Your search keyword '"Kyong Park"' showing total 10 results

1. Transactivation of the Parathyroid Hormone Promoter by Specificity Proteins and the Nuclear Factor Y Complex

Author

Ok-Kyong Park-Sarge, Alexander P. Alimov, Hartmut H. Malluche, Kevin D. Sarge, and Nicholas J. Koszewski

Subjects

Transcriptional Activation, medicine.medical_specialty, Parathyroid hormone, Biology, Polymerase Chain Reaction, Cell Line, Transactivation, chemistry.chemical_compound, Endocrinology, Genes, Reporter, Transcription (biology), Internal medicine, medicine, Animals, Humans, Nuclear protein, Binding site, Luciferases, Promoter Regions, Genetic, Enhancer, Conserved Sequence, DNA Primers, Base Sequence, Promoter, Molecular biology, CCAAT-Binding Factor, chemistry, Mutagenesis, Parathyroid Hormone, Cattle, Drosophila, DNA, Transcription Factors

Abstract

We previously identified a highly conserved specificity protein 1 (Sp1) DNA element in mammalian PTH promoters that acted as an enhancer of gene transcription and bound Sp1 and Sp3 proteins present in parathyroid gland nuclear extracts. More recently, a nuclear factor (NF)-Y element (NF-Yprox) was also described by our group, which was located approximately 30 bp downstream from the Sp1 site in the human PTH (hPTH) promoter and by itself acted as a weak enhancer of gene transcription. We now report that Sp proteins and NF-Y can synergistically enhance transcription of a minimal hPTH promoter construct. Positioning of the Sp1 DNA element appears to be critical for this synergism because deviations of one half of a helical turn caused an approximate 60% decrease in transactivation. Finally, examination of the bovine PTH (bPTH) promoter also revealed Sp1/NF-Y synergism, in conjunction with the identification of an analogous NF-Y binding site similarly positioned downstream from the bPTH Sp1 element. In summary, synergistic transactivation of the hPTH and bPTH promoters is observed by Sp proteins and the NF-Y complex. The conservation of this transactivation in the human and bovine promoters suggests that this may be a principle means of enhancing PTH gene transcription.

Published

2005

2. Contrasting Mammalian Parathyroid Hormone (PTH) Promoters: Nuclear Factor-Y Binds to a Deoxyribonucleic Acid Element Unique to the Human PTH Promoter and Acts as a Transcriptional Enhancer

Author

M. Chris Langub, Ok-Kyong Park-Sarge, Hartmut H. Malluche, Alexander P. Alimov, and Nicholas J. Koszewski

Subjects

medicine.medical_specialty, Sp1 Transcription Factor, Parathyroid hormone, Biology, Cell Line, chemistry.chemical_compound, Endocrinology, Internal medicine, medicine, Animals, Drosophila Proteins, Humans, Point Mutation, Promoter Regions, Genetic, Enhancer, Gene, Transcription factor, Conserved Sequence, Binding Sites, Base Sequence, Point mutation, Promoter, DNA, Opossums, Molecular biology, Enhancer Elements, Genetic, CCAAT-Binding Factor, chemistry, Parathyroid Hormone, Drosophila, Nuclear localization sequence, Transcription Factors

Abstract

The identification of a highly conserved specificity protein 1 (Sp1) DNA element in mammalian PTH promoters was recently reported. However, the presence of a novel DNA-binding complex was subsequently observed exclusively with the human PTH (hPTH) Sp1 element in mobility shift studies. Point mutations in the hPTH Sp1 element revealed the factor recognized a CAAT-like sequence resulting from a single nucleotide difference unique to the human sequence relative to other mammalian promoters. A consensus nuclear factor Y (NF-Y) element was able to specifically compete for formation of the novel complex, whereas antiserum directed against the B-subunit of NF-Y supershifted the complex without disturbing binding by the Sp3/Sp1 proteins. Moreover, immunocytochemistry confirmed the nuclear localization of NF-Y in parathyroid gland cells. Transient expression of a dominant negative form of NF-Y impaired basal hPTH promoter activity in opossum kidney cells. Studies in Drosophila SL2 cells revealed that an intact NF-Y complex was required to strongly activate transcription from the hPTH promoter, and mutational analysis confirmed the identity of the NF-Y and Sp1 DNA elements. Finally, coexpression studies in SL2 cells indicated that NF-Y and Sp1 competed for binding to their adjoining sites in the hPTH promoter. In summary, an NF-Y enhancer DNA element has been identified that is uniquely positioned in the hPTH promoter and partially overlaps with the species-conserved Sp1 element. Binding appears to be mutually exclusive by the two transcription factors to this site and suggests that separate signaling pathways may be using this DNA locus to enhance transcription of the hPTH gene.

