The expression of androgen receptor, cytochrome P450 aromatase and FSH receptor mRNA in the porcine ovary

The aim of this study was to visualize the expression of androgen receptor, cytochrome P450 aromatase and FSH receptor mRNAs in various structures of porcine ovary. Porcine ovaries were frozen in liquid nitrogen, and 8 microm sections were prepared for in situ hybridization. In the small, medium and large antral follicles as well as in early, midluteal and regressing corpora lutea, mRNAs for androgen receptor, P450 aromatase and FSH receptor were detected. In small antral follicles high levels of mRNAs for androgen and FSH receptors were observed, mainly in the granulosa layer, while mRNA expression for P450 aromatase was negligible. As follicles grew, amount of mRNAs for androgen receptor and FSH receptor decreased, and that for P450 aromatase increased. Small amounts of androgen receptor mRNA were also present in corpora lutea at all examined stages. P450 aromatase mRNA was not detected in early and midluteal corpora lutea. However, regressing corpus luteum showed a weak expression of aromatase mRNA.     

Molecular cloning of P450 aromatase from the leopard gecko and its expression in the ovary

In this study, we identified the cDNA of P450 aromatase in the leopard gecko, a lizard with temperature-dependent sex determination. The cDNA encodes a putative protein of 505 amino acids. The deduced amino acid sequence of leopard gecko aromatase cDNA showed 80% identity with that of turtles, 70% with humans and 77% with chickens. This is the first report of the identification of P450 aromatase cDNA in squamata species. It has been reported that this gene is expressed in different layers of cells in the ovary of mammalian species and avian species. Thus, we also investigated cells expressing the mRNA of this gene in the ovary of the leopard gecko by RT-PCR and in situ hybridization. The mRNA expression of leopard gecko P450 aromatase was localized in both the thecal and granulosa cell layers in the ovary. The expression in thecal and granulosa cell layers was examined in the largest follicle, second largest follicle and third largest follicle by RT-PCR. A higher level of mRNA expression was observed in the granulosa cell layer of the second largest follicle than in other cell layers. This result may reflect the characteristics of follicles in species with automonochronic ovulation.     

Localization of androgen receptor and cytochrome P450 aromatase in the follicle and corpus luteum of the porcine ovary

The following study was undertaken to localize androgen receptors (AR) and aromatase cytochrome P450 (P450arom) in porcine ovarian tissue because ovarian androgens may act locally to modulate follicular and luteal function in various species. Androgen receptor was detected immunohistochemically in granulosa and theca cells of preantral as well as in growing antral follicles. The most intensive staining was observed in the antral granulosa layer. Luteinizing granulosa cells of preovulatory follicles, and luteal cells from the early and midluteal phases stained weakly for the androgen receptor. Fully regressed corpora lutea in the early follicular phase of the next cycle did not stain for androgen receptor. In contrast, granulosa cells were very weakly stained for aromatase in early stages of follicular development. The P450arom was maximally expressed with the same intensity in mural and antral layers in large ovulatory follicles. Corpora lutea from the early luteal phase showed positive staining, whereas those from midluteal phase did not stain for aromatase, some cells of regressed corpora lutea unexpectedly exhibited aromatase staining.     

Cytochrome P450 aromatase expression in human seminoma

Background  

The enzyme cytochrome P450 aromatase, catalysing the conversion of androgens into estrogens, has been detected in normal human testicular cells suggesting a physiological role of local estrogen biosynthesis on spermatogenesis control. Estrogens, regulating cell growth and apoptosis, can also be involved in tumorigenesis process, but the possible link between estrogens and testicular neoplastic process is, up to now, scarcely known. This study examined aromatase expression in human seminoma, which is the most common germ cell tumour of the testis.     

赤点石斑鱼两种芳香化酶cDNA的克隆及其表达的组织特异性

以赤点石斑鱼 (Epinephelusakaara)脑垂体中提取的RNA为模板 ,根据芳香化酶的保守序列设计引物 ,利用GeneRacerTM 技术 ,克隆出两种芳香化酶即脑芳香化酶 (P4 5 0aromB)和性腺芳香化酶 (P4 5 0aromA)的cDNA ,其全长分别为 190 1bp (编码 5 0 9aa)和 1833bp (编码 5 18aa)。序列分析结果表明 ,赤点石斑鱼两种芳香化酶cDNA序列的同源性为 5 1 6 % ,氨基酸序列之间同源性为 6 2 5 % ,与斜带石斑鱼两种芳香化酶氨基酸同源性分别为 94 7%和 97 9%。对 8个科的 10种鱼进行了分子系统进化树分析 ,结果与根据传统的形态学和生化特征分类进化地位基本一致。以特异性引物扩增雌、雄赤点石斑鱼各种组织 (垂体、嗅球、端脑、下丘脑、中脑、后脑、延脑、心脏、肾脏、肝脏、脾脏、性腺、鳃、胃、肠、皮肤、脂肪、肌肉、头肾、胸腺、鳔 ) ,以β actin作内标比较各组织芳香化酶基因表达量的差异 ,结果表明 ,赤点石斑鱼脑芳香化酶 (P4 5 0aromB)有广泛的组织分布 ,脑和垂体的表达量很高 ,各组织表达量有明显的雌、雄差异 ;而性腺芳香化酶 (P4 5 0aromA)表达主要集中于垂体和性腺 ,且不论雌雄 ,其性腺表达量均高于脑垂体 ,和P4 5 0aromB的表达模式明显不同 ,表现为在脑部 ,P4 5 0aromB表达量高于P4 5 0aromA ,而在性腺 ,     

