NCBI Summary:
The protein encoded by this gene is a glutathione-dependent prostaglandin E synthase. The expression of this gene has been shown to be induced by proinflammatory cytokine interleukin 1 beta (IL1B). Its expression can also be induced by tumor suppressor protein TP53, and may be involved in TP53 induced apoptosis. Knockout studies in mice suggest that this gene may contribute to the pathogenesis of collagen-induced arthritis and mediate acute pain during inflammatory responses. [provided by RefSeq, Jul 2008]
Bovine ovarian follicular growth and development correlate with lysophosphatidic acid expression. Sinderewicz E et al. (2017) The basis of successful reproduction is proper ovarian follicular growth and development. In addition to prostaglandins and vascular endothelial growth factor, a number of novel factors are suggested as important regulators of follicular growth and development: PGES, TFG, CD36, RABGAP1, DBI and BTC. This study focuses on examining the expression of these factors in granulosa and thecal cells that originate from different ovarian follicle types and their link with the expression of lysophosphatidic acid (LPA), known local regulator of reproductive functions in the cow. Ovarian follicles were divided into healthy, transitional, and atretic categories. The mRNA expression levels for PGES, TFG, CD36, RABGAP1, DBI and BTC in granulosa and thecal cells in different follicle types were measured by real-time PCR. The correlations among expression of enzymes synthesizing LPA (autotaxin, phospholipase A2), receptors for LPA and examined factors were measured. Immunolocalization of PGES, TFG, CD36, RABGAP1, DBI and BTC was examined by immunohistochemistry. We investigated follicle-type dependent mRNA expression of factors potentially involved in ovarian follicular growth and development, both in granulosa and thecal cells of bovine ovarian follicles. Strong correlations among receptors for LPA, enzymes synthesizing LPA, and the examined factors in healthy and transitional follicles were observed, with its strongest interconnection with TFG, DBI and RABGAP1 in granulosa cells, and TFG in thecal cells; whereas no correlations in atretic follicles were detected. A greater number of correlations were found in thecal cells than in granulosa cells as well as in healthy follicles than in transitional follicles. These data indicate the role of LPA in the growth, development and physiology of the bovine ovarian follicle.//////////////////
Expression regulated by
LH
Comment
Microsomal prostaglandin E synthase-1 (mPGES-1) is the primary form of PGES expressed by the primate periovulatory follicle Duffy DM, et al .
Department of Physiological Sciences, Eastern Virginia Medical School, 700 Olney Road, Lewis Hall, Norfolk, VA 23507, USA.
BACKGROUND: Prostaglandin E2 (PGE2) has been identified as the key ovulatory PG in the primate follicle. Follicular PGE2 levels increase just before the expected time of ovulation, suggesting that the midcycle LH surge induces the expression of enzymes involved in PGE2 synthesis. METHODS: To identify the specific form(s) of prostaglandin E synthase (PGES) expressed by the primate periovulatory follicle, we examined granulosa and theca cell expression of the three microsomal (m) and cytosolic (c) forms of PGES (mPGES-1, mPGES-2 and cPGES) identified to date. Monkey granulosa cells and whole monkey ovaries were obtained from animals receiving exogenous gonadotropins to stimulate multiple follicular development; monkeys then received an ovulatory dose of HCG to initiate periovulatory events. RESULTS: Expression of mPGES-1 mRNA and protein by granulosa cells of periovulatory follicles increased in response to HCG administration, peaking just before the expected time of ovulation. Immunocytochemistry showed that mPGES-1 protein was present in both granulosa and theca cells of monkey periovulatory follicles. Monkey granulosa cells also expressed mPGES-2 and cPGES mRNA, but mRNA levels did not change in response to HCG administration. Isolated monkey theca cells expressed both mPGES-1 and cyclooxygenase-2 mRNA, and produced PGE2 in vitro. Human granulosa-lutein cells obtained from women undergoing treatment for infertility expressed mRNAs for mPGES-1, mPGES-2 and cPGES. CONCLUSIONS: These data indicate that mPGES-1 is a gonadotropin-regulated PG synthesis enzyme expressed by granulosa cells of primate periovulatory follicles and suggest that mPGES-1 may be the primary PGES responsible for the increased follicular PGE2 levels necessary for primate ovulation.