Published

2004

3. Differential Roles for Signal Transducers and Activators of Transcription 5a and 5b in PRL Stimulation of ERα and ERβ Transcription

Author

Carlos M. Telleria, Ok Kyong Park-Sarge, Michael Byers, Geula Gibori, Jonna Frasor, Li Yuan Yu-Lee, Kyungsoo Park, Jean Djiane, and Toshio Kitamura

Subjects

Transcriptional Activation, endocrine system, Molecular Sequence Data, STAT5B, Stimulation, CHO Cells, Receptors, Estradiol, Biology, STAT5A, Rats, Sprague-Dawley, STAT5B Gene, Endocrinology, Pregnancy, Transcription (biology), Cricetinae, Chlorocebus aethiops, STAT5 Transcription Factor, Animals, Estrogen Receptor beta, Promoter Regions, Genetic, Molecular Biology, Transcription factor, STAT5, Binding Sites, Base Sequence, Estrogen Receptor alpha, General Medicine, Milk Proteins, Molecular biology, Prolactin, Rats, DNA-Binding Proteins, Receptors, Estrogen, COS Cells, Mutagenesis, Site-Directed, Trans-Activators, STAT protein, biology.protein, Female, hormones, hormone substitutes, and hormone antagonists, Signal Transduction

Abstract

PRL has been shown to stimulate mRNA expression of both ERalpha and ERbeta in the rat corpus luteum and decidua of pregnancy. To investigate whether PRL may stimulate ER expression at the level of transcription and which transcription factors may mediate this stimulation, we have cloned the 5'-flanking regions of both rat ER genes. A constitutively active PRL receptor (PRL-R(CA)) stimulated both ERalpha and ERbeta promoter activity, indicating that PRL is acting to stimulate ER transcription. Putative signal transducer and activator of transcription (Stat)5 response elements were identified at -189 in the ERalpha promoter and at -330 in the ERbeta promoter. Mutation of these response elements or overexpression of dominant negative Stat5 prevented stimulation of ERalpha and ERbeta promoter activity, indicating that PRL regulation of ER expression requires both intact Stat5 binding sites as well as functional Stat5. Interestingly, either Stat5a or Stat5b could stimulate ERalpha transcription while stimulation of ERbeta occurred only in the presence of Stat5b. Through mutational analysis, a single nucleotide difference between the ERalpha and ERbeta Stat5 response elements was shown to be responsible for the lack of Stat5a-mediated stimulation of ERbeta. These findings indicate that PRL stimulation of ER expression occurs at the level of transcription and that PRL regulation of ERalpha can be mediated by either Stat5a or Stat5b, while regulation of ERbeta appears to be mediated only by Stat5b.

Published

2001

4. Role of Progesterone Receptor Activation in Pituitary Adenylate Cyclase Activating Polypeptide Gene Expression in Rat Ovary1

Author

CheMyong Ko, Yong-Ho In, and Ok-Kyong Park-Sarge

Subjects

endocrine system, medicine.medical_specialty, Messenger RNA, Forskolin, Granulosa cell, In situ hybridization, Biology, Molecular biology, chemistry.chemical_compound, Endocrinology, medicine.anatomical_structure, chemistry, Internal medicine, Progesterone receptor, Gene expression, medicine, Ovarian follicle, hormones, hormone substitutes, and hormone antagonists, Cellular localization

