaries of cycling rats. Kisspeptin and dynorphin mRNAs dramatically increased at 2000 h of the proestrous day. NKB mRNA also increased, but the peak was delayed by 6 h. GPR54 mRNA declined inversely with kisspeptin. Whole-ovary expressions of kisspeptin and dynorphin mRNAs, but not of NKB mRNA, were augmented by the administration of human chorionic gonadotropin (hCG). By means of laser-capture microdissection, kisspeptin mRNA was shown mostly in follicles at 2000 h of proestrus, whereas NKB and dynorphin were expressed mainly in interstitial tissues. GPR54 mRNA was detected equally in follicles, corpora lutea, and interstitial tissues. The hCG stimulated the follicular expression of kisspeptin and interstitial tissue expression of dynorphin mRNA. In primary cultures of granulosa cells prepared from equine chorionic gonadotropin-pretreated immature rats, hCG stimulated the expression of kisspeptin, dynorphin, and NKB mRNAs. Distortion of the corpus luteum and surrounding tissue borders was sometimes seen after intra-ovarian bursa administration of kisspeptin antagonist p234 for 3 days from proestrus. Progesterone production stimulated by hCG in granulosa cell culture was suppressed by p234. These data demonstrate that significant amounts of kisspeptin are synthesized in granulosa cells and dynorphin in interstitial tissues, in response to the proestrous luteinizing hormone surge, whereas granulosa cells also contain dynorphin and NKB, suggesting at least a role for kisspeptin in the luteinization of granulosa cells., (© 2015 by the Society for the Study of Reproduction, Inc.)

Published

2015

9. Loss of maternal annexin A5 increases the likelihood of placental platelet thrombosis and foetal loss.

Author

Ueki H, Mizushina T, Laoharatchatathanin T, Terashima R, Nishimura Y, Rieanrakwong D, Yonezawa T, Kurusu S, Hasegawa Y, Brachvogel B, Pöschl E, and Kawaminami M

Subjects

Animals, Anticoagulants administration & dosage, Antiphospholipid Syndrome genetics, Antiphospholipid Syndrome pathology, Blood Platelets metabolism, Female, Heparin administration & dosage, Humans, Integrin beta3 metabolism, Mice, Pregnancy, Abortion, Spontaneous genetics, Abortion, Spontaneous pathology, Annexin A5 genetics, Annexin A5 metabolism, Placenta blood supply, Placenta metabolism, Placental Circulation genetics, Thrombosis genetics

Abstract

Antiphospholipid syndrome is associated with an increased risk of thrombosis and pregnancy loss. Annexin A5 (Anxa5) is a candidate autoantigen. It is not known, however, whether endogenous Anxa5 prevents foetal loss during normal pregnancy. We found significant reductions in litter size and foetal weight in Anxa5-null mice (Anxa5-KO). These changes occurred even when only the mother was Anxa5-KO. A small amount of placental fibrin deposition was observed in the decidual tissues, but did not noticeably differ between wild-type and Anxa5-KO mice. However, immunoreactivity for integrin beta 3/CD61, a platelet marker, was demonstrated within thrombi in the arterial canals only in Anxa5-KO mothers. Subcutaneous administration of the anticoagulant heparin to pregnant Anxa5-KO mice significantly reduced pregnancy loss, suggesting that maternal Anxa5 is crucial for maintaining intact placental circulation. Hence, the presence of maternal Anxa5 minimises the risk of thrombosis in the placental circulation and reduces the risk of foetal loss.

Published

2012