Dax1 suppresses P450arom expression in medaka ovarian follicles

Dax1 is a member of an unusual orphan nuclear receptor family, and is known to regulate P450arom in mammals and is involved in sex differentiation in some vertebrates. To investigate whether Dax1 is involved in the regulation of the steroidogenic pathway for estrogen biosynthesis in medaka ovarian follicles, we isolated Dax1 cDNA from adult medaka ovaries and analyzed its expression pattern in medaka gonads. In adult ovaries, Dax1 mRNA was detected only in postvitellogenic follicles and was not detected in previtellogenic and vitellogenic follicles. In adult testis, Dax1 mRNA was not detected. We compared the expression pattern of Dax1 with that of Foxl2, Ad4BP/Sf-1, P450c17, and P450arom by in situ hybridization using adjacent sections. In contrast to Dax1 expression, these genes were co-expressed in vitellogenic follicles but were not detected in postvitellogenic follicles. Thus, in medaka ovarian follicles, Dax1 did not show any overlapping expression patterns against Foxl2, Ad4BP/Sf-1, P450c17, and P450arom. Moreover, co-transfection experiments demonstrated that Dax1 inhibits Ad4BP/Sf-1- and Foxl2-mediated P450arom expression. On the other hand, during early sex differentiation, Dax1 mRNA was not detected in both males and females. Our results suggest that Dax1 down-regulates Ad4BP/Sf-1- and Foxl2-mediated P450arom expression in medaka ovarian follicles.     

Aromatase plays a key role during normal and temperature-induced sex differentiation of tilapia Oreochromis niloticus.

In the tilapia Oreochromis niloticus, sex is determined genetically (GSD), by temperature (TSD) or by temperature/genotype interactions. Functional masculinization can be achieved by applying high rearing temperatures during a critical period of sex differentiation. Estrogens play an important role in female differentiation of non-mammalian vertebrates. The involvement of aromatase, was assessed during the natural (genetic all-females and all-males at 27 degrees C) and temperature-induced sex differentiation of tilapia (genetic all-females at 35 degrees C). Gonads were dissected between 486--702 degree x days. Aromatase gene expression was analyzed by virtual northern and semi-quantitative RT-PCR revealing a strong expression during normal ovarian differentiation concomitant with high levels (465 +/- 137 fg/g) of oestradiol-17 beta (E2-17 beta). This was encountered in gonads after the onset of ovarian differentiation (proliferation of both stromal and germ cells prior to ovarian meiosis). Genetic males exhibited lower levels of aromatase gene expression and E2-17 beta quantities (71 +/- 23 fg/ g). Aromatase enzyme activity in fry heads established a sexual dimorphism in the brain, with high activity in females (377.9 pmol/head/hr) and low activity in males (221.53 pmol/head/hr). Temperature induced the masculinization of genetic females to a different degree in each progeny, but in all cases repression of aromatase expression was encountered. Genetic males at 35 degrees C also exhibited a repression of aromatase expression. Aromatase brain activity decreased by nearly three-fold in the temperature-masculinized females with also a reduction observed in genetic males at 35 degrees C. This suggests that aromatase repression is required in the gonad (and perhaps in the brain) in order to drive differentiation towards testis development. Mol. Reprod. Dev. 59:265-276, 2001.     

中华鳖Foxl2基因克隆及外源性激素对其表达的影响

外源性激素在中华鳖(Pelodiscus sinensis)性别决定有重要作用, 为给中华鳖性别决定机制研究提供生物学信息, 首次克隆和分析了中华鳖Foxl2 cDNA部分序列。为研究其在遗传和生理水平的差异, 以10 mg/kg剂量17α-甲基睾酮(MT)和17β-雌二醇(E₂)分别对中华鳖雌雄个体注射, 检测0、6h、12h、24h、48h、7d和14d性腺Foxl2 mRNA表达水平。获得中华鳖Foxl2基因(GenBank登录号: KP734210)部分 cDNA长903 bp, 共编码300个氨基酸, 属于叉头框转录因子家族, 参与卵巢发育和功能维持; 多重序列比对显示, Foxl2具有典型的FH结构域, 与红耳龟的同源性最高, 达到99%; 系统进化树分析显示, 中华鳖Foxl2基因与爬行动物Foxl2基因聚为一个亚支, 且与西部锦龟Foxl2基因距离最近。荧光定量PCR结果显示, 与对照组相比, 注射E₂后24h, 卵巢Foxl2 mRNA表达水平被极显著上调(P<0.001), 7d和14d后, 精巢Foxl2 mRNA表达水平极显著上升(P<0.001); 注射MT后24h, 精巢和卵巢Foxl2 mRNA的表达水平均极显著升高(P<0.001)。结果表明, E₂和MT促进Foxl2表达, E₂促进其表达的性别差异比MT明显。研究可为了解Foxl2的功能及明确外源性激素调控中华鳖Foxl2的分子机制提供基础资料。     

Molecular cloning of DAX1 and SHP cDNAs and their expression patterns in the Nile tilapia,Oreochromis niloticus