Abstract

It is well known that the pituitary gonadotropin surge induces progesterone receptor (PR) gene expression in luteinizing granulosa cells and that PR activation is critical for successful ovulation. To further understand the molecular mechanism(s) by which PR plays a role critical for granulosa cell functions, we wanted to identify progesterone-induced genes in granulosa cells. We employed a PCRbased subtraction cloning strategy to screen for genes expressed differentially in granulosa cells that were challenged with forskolin in the presence of progesterone or ZK98299. One such differentially expressed clone was identified as the pituitary adenylate cyclase activating polypeptide (PACAP). To begin to understand the relationship between PR activation and PACAP gene expression in luteinizing granulosa cells, we examined whether PR and PACAP messenger RNA (mRNA) expression is temporally correlated. In cultured granulosa cells, both human CG and forskolin induced PR and PACAP mRNA levels in a dose-dependent manner, as determined by semiquantitative RT-PCR assays. However, the peak expression for PR and PACAP mRNAs was observed at 3 h and 6 h after hormone treatment, respectively. This time difference in cAMP-responsive expression of the PR and PACAP genes is due, at least in part, to the requirement of ongoing protein synthesis for PACAP expression, as demonstrated by the inhibitory effect of cycloheximide on cAMPinduced PACAP, but not PR, mRNA levels. To determine whether PR synthesis is prerequisite for PACAP expression, we examined the effect of ZK98299, a specific PR antagonist, on cAMP-induced PACAP mRNA expression. This compound blocked cAMP-induced PACAP mRNA expression in a dose-dependent manner, indicating that PR activation is required for PACAP gene expression in granulosa cells. We then compared cellular localization and hormonal regulation of ovarian PR and PACAP gene expression in immature rats treated with gonadotropins as well as in adult rats during the preovulatory period by using in situ hybridization and semiquantitative RT-PCR assays. Results show that both PR and PACAP mRNAs are induced in granulosa cells of preovulatory follicles by human CG, but that the PR gene is expressed before the PACAP gene. Taken together, these results demonstrate that PRs mediate the LH-induced PACAP gene expression in rat granulosa cells. (Endocrinology 140: 5185‐5194, 1999)

Published

1999

5. Characterization of Estrogen Receptor-β (ERβ) Messenger Ribonucleic Acid and Protein Expression in Rat Granulosa Cells1

Author

Yong-Ho In, Ok-Kyong Park-Sarge, Michelle L. O'Brien, and Kyungsoo Park

Subjects

Hormone response element, endocrine system, medicine.medical_specialty, Granulosa cell, Estrogen receptor, Transfection, Biology, Molecular biology, Blot, Endocrinology, Internal medicine, medicine, Electrophoretic mobility shift assay, Estrogen receptor alpha, hormones, hormone substitutes, and hormone antagonists, Estrogen receptor beta

Abstract

We have examined estrogen-responsiveness of ovarian granulosa cells by focusing on estrogen receptor (ER) expression. Estrogen responsiveness was determined by examining the effect of 17β-estradiol (1–10 nm) on luciferase reporter activity in rat granulosa cells transfected with an ERE-luciferase construct. The results demonstrate an estrogen-induced (approximately 3-fold) increase in luciferase reporter activity, indicating that granulosa cells contain functional estrogen response element (ERE)-binding transcriptional activators. Gel mobility shift assays in combination with ER antibodies show that ERβ is the predominant ERE-binding protein in granulosa cells. Western blotting results show that granulosa cells contain ERβ-immunoreactive protein(s) migrating at a size substantially larger than the recombinant protein generated from the originally proposed 485 amino acid open-reading frame. This size discrepancy is not due to granulosa cell expression of ERβ isoforms with insertions within the coding regio...

Published

1999

6. Differential Expression of the Estrogen Receptors α and β in the Rat Corpus Luteum of Pregnancy: Regulation by Prolactin and Placental Lactogens1

Author

R. K. Srivastava, Santanu Deb, Ok-Kyong Park-Sarge, G. Gibori, Kyungsoo Park, Carlos M. Telleria, N. Sugino, and L. Zhong

Subjects

endocrine system, medicine.medical_specialty, Pregnancy, Messenger RNA, medicine.drug_class, Estrogen receptor, In situ hybridization, Biology, medicine.disease, Prolactin, Endocrinology, medicine.anatomical_structure, Estrogen, Internal medicine, Placenta, medicine, Corpus luteum, hormones, hormone substitutes, and hormone antagonists

