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3-@hydroxy-3-methylglutaryl-coa Synthase 1, Soluble OKDB#: 3978
 Symbols: HMGCS1 Species: human
 Synonyms: HMGCS, MGC90332,HMG-CoA SYNTHASE, SOLUBLE, HMGCS  Locus: 5p14-p13 in Homo sapiens


For retrieval of Nucleotide and Amino Acid sequences please go to: OMIM Entrez Gene
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General Comment
General function Enzyme
Comment
Cellular localization Cytoplasmic
Comment
Ovarian function Steroid metabolism
Comment CYP51A1 Induced by Growth Differentiation Factor 9 and Follicle-Stimulating Hormone in Granulosa Cells Is a Possible Predictor for Unfertilization. Nakamura T 2014 et al. Growth differentiation factor 9 (GDF9), an oocyte-secreted factor, whose receptors exist in granulosa cells, is involved in follicle progression. Therefore, GDF9 is considered to potentially mediate signals necessary for follicular growth. However, the effect of GDF9 on human granulosa cells is not fully understood. Human immortalized nonluteinized granulosa cell line (HGrC1) which we have previously reported was stimulated with GDF9 and/or follicle-stimulating hormone (FSH). Granulosa cells obtained from in vitro fertilization (IVF) patients were also evaluated with quantitative reverse transcription polymerase chain reaction (RT-PCR). Real-time RT-PCR showed that GDF9 increased messenger RNA (mRNA) levels of enzymes required for cholesterol biosynthesis, such as 3-hydroxy-3-methylglutanyl-CoA synthase 1 (HMGCS1), farnesyl-diphosphate farnesyltransferase 1, squalene epoxidase, lanosterol synthase, and cytochrome P450, family 51, subfamily A, polypeptide 1 (CYP51A1). A greater increase in mRNA levels of HMGCS1 and CYP51A1 was observed by combined treatment with GDF9 and FSH. Clinical samples showed a significant increase in CYP51A1 mRNA in the group of granulosa cells connected with unfertilized oocytes. Our results suggest that GDF9, possibly with FSH, may play significant roles in the regulation of cholesterol biosynthesis and the expression of CYP51A1 which might be a predictor for unfertilization. /////////////////////////
Expression regulated by Growth Factors/ cytokines
Comment Role of leptin in the regulation of sterol/steroid biosynthesis in goose granulosa cells. Hu S 2014 et al. Leptin is critical for reproductive endocrinology. The aim of this study is to assess the expression patterns of leptin receptor (Lepr) during ovarian follicle development and to reveal the mechanism by which leptin affects steroid hormone secretion in goose granulosa cells. Transcripts of Lepr were ubiquitous in all tested tissues, with pituitary and adrenal glands being the predominant sites. Goose ovarian follicles were divided into several groups by diameter including prehierarchical (4 to 6, 6 to 8, and 8 to 10mm) and hierarchical (F5-F1) follicles. Lepr gene expression was significantly higher in granulosa cells than in theca cells from follicles of 4 to 8mm in diameter. Expression of Lepr in granulosa cells decreased gradually as follicles developed, with fluctuating expression in F5 and F3 follicles. Lepr mRNA in theca cells underwent a slight decrease from the 6- to 8-mm cohorts to F5 follicle and then exhibited a transient increase and declined later. Invitro experiments in cultured goose granulosa cells showed that estradiol release was significantly stimulated, whereas progesterone increased slightly and testosterone decreased dramatically after leptin treatment. In accordance with the data for steroids, expression of Lepr, Srebp1, Cyp51, StAR, and Cyp19a1 were induced by the addition of leptin, and the concomitant changes in Hmgcs1, Dhcr24, Cyp11a1, 17-hsd, Cyp17, and 3-hsd gene expression were seen. These results suggested that leptin is involved in the development of goose ovarian follicles, and leptin's effect on steroid hormone secretion could be due to altered sterol/steroidogenic gene expression via interaction with its receptor. /////////////////////////
Ovarian localization Granulosa
Comment Genes in sterol/steroid and lipid biosynthetic pathways are targets of FSH and FOXO1 regulation in granulosa cells: evidence from cells expressing mutant forms of FOXO1. Liu Z et al. The forkhead box transcription factor FOXO1 is highly expressed in granulosa cells of growing follicles but is down-regulated by FSH in culture or by LH-induced luteinization in vivo. To analyze the function of FOXO1, we infected rat and mouse granulosa cells with adenoviral vectors expressing two FOXO1 mutants: a gain-of-function mutant FOXOA3 that has three serine residues mutated to alanines rendering this protein constitutively active and nuclear and FOXOA3-mDBD in which the DNA binding domain is mutated. The infected cells were then treated with vehicle or FSH for specific time intervals. Infection of the granulosa cells was highly efficient, caused only minimal apoptosis and maintained FOXO1 protein at levels of the endogenous protein observed in cells prior to exposure to FSH. RNA was prepared from control and adenoviral infected cells exposed to vehicle or FSH for 12 and 24h. Affymetrix microarray and data-base analyses identified, and real time RT-PCR verified, that genes within the lipid, sterol and steroidogenic biosynthetic pathways (Hmgcs1, Hmgcr, Mvk, Sqle, Lss, Cyp51, Tm7sf2, Dhcr24 and Star, Cyp11a1 and Cyp19), including two key transcriptional regulators Srebf1 and Srebf2 of cholesterol biosynthesis and steroidogenesis (Nr5a1, Nr5a2) were major targets induced by FSH and suppressed by FOXOA3 and FOXOA3-mDBD in the cultured granulosa cells. By contrast, FOXOA3 and FOXOA3-mDBD induced expression of Cyp27a1 mRNA that encodes an enzyme involved in cholesterol catabolism to oxysterols. The genes up-regulated by FSH in cultured granulosa cells were also induced in granulosa cells of preovulatory follicles and corpora lutea collected from immature mice primed with FSH (eCG) and LH (hCG), respectively. Conversely, Foxo1 and Cyp27a1 mRNAs were reduced by these same treatments. Collectively, these data provide novel evidence that FOXO1 may play a key role in granulosa cells to modulate lipid and sterol biosynthesis, thereby preventing elevated steroidogenesis during early stages of follicle development.
Follicle stages
Comment
Phenotypes
Mutations 0 mutations
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Phenotypes and GWAS show phenotypes and GWAS
Links
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created: Feb. 11, 2009, 11:19 a.m. by: hsueh   email:
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last update: July 15, 2014, 9:39 a.m. by: hsueh    email:



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