Fenofibrate,a ligand for PPARalpha,inhibits aromatase cytochrome P450 expression in the ovary of mouse

Peroxisome proliferator-activated receptors (PPARs) play important roles in the metabolic regulation of lipids including steroids. In this study, we investigated whether fenofibrate, a ligand for PPARalpha, could influence estrogen synthesis in vivo in the ovary of mice. As reported, chronic treatment of C57BL6/J female mice with various amounts of fenofibrate as a diet reduced the serum triglycerides level and induced hepatomegaly in a dose-dependent manner. Northern blot analyses using hepatic RNA confirmed the induction of classical PPARalpha-target genes including acyl-CoA oxidase and lipoprotein lipase. The analyses using ovarian RNA revealed the suppression of gene expression for enzymes involved in steroidogenesis including CYP11A, CYP19, steroidogenic acute regulatory protein, and HDL receptor, but the CYP17 expression was evidently induced. Consistent with the suppression of CYP19 mRNA expression, the aromatase activity in the ovary was dose-dependently inhibited, resulting in significant decreases in the uterine size and bone mineral density. When PPARalpha null mice were treated with dietary fenofibrate, neither hepatomegaly nor inhibition of ovarian aromatase activity was observed, rather the activity was enhanced. These results demonstrate that fenofibrate inhibits ovarian estrogen synthesis by suppressing the mRNA expressions and that functional PPARalpha is indispensable for the inhibitory action of the agent in vivo.     

Involvement of D-Asp in P450 aromatase activity and estrogen receptors in boar testis

Summary. Mammalian testis contains D-aspartic acid (D-Asp), which enhances testosterone production. D-Asp, on other hand, also stimulates 17β-estradiol synthesis in the ovary of some lower vertebrates. We studied boar testis in order to determine if D-Asp intervenes in 17β-estradiol synthesis in the testis of those mammals which produce significant amounts of estrogens as well as testosterone. The boar testis contains D-Asp (40 ± 3.6 nmol/g tissue) which, according to immunohistological techniques, is localized mainly in Leydig cells, and, to a lesser extent, in sustentacular (Sertoli), peritubular and some germ cells. The enzyme P450aromatase is present in Leydig cells and few germ cells. In vitro experiments showed that the addition of D-Asp to testicular tissue extracts induced a significant increase of aromatase activity, as evaluated by testosterone conversion into 17β-estradiol. The enzyme’s K_m was not affected by D-Asp (about 25 nM in both control and D-Asp added tests). On the basis of these results we suggest that, as in the ovary, D-Asp is involved in the local control of aromatase activity of boar testis and, therefore, it intervenes in the 17β-estradiol production. In the testis, the D-Asp targets are presumably the Leydig cells, which having also a nuclear estrogen receptor are, in turn, one of the putative targets of the 17β-estradiol that they produce (autocrine effect).     

Phylogeny, expression and enzyme activity of zebrafish cyp19 (P450 aromatase) genes

The cyp19 encodes P450 aromatase, the enzyme catalyzing the conversion of estrogens from androgens. Estrogens affect the dimorphic, anatomical, functional and behavioral aspects of development of both males and females. In zebrafish, two cyp19 genes, cyp19a and cyp19b were found. They are expressed in ovary and brain, respectively. Expression of cyp19b can be detected by 11 days post-fertilization (dpf) by in situ hybridization in the olfactory bulbs, ventral telencephalic region and the hypothalamus of the brain in both male and female, where it is generally known to be affecting the reproductive function and sexual behavior. COS-1 clones permanently expressing the enzymes have been isolated. Both aromatase enzymes encoded by these two genes are functional in COS-1 cells and they can use androstenedione and testosterone equally efficiently. The presence of two functional cyp19 in zebrafish has its evolutionary and physiological importance.     