Abstract

Estradiol, together with PRL and placental lactogens, regulates steroidogenesis and cell hypertrophy in the rat corpus luteum of pregnancy. Although binding experiments have demonstrated the presence of estrogen-binding sites, no evidence exists as to whether the rat corpus luteum of pregnancy expresses the estrogen receptor (ER) genes. In this investigation, we have analyzed the expression of the two ER genes (ERα and ERβ) (by RT-PCR and in situ hybridization) in the rat corpus luteum, studied their developmental changes throughout pregnancy, and investigated the regulation of ERα and ERβ messenger RNA (mRNA) expression by PRL and placental lactogens. The RT-PCR studies showed that both ER mRNA species (ERα and ERβ) are coexpressed in the rat corpus luteum during pregnancy. Whereas ERα mRNA increased from early pregnancy, reached a maximum at midpregnancy, and had a remarkable decline before parturition; ERβ mRNA remained constant throughout pregnancy, with a significant decline at parturition. Examinati...

Published

1998

7. Estrogen Receptor-β mRNA Expression in Rat Ovary: Down-Regulation by Gonadotropins

Author

George G. J. M. Kuiper, Michael Byers, Ok Kyong Park-Sarge, and Jan-Åke Gustafsson

Subjects

Ovulation, medicine.medical_specialty, Gonadotropins, Equine, Granulosa cell, Down-Regulation, Estrogen receptor, Ovary, In situ hybridization, Luteal Phase, Biology, Chorionic Gonadotropin, Rats, Sprague-Dawley, Endocrinology, Estrus, Ovarian Follicle, Internal medicine, medicine, Animals, RNA, Messenger, Northern blot, Ovarian follicle, Molecular Biology, Cells, Cultured, Messenger RNA, Granulosa Cells, Uterus, Age Factors, Gene Expression Regulation, Developmental, General Medicine, Receptors, LH, Blotting, Northern, Rats, medicine.anatomical_structure, Gene Expression Regulation, Receptors, Estrogen, Female, Estrogen receptor alpha, Gonadotropins

Abstract

We have examined the expression and regulation of the two estrogen receptor (ER alpha and ER beta) genes in the rat ovary, using Northern blotting, RT-PCR, and in situ hybridization histochemistry. Northern blotting results show that the ovary expresses both ER alpha and ER beta genes as single (approximately 6.5-kb) and multiple (ranging from approximately 1.0-kb to approximately 10.0-kb) transcripts, respectively. ER alpha mRNA is expressed at a level lower than ER beta mRNA in immature rat ovaries. This relationship appears unchanged between sexually mature adult rats and immature rats. In sexually mature adult rats undergoing endogenous hormonal changes, whole ovarian content of ER beta mRNA, as determined by RT-PCR, remained more or less constant with the exception of the evening of proestrus when ER beta mRNA levels were decreased. Examination of ER beta mRNA expression at the cellular level, by in situ hybridization, showed that ER beta mRNA is expressed preferentially in granulosa cells of small, growing, and preovulatory follicles, although weak expression of ER beta mRNA was observed in a subset of corpora lutea, and that the decrease in ER beta mRNA during proestrous evening is attributable, at least in part, to down-regulation of ER beta mRNA in the preovulatory follicles. This type of expression and regulation was not typical for ER alpha mRNA in the ovary. Although whole ovarian content of ER alpha mRNA was clearly detected by RT-PCR, no apparent modulation of ER alpha mRNA levels was observed during the estrous cycle. Examination of ER alpha mRNA expression at the cellular level, by in situ hybridization, showed that ER alpha mRNA is expressed at a low level throughout the ovary with no particular cellular localization. To further examine the potential role of the preovulatory pituitary gonadotropins in regulating ER beta mRNA expression in the ovary, we used immature rats treated with gonadotropins. In rats undergoing exogenous hormonal challenges, whole ovarian content of ER beta mRNA, as determined by RT-PCR, remained more or less unchanged after an injection of PMSG. In contrast, a subsequent injection of human CG (hCG) resulted in a substantial decrease in whole ovarian content of ER beta mRNA. In situ hybridization for ER beta mRNA shows that small, growing, and preovulatory follicles express ER beta mRNA in the granulosa cells. The preovulatory follicles contain ER beta mRNA at a level lower than that observed for small and growing follicles. In addition, there is an abrupt decrease in ER beta mRNA expression in the preovulatory follicles after hCG injection. The inhibitory effect of hCG on ER beta mRNA expression was also observed in cultured granulosa cells. Moreover, agents stimulating LH/CG receptor-associated intracellular signaling pathways (forskolin and a phorbol ester) readily mimicked the effect of hCG in down-regulating ER beta mRNA in cultured granulosa cells. Taken together, our results demonstrate that 1) the ovary expresses both ER alpha and ER beta genes, although ER beta is the predominant form of estrogen receptor in the ovary, 2) ER beta mRNA is localized predominantly to the granulosa cells of small, growing, and preovulatory follicles, and 3) the preovulatory LH surge down-regulates ER beta mRNA. These results clearly implicate the physiological importance of ER beta in female reproductive functions.