Piscine DAX1 and SHP cDNAs with an open reading frame encoding 296 and 258 amino acid residues, respectively, as well as SHP partial gene fragment, were cloned from Nile tilapia. Phylogenetic analyses of DAX1s, SHPs, and homologous EST fragments indicate that DAX1 and SHP are conserved in gene structure and are present throughout vertebrates. A single band of approximately 1.4kb for DAX1 and of approximately 1.2kb for SHP was detected in the Northern blot analysis. Tissue distribution analysis by RT-PCR showed that fish DAX1 and SHP mRNAs are widely expressed in adult tissues, with the most abundant expression in gonads and liver, respectively. DAX1 and SHP were also detected in gonads of both sexes at 5-90 days after hatching (dah). However, the expression of DAX1 is weak at 5 and 10dah and then significantly up-regulated between 10 and 15dah, whereas the expression of SHP is moderate and consistent during the ontogeny.     

Cloning of brain aromatase gene and expression of brain and ovarian aromatase genes during sexual differentiation in genetic male and female Nile tilapia Oreochromis niloticus

A brain aromatase gene was identified from the Nile tilapia Oreochromis niloticus. The cDNA sequence of this gene differed from that of the ovarian aromatase gene previously reported from this species. Tissue specific expression for both brain and ovarian aromatase genes was examined in the tissues of adult tilapia. Brain aromatase mRNA was expressed in the brain, kidney, eye, ovary, and testis, but not in the liver and spleen. Ovarian aromatase mRNA was expressed in the brain, spleen, ovary, and testis but not in the eye, kidney, and liver. Differential aromatase gene expression between the sexes was investigated in all-male (XY) and all-female (XX) groups of tilapia fry from fertilisation throughout the sexual differentiation period. Semi-quantitative RT-PCR analysis revealed that the initiation of expression of both aromatase genes lay between 3 and 4 dpf (days post fertilisation) in both sexes. The level of brain aromatase mRNA gradually increased throughout the period studied with little difference between the sexes. This contrasted with marked sexual dimorphism of ovarian aromatase mRNA expression. In females, the expression level was maintained or increased gradually throughout ontogeny, while the level in males was dramatically down-regulated between 15 and 27 dpf. Subsequently, the level of ovarian aromatase mRNA expression fluctuated slightly in both sexes, with the expression in females always being higher than in males. These findings clearly suggest that ovarian aromatase plays a decisive role in sexual differentiation in this species and that this is achieved by down-regulation of the expression of this gene in males. Mol. Reprod. Dev. 59: 359-370, 2001.     

Development of multidrug resistance type I Cmdr1 expression in chicken embryonic gonads

A primary role of P-glycoprotein (P-gp), encoded by the multidrug resistance type I gene, is to protect against naturally occurring xenotoxics. Recently, the preferential expression of chicken multidrug resistance type I (Cmdr1) was identified in the embryonic gonads during the early periods of development. Here we investigated the expression of Cmdr1 and P-gp in the gonads during embryogenesis, and compared to that in the ovarian follicles of domestic hens (Gallus gallus). As revealed by immunohistochemistry, P-gp was highly expressed in theca cells of mature follicles, whereas the expression was low in immature follicles. Immunohistochemical analysis showed that expression of Cmdr1-type P-gp was very low in embryonic gonads. Cmdr1 mRNA was undetectable in the gonads of 5-day embryos (E5) by RT-PCR, whereas Cmdr1 mRNA was significantly detectable in the developing gonads at E9 and E21. In the testicular tissues, germ cells were distributed along developing seminiferous cords as identified by a specific marker gene, whereas Cmdr1-type P-gp positive cells were observed evenly on testicular tissues. Collectively, it is concluded that Cmdr1 expression is initiated in the chicken ovary and testis after sexual differentiation, but expression of Cmdr1-type P-gp is very low through embryogenesis.     

养殖施氏鲟的性腺转录组特征分析

鲟是目前世界上最古老的软骨硬鳞鱼类之一, 雌雄个体之间无明显的第二性征。为了解人工养殖下鲟性腺发育的分子特征, 研究以人工养殖2龄施氏鲟(Acipenser schrenckii Brandt)为研究对象, 对其精巢与卵巢进行转录组测序分析。结果发现, 雌雄性腺中共有19690个差异表达基因转录本, 其中与性别分化相关基因包括转录因子Dmrt1、Sox9、Foxl2等和生长转化因子Amh、Bmp15、Gdf9等。另外, 通过差异表达基因KEGG代谢通路富集分析发现了4条与卵巢发育相关的通路, 分别为黄体酮介导的卵母细胞成熟、卵母细胞减数分裂、卵巢类固醇合成、促性腺激素释放激素信号通路。其中, 卵巢类固醇合成通路中18个差异表达基因的表达模式暗示了2龄施氏鲟限制卵巢雌激素的合成, 但精巢中雄激素的合成未受影响。研究结果为研究鲟性腺分化和发育机制以及今后在mRNA表达水平上鉴定鲟性别提供了基础。