Gene expression decreased. Luteinization of porcine preovulatory follicles leads to systematic changes in follicular gene expression. Agca C et al. The LH surge initiates the luteinization of preovulatory follicles and causes hormonal and structural changes that ultimately lead to ovulation and the formation of corpora lutea. The objective of the study was to examine gene expression in ovarian follicles (n = 11) collected from pigs (Sus scrofa domestica) approaching estrus (estrogenic preovulatory follicle; n = 6 follicles from two sows) and in ovarian follicles collected from pigs on the second day of estrus (preovulatory follicles that were luteinized but had not ovulated; n = 5 follicles from two sows). The follicular status within each follicle was confirmed by follicular fluid analyses of estradiol and progesterone ratios. Microarrays were made from expressed sequence tags that were isolated from cDNA libraries of porcine ovary. Gene expression was measured by hybridization of fluorescently labeled cDNA (preovulatory estrogenic or -luteinized) to the microarray. Microarray analyses detected 107 and 43 genes whose expression was decreased or increased (respectively) during the transition from preovulatory estrogenic to -luteinized (P<0.01). Cells within preovulatory estrogenic follicles had a gene-expression profile of proliferative and metabolically active cells that were responding to oxidative stress. Cells within preovulatory luteinized follicles had a gene-expression profile of nonproliferative and migratory cells with angiogenic properties. Approximately, 40% of the discovered genes had unknown function.
Ovarian localization
Oocyte, Granulosa, Luteal cells
Comment
Ultrastructural morphology of hypomelanosis in equine cutaneous papilloma. Hamada M et al. The morphology of hypomelanosis occurring in experimentally induced equine papillomas was investigated. Histologically, dopa-positive functioning melanocytes were decreased in number from the basal layer in the epidermis. Electron-microscopically, melanogenic organelles in the melanocytes were degenerate and melanosomes were decreased in number and size. In addition, the melanocytes had some abnormal melanosomes including melanosome complexes and giant melanosomes. Some abnormal melanosomes were also present in the keratinocytes. The hypomelanosis seemed to be related to a disturbance in melanin synthesis and melanocytic-keratinocytic interaction in the epidermal melanin unit.
Differential expression and regulation of prostaglandin E synthases in the mouse ovary during sexual maturation and luteal development. Sun T et al. Prostaglandin (PGE) 2 is the most common prostanoid and plays an important role in female reproduction. The aim of this study was to examine the expression and regulation of microsomal (m) PGE synthase (PGES)-1 and cytosolic (c) PGES in the mouse ovary during sexual maturation, gonadotropin treatment and luteal development by in situ hybridization and immunohistochemistry. Both mPGES-1 mRNA signals and immunostaining were localized in the granulosa cells, but not in the thecal cells and oocytes. cPGES mRNA signals were localized in both granulosa cells and oocytes, whereas cPGES immunostaining was exclusively localized in the oocytes. In our superovulated model of immature mice, there was a basal level of mPGES-1 mRNA signals in the granulosa cells at 48 h after equine chorionic gonadotropin (eCG) treatment. mPGES-1 mRNA level was induced by human chorionic gonadotropin (hCG) treatment for 0.5 h, whereas mPGES-1 immunostaining was slightly induced at 0.5 h after hCG treatment and reached a maximal level at 3 h after hCG treatment. eCG treatment had no obvious effects on either cPGES mRNA signals or immunostaining. A strong level of cPGES immunostaining was present in both unstimulated and eCG-treated groups. Both mPGES-1 mRNA signals and immunostaining were highly detected in the corpus luteum 2 days post-hCG injection and declined from days 3 to 7 post-hCG injection. cPGES immunostaining was at a basal level or not detectable from days 1 to 7 after hCG injection and was highly expressed in the corpus luteum from days 9 to 15 post-hCG injection. PGE2 biosynthesized through the mPGES-1 pathway may be important for follicular development, ovulation and luteal formation.
Follicle stages
Corpus luteum
Comment
The corpus luteum (CL) is a transient ovarian endocrine gland formed from the ovulated follicle. Progesterone (P4) is the primary secretory product of CL and essential for establishment of pregnancy in mammals. In the cyclic female, the life span of CL is characterized by luteal development, maintenance and regression regulated by complex interactions between luteotrophic and luteolytic mediators. It is universally accepted that PGF2a is the luteolysin while PGE2 is considered as a luteotropin in most mammals irrespective of origin either uterus and /or CL. New emerging concepts emphasize the autocrine and paracrine actions of luteal PGs in CL function. However, there is no report on selective biosynthesis and cellular transport of luteal PGE2 and PGF2alpha in the CL of any species. Arosh J et al 2004 have studied the expression of enzymes involved in the metabolism of PGE2 and PGF2alpha, cyclooxygenase (COX) 1 and 2, PG synthases (PGES and PGFS), prostaglandin 15-dehydrogenase (PGDH), and PG transporter (PGT) as well as receptors (EP2, EP3 and FP) throughout the CL life span using a bovine model. COX-1, PGFS and PGDH are expressed at constant levels whereas COX-2, PGES, PGT, EP2, EP3 and FP are highly modulated during different phases of the CL life span. The PG components are preferentially expressed in large luteal cells. The results indicate that PGE2 biosynthesis, transport and signaling cascades are selectively activated during luteal maintenance. By contrast PGF2alpha system is activated during luteal regression.