Published

1997

8. Cis-regulatory elements conferring cyclic 3',5'-adenosine monophosphate responsiveness of the progesterone receptor gene in transfected rat granulosa cells

Author

Kevin D. Sarge and Ok-Kyong Park-Sarge

Subjects

medicine.medical_specialty, Molecular Sequence Data, CAAT box, Biology, Transfection, chemistry.chemical_compound, Endocrinology, Transcription (biology), Internal medicine, Cyclic AMP, medicine, Animals, Luciferase, Promoter Regions, Genetic, Transcription factor, Gene, Cells, Cultured, Messenger RNA, Binding Sites, Granulosa Cells, Forskolin, Base Sequence, Molecular biology, Rats, chemistry, Female, Receptors, Progesterone

Abstract

We have previously shown that both pituitary gonadotropins and forskolin induce progesterone receptor (PR) messenger RNA expression at the level of transcription in granulosa cells of the rat ovary. To determine the DNA regulatory elements that are important for cAMP-induced transcription of the PR gene in the ovary, we examined the cAMP-induced activity of promoter sequences in rat granulosa cells transfected with various fusion constructs containing PRB promoter sequences linked to the luciferase reporter gene. When cells were transfected with a luciferase fusion construct containing the 1375-base pair 5'-flanking region of the rat PRB gene, forskolin treatment substantially increased luciferase activity. Analysis of a series of 5'-deletion mutants indicated that a minimal PRB promoter containing 116 base pairs of upstream sequence (-116/3) was sufficient to increase luciferase activity in response to forskolin in transfected rat granulosa cells. This promoter contains a consensus CCAAT site in reverse orientation (5'-ATTGG-3') and a consensus GC box (5'-GGGGCGGGCC-3'), but no known cAMP-responsive element. Site-specific mutation of the GC box notably decreased both basal and cAMP-induced activity of this minimal PRB promoter. In addition, site-specific mutation of the CCAAT binding site within this proximal promoter of the PRB gene substantially decreased cAMP-induced activity, but did not significantly affect the basal activity of this promoter. Either mutation alone failed to abolish cAMP inducibility. In contrast, double mutation of both the GC box and the CCAAT box completely abolished cAMP inducibility, suggesting that the GC box and the CCAAT box act together to mediate cAMP-induced transcription of the PRB gene. Gel shift analysis shows that the minimal PRB promoter sequences form multiple complexes with nuclear proteins of granulosa cells, all of which are specifically competed by oligonucleotides containing the GC box and the CCAAT box. Taken together, our results suggest a functional role for transcription factors binding the GC box and the CCAAT box in mediating cAMP-induced transcription of the rat PRB promoter in rat granulosa cells.

Published

1995

9. Regulation of the progesterone receptor gene by gonadotropins and cyclic adenosine 3',5'-monophosphate in rat granulosa cells

Author

Ok Kyong Park-Sarge and Kelly E. Mayo

Subjects

endocrine system, medicine.medical_specialty, Transcription, Genetic, medicine.drug_class, Granulosa cell, Molecular Sequence Data, Response element, 8-Bromo Cyclic Adenosine Monophosphate, Biology, Transfection, Chorionic Gonadotropin, Polymerase Chain Reaction, Rats, Sprague-Dawley, chemistry.chemical_compound, Endocrinology, Sequence Homology, Nucleic Acid, Internal medicine, Progesterone receptor, Gene expression, Cyclic AMP, medicine, Animals, Humans, RNA, Messenger, Ovarian follicle, Luciferases, Promoter Regions, Genetic, Cells, Cultured, DNA Primers, Granulosa Cells, Forskolin, Base Sequence, Estradiol, Colforsin, Luteinizing Hormone, TATA Box, Rats, medicine.anatomical_structure, Gene Expression Regulation, chemistry, Female, Rabbits, Follicle Stimulating Hormone, Gonadotropin, Receptors, Progesterone

