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fibroblast growth factor 18 OKDB#: 4300
 Symbols: FGF18 Species: human
 Synonyms: ZFGF5, FGF-18  Locus: 5q35.1 in Homo sapiens


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General Comment NCBI Summary: The protein encoded by this gene is a member of the fibroblast growth factor (FGF) family. FGF family members possess broad mitogenic and cell survival activities, and are involved in a variety of biological processes, including embryonic development, cell growth, morphogenesis, tissue repair, tumor growth, and invasion. It has been shown in vitro that this protein is able to induce neurite outgrowth in PC12 cells. Studies of the similar proteins in mouse and chick suggested that this protein is a pleiotropic growth factor that stimulates proliferation in a number of tissues, most notably the liver and small intestine. Knockout studies of the similar gene in mice implied the role of this protein in regulating proliferation and differentiation of midline cerebellar structures. [provided by RefSeq, Jul 2008]
General function Ligand, Growth factor
Comment
Cellular localization Secreted
Comment
Ovarian function Follicle atresia, Steroid metabolism
Comment Fibroblast growth factor 18 regulates steroidogenesis in fetal bovine ovarian tissue in vitro. da Silva RB et al. (2019) In cattle and other species, the fetal ovary is steroidogenically active before follicular development commences, and there is evidence that estradiol and progesterone inhibit follicle formation and activation. Estradiol levels decline sharply around the time of follicle formation. In the present study, we hypothesized that FGF10 and FGF18, which inhibit estradiol secretion from granulosa cells of antral follicles, also regulate fetal ovarian steroid production. Fetuses were collected at local abattoirs, and age determined by crown-rump length measurements. Real-time PCR assays with RNA extracted from whole ovaries revealed that the abundance of CYP19A1 mRNA decreased from 60 to 90 days of gestation, which is consistent with the decline in estradiol secretion previously observed. Immunohistochemistry revealed the presence of FGF18 in ovigerous cords in early gestation and in oocytes later in fetal age (≥150 d). The abundance of FGF18 mRNA increased after d 90 gestation. Addition of recombinant FGF18 to fetal ovarian pieces inhibited estradiol and progesterone secretion in vitro, whereas FGF10 was without effect. Consistent with these results, FGF18 decreased levels of mRNA for CYP19A1 and CYP11A1 in ovarian pieces in vitro. These data suggest that FGF18 may be an intraovarian factor that regulates steroidogenesis in fetal ovaries. This article is protected by copyright. All rights reserved.////////////////// Mechanisms of fibroblast growth factor signaling in the ovarian follicle. Price C et al. (2015) Fibroblast growth factors have been shown to alter growth and differentiation of reproductive tissues in a variety of species. Within the female reproductive tract, the effects of FGFs have been focused on the ovary, and the most well-studied is FGF2, which stimulates granulosa cell proliferation and decreases differentiation (decreased steroidogenesis). Other FGFs have also been implicated in ovarian function, and this review summarizes the effects of members of two subfamilies on ovarian function; the FGF7 subfamily that also contains FGF10, and the FGF8 subfamily that also contains FGF18. There are data to suggest that FGF8 and FGF18 have distinct actions on granulosa cells, despite their apparent similar receptor binding properties. Studies of non-reproductive developmental biology also indicate that FGF8 is distinct from FGF18, and that FGF7 is also distinct from FGF10 despite similar receptor binding properties. In this review, the potential mechanisms of differential action of FGF7/FGF10 and FGF8/FGF18 during organogenesis will be reviewed and placed in the context of follicle development. A model is proposed in which FGF8 and FGF18 differentially activate receptors depending on the properties of the extracellular matrix in the follicle.////////////////// Divergence of intracellular signaling pathways and early response genes of two closely related fibroblast growth factors, FGF8 and FGF18, in bovine ovarian granulosa cells. Jiang Z et al. Fibroblast growth factors (FGFs) modulate ovarian function, including FGF8 and FGF18. These FGFs activate the same receptors, although FGF18 is unusual in that it increases apoptosis in ovarian granulosa cells whereas the 'typical' response to FGF is increased proliferation. The objective of the present study was to determine which early response genes and pathways are activated by FGF8 and FGF18 in bovine granulosa cells. FGF8 increased abundance of mRNA encoding the FGF-responsive genes SPRY1, SPRY2, SPRY4, NR4A1 and NR4A3 whereas FGF18 did not. FGF8 increased but FGF18 decreased levels of mRNA encoding the growth arrest associated protein, GADD45B. FGF8 increased ERK1/2 phosphorylation but FGF18 did not. Microarray analysis identified EGR1, FOS, FOSL1, BAMBI, XIRP1 and PLK2 as other FGF8 immediate-early response genes, and FGF18 stimulated EGR1, FOSL1, BAMBI and PLK2, but not FOS or XIRP1. This study demonstrates that FGF8 and FGF18 signal through divergent pathways in ovarian granulosa cells, despite reportedly similar receptor activation patterns.
Expression regulated by
Comment
Ovarian localization Oocyte, Theca
Comment Expression and Function of Fibroblast Growth Factor 18 in the Ovarian Follicle in Cattle. Portela V et al. Fibroblast growth factors (FGF) are involved in paracrine signaling between cell types in the ovarian follicle. FGF8, for example, is secreted by oocytes and controls cumulus cell metabolism. The closely related FGF18 is also expressed in oocytes in mice. The objective of this study was to assess the potential role of FGF18 in follicle growth in a monovulatory species, the cow. Messenger RNA encoding FGF18 was detected primarily in theca cells, and in contrast to the mouse FGF18 was not detected in bovine oocytes. Addition of FGF18 protein to granulosa cell cultures inhibited estradiol and progesterone secretion, and abundance of mRNA encoding steroidogenic enzymes and the FSH receptor. In vivo, onset of atresia of the subordinate follicle was associated with increased thecal FGF18 mRNA levels and FGF18 protein in follicular fluid. In vitro, FGF18 altered cell cycle progression as measured by FACS, resulting in increased numbers of dead cells (sub G1 peak) and decreased cells in S phase. This was accompanied by decreased levels of mRNA encoding the cell cycle checkpoint regulator GADD45B. Collectively, these data point to a unique role for this FGF in signalling from theca cells to granulosa cells, and suggest that FGF18 influences the process of atresia in ovarian follicles.
Follicle stages
Comment
Phenotypes
Mutations 0 mutations
Genomic Region show genomic region
Phenotypes and GWAS show phenotypes and GWAS
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created: May 29, 2010, 8:06 a.m. by: hsueh   email:
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last update: Jan. 10, 2019, 10:46 a.m. by: hsueh    email:



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