Two Cyp19 (P450 aromatase) genes on duplicated zebrafish chromosomes are expressed in ovary or brain

Cytochrome P450 aromatase (Cyp19) is an enzyme catalyzing the synthesis of estrogens, thereby controlling various physiological functions of estrogens. We isolated two cyp19 cDNAs, termed cyp19a and cyp19b, respectively, from zebrafish. These genes are located in linkage groups 18 and 25, respectively. Detailed gene mapping indicated that zebrafish linkage groups 18 and 25 may have arisen from the same ancestral chromosome by a chromosome duplication event. Cyp19a is expressed mainly in the follicular cells lining the vitellogenic oocytes in the ovary during vitellogenesis. Cyp19b is expressed abundantly in the brain, at the hypothalamus and ventral telencephalon, extending to the olfactory bulbs. The expression of duplicated cyp19 genes at two different tissues highlights the evolutionary significance of maintaining two active genes on duplicated zebrafish chromosomes for specific functions in the ovary and the brain.     

Immunolocalization of androgen receptor, aromatase cytochrome P450, estrogen receptor alpha and estrogen receptor beta proteins during the breeding season in scent glands of muskrats (Ondatra zibethicus)

Aromatase cytochrome P450 (P450arom) is an enzyme that catalyzes the conversion of androgen to estrogen. Expression of P450arom in extra-gonadal sites and locally-synthesized estrogen play an important role in physiological conditions. The purpose of this study was to investigate the cellular immunolocalization of androgen receptor (AR), P450arom, estrogen receptor alpha (ERa) and estrogen receptor beta (ERβ) in muskrat scent glands during the breeding season. Histological observation and immunohistochemistry of AR, P450arom, ERa and ERβ were performed in the muskrat scent glands. In addition, total proteins were extracted from scent glandular tissues in the breeding season and were used for Western blotting analysis for AR, P450arom, ERα and ERβ. Histologically, glandular cells, interstitial cells, epithelial cells of the excretory duct and the excretory tubules were identified in the muskrat scent glands during the breeding season. AR was only observed in glandular cells of scent glands; P450arom was expressed in glandular cells and epithelial cells of the excretory duct; ERα was found in glandular cells, interstitial cells and epithelial cells of the excretory duct, whereas ERβ was present in glandular cells and epithelial cells of the excretory duct. Also, the positive signals of AR, P450arom, ERα and ERβ by Western blotting were all observed in scent glandular tissues. These results suggested that the scent gland is the target organ of androgens and estrogens, and that estrogens may play an important autocrine or paracrine role in glandular function of the muskrats.     

Molecular characterization and expression of equine testicular cytochrome P450 aromatase

We characterized testicular equine aromatase and its expression. A 2707 bp cDNA was isolated, it encoded a polypeptide of 503 residues with a deduced molecular mass of 57.8 kDa. The sequence features were those of a cytochrome P450 aromatase, with a 78% polypeptide identity with the human counterpart. The gene has a minimal length of 74 kb comprising at least 9 exons and expresses a 2.8 kb mRNA in the testis. Transient cDNA transfections in E293 cells and in vitro translations in a reticulocyte lysate system allowed aromatase protein and activity detections. The activity increased with androstenedione as substrate in a dose-dependent manner. The isolation of testicular aromatase by a new immunoaffinity method demonstrated that the protein could exist either glycosylated or not with a 2 kDa difference. All these results taken together allow new structural studies to progress in the understanding of this cytochrome P450.     

Quantitative analysis of estrogen receptor proteins in rat ovary

The mRNAs of estrogen receptor beta (ERbeta), and its splice variant, ERbeta2, are abundant in granulosa cells in the ovary. With the use of antibodies, ERbeta protein has also been shown to be abundantly expressed, but to date no ERbeta2 protein has been demonstrated in the ovary. ERbeta2 has a peptide, 18 amino acids in length, inserted into its ligand-binding domain, resulting in a reported 35-fold reduction in its affinity for estrogen (E2). ERalpha, ERbeta1 and ERbeta2 were quantified by Western blotting and by RT-PCR and their cellular localization in the ovary was examined by immunohistochemistry. In 3- and 5-week-old virgin, pregnant, lactating and post-lactating rats, the level of ERalpha protein ranged between 1.6 and 3.8 fmol/microg total protein. That of ERbeta was 8.8-11.2 and of ERbeta2, in the same samples, 4.1-5.9 fmol/microg total protein. ERbeta2 and ERbeta1 proteins were, therefore, present in approximately equal amounts in the ovary throughout the various reproductive stages. The major ERbeta proteins in rat ovary, detected by their molecular weights on Western blots, were ERbeta1-530 and ERbeta2-548 (530+18 amino acids (aa)). Immunohistochemical staining revealed that ERbeta and ERbeta2 were expressed predominantly in granulosa cells of growing follicles, while ERalpha was found only in theca cells. In some theca cells, both ERalpha, ERbeta2 were expressed. The data suggests that in theca cells, where it is co expressed with ERalpha, ERbeta2 could function as a repressor of ERalpha. However, in granulosa cells where no ERalpha is detectable, and where E2 levels are high, ERbeta2, with its low affinity for E2, could be an important sensor through which E2 exerts regulatory control.