Abstract

We have examined the effects of the pituitary gonadotropins on expression of the progesterone receptor (PR) gene in rat ovary and in granulosa cell cultures. Both gonadotropins (LH/hCG and FSH) rapidly induce PR mRNA expression in the granulosa cells of preovulatory follicles in vivo. Gonadotropins also effectively induce PR mRNA expression in primary cultures of rat granulosa cells, and this action can be mimicked by agents that elevate intracellular cAMP (forskolin or 8-bromo-cAMP). Estrogen does not induce PR mRNA expression in these cells. The cAMP-induced PR mRNA expression in rat granulosa cells is blocked by an inhibitor of transcription, but not by an inhibitor of protein synthesis. Structural characterization of the rat PR gene 5'-flanking region indicates that the proximal promoter does not contain a consensus cAMP response element. However, when luciferase fusion genes containing a 1375-basepair rat PR gene promoter were transiently transfected into rat granulosa cells, luciferase activity could be stimulated several-fold by hCG or forskolin, but not by estrogen. These results indicate that gonadotropins, most likely acting through a pathway mediated by cAMP, are able to stimulate transcription of the PR gene in rat granulosa cells and suggest a mechanism for regulating the intraovarian actions of progesterone.

Published

1994

10. Transient Expression of Progesterone Receptor Messenger RNA in Ovarian Granuiosa Cells after the Preovulatory Luteinizing Hormone Surge

Author

Ok Kyong Park and Kelly E. Mayo

Subjects

Gonadotropins, Equine, Molecular Sequence Data, Gene Expression, Ovary, In situ hybridization, Biology, Chorionic Gonadotropin, Polymerase Chain Reaction, Endocrinology, Estrus, Complementary DNA, Progesterone receptor, Gene expression, medicine, Animals, Amino Acid Sequence, RNA, Messenger, Molecular Biology, Messenger RNA, Granulosa Cells, Immature animal, Base Sequence, cDNA library, Rats, Inbred Strains, DNA, General Medicine, Luteinizing Hormone, Molecular biology, Rats, medicine.anatomical_structure, Female, Receptors, Progesterone

Abstract

The ovarian steroid progesterone affects reproductive physiology by regulating the expression of specific genes in target tissues. In an attempt to address the question of whether the ovary itself is a target tissue for progesterone action, we have examined the localization and regulation of progesterone receptor (PR) mRNA in the rat ovary. We used the polymerase chain reaction to clone the steroid-binding domain of the rat PR from uterine cDNA and used this as a probe to isolate a larger cDNA from a rat placental cDNA library. We used RNA filter hybridization, a quantitative reverse transcription-polymerase chain reaction amplification assay, and in situ hybridization to detect PR mRNA in the rat ovary. Expression of the PR gene was initially studied in an immature animal model; 23-day-old rats were treated with either PMSG or PMSG followed by hCG. We found little or no PR mRNA in the ovaries of control or PMSG-treated animals; however, the mRNA was highly expressed in the granulosa cells of large follicles in the ovaries of animals treated with PMSG followed by hCG. Other cell types, including thecal and interstitial cells, did not express detectable levels of PR mRNA. The PR mRNA was induced more than 20-fold in the immature ovary 5 h after hCG administration and was down-regulated to near-basal levels by 12 h after hCG administration. In a subsequent series of experiments, we examined PR gene expression in adult rats during the estrous cycle. The expression of PR mRNA was transient and was tightly coupled to the preovulatory LH surge on proestrous evening. PR mRNA was localized to the granulosa cells of mature ovarian follicles during the estrous cycle. In cycling animals treated with pentobarbital to block the preovulatory LH surge, no induction of PR mRNA on proestrous evening was observed. This transient, hormonally regulated, and cell-specific expression of the PR gene in the rat ovary strongly suggests an important intraovarian function for progesterone during the rat reproductive cycle.

Published

1991