Cloning and expression analysis of the cytochrome P450c17s enzymes during the reproductive cycle in ovoviviparous Korean rockfish (Sebastes schlegeli)

Cytochrome P450c17 (CYP17, 17α-hydroxylase/17, 20-lyase) plays a critical role in the production of androgens and estrogens in vertebrates. We isolated the full length cDNAs of P450c17-I and P450c17-II from Sebastes schlegeli. The cDNA sequences of P450c17-I and P450c17-II encoded 515 and 533 amino acid residues respectively. The putative P450c17-I and P450c17-II enzymes of Korean rockfish share high sequence identity with that of Japanese flounder (92% and 81%) respectively. Our current study describes that P450c17s of Korean rockfish are mainly expressed in gonads, head kidney and kidney by RT-PCR. Quantitative real-time PCR showed that the expression patterns of Korean rockfish P450c17s were developmental stage-dependency. In addition, the testosterone (T) and gonadosomatic index (GSI) levels further support the important role of P450c17-I during shift in steroidogenesis. Taken together, this study provides information about the Korean rockfish P450c17s characterization and mRNA expression as such helps in further understanding of its function in gonadal development.     

DNA methylation-mediated silencing of neuronatin (NNAT) in pig parthenogenetic fetuses

It is generally believed that aberrant expression of imprinted genes participates in growth retardation of mammalian parthenogenesis. Neuronatin (NNAT), a paternally expressed gene, plays important roles in neuronal growth and metabolic regulation. Here we have compared the gene expression and promoter methylation pattern of NNAT between pig normally fertilized (Con) and parthenogenetic (PA) embryos. The results showed loss of NNAT expression (p < 0.001) and hypermethylation of NNAT promoter in PA samples. Additionally, partial methylation was observed in Con fetuses, while almost full methylation and unmethylation of NNAT promoter were apparent in Metaphase II (MII) oocytes and mature sperms, respectively, which identified the CpG promoter region as a putative differentially methylated region (DMR) of NNAT. The data demonstrate that promoter hypermethylation is associated with the silencing of NNAT in pig PA fetuses, which may be related to developmental failure of pig parthenogenesis at early stages.     

In vivo response of melatonin,gonadal activity and biochemical changes during CYP19 inhibited sex reversal in common carp Cyprinus carpio (L)

CYP19 aromatase is the key enzyme in vertebrate steroidogenesis, catalyzing the conversion of C19 androgens to 17β-estradiol (E₂). The objective of the present study was to assess the effect of the CYP19 inhibitors (AIs) fadrozole and anastrozole on gonadal development and sex differentiation in Cyprinus carpio and investigate the possible involvement of in vivo melatonin (MLT) production during sex differentiation. The CYP19 activity in 30 day-post fertilized (30 dpf) fingerlings was inhibited by treating with fadrozole and anastrozole in doses of 100 mg/kg and 200 mg/kg of feed. Gonado-somatic-index (GSI) of fish decreased (P < 0.005) and the changes in GSI was dose dependent. Serum testosterone (T) concentration increased (P < 0.001) after AI treatments and was negatively correlated with serum E₂ concentration which decreased (P < 0.005). Morning serum MLT concentration decreased during the period of inhibited CYP19 activity with a positive correlation with E₂ concentration. Sex-ratio in anastrazole (200 mg/kg) treated fish were 98.1% males while with fadrozole treatment at the same dose resulted in a 97.1% masculinization. Histological examination of fadrozole-treated fish gonads resulted in detection of atretic follicles and intensified spermiation. The protein and lipid production was depressed in AIs-treated fish. The results suggested that fadrozole and anastrozole both effectively inhibited oogenesis and ovarian development in C. carpio accelerating testicular formation. There was a physiological correlation between CYP19 activity, E₂ and MLT synthesis during gonadal development and sex differentiation.     

Genetic regulation of MUC1 expression by Helicobacter pylori in gastric cancer cells

Helicobacter pylori infection of the stomach is associated with the development of gastritis, peptic ulcers, and gastric adenocarcinomas, but the mechanisms are unknown. MUC1 is aberrantly overexpressed by more than 50% of stomach cancers, but its role in carcinogenesis remains to be defined. The current studies were undertaken to identify the genetic mechanisms regulating H. pylori-dependent MUC1 expression by gastric epithelial cells. Treatment of AGS cells with H. pylori increased MUC1 mRNA and protein levels, and augmented MUC1 gene promoter activity, compared with untreated cells. H. pylori increased binding of STAT3 and MUC1 itself to the MUC1 gene promoter within a region containing a STAT3 binding site, and decreased CpG methylation of the MUC1 promoter proximal to the STAT3 binding site, compared with untreated cells. These results suggest that H. pylori upregulates MUC1 expression in gastric cancer cells through STAT3 and CpG hypomethylation.     

Genome-wide mapping of DNA methylation in Nile Tilapia

Cytosine DNA methylation is crucial for gene regulation and maintenance of genome stability. However, the detailed nile tilapia methylome remains uncharacterized. In this study, we present the first high-resolution methylome of tilapia gonad generated using methylated DNA immunoprecipitation (MeDIP) and high-throughput sequencing. In the ovary, 265 and 56 methylation peaks were identified in the genebody and promoter region of 145 genes, respectively. In the testis, 293 and 80 methylation peaks were identified in the genebody and promoter region of 144 genes. Furthermore, 8 and 49 genes showed differentially higher and lower promoter-region methylation rates, respectively, in the ovary relative to those of the testis. Quantitative PCR results revealed that the expression level of fibroblast growth factor 16 (fgf16), sialidase-3-like, fibroblast growth factor 20, aromatase (cyp19a), estrogen receptor, and gonadotropin receptor II precursor were negatively correlated to their methylation levels in the ovary and testis. The methylated levels of cyp19a and fgf16 were validated by bisulfite sequencing PCR technology, and the results were consistent with the MeDIP results. Thus, apart from generating the first methylation map, this study produced a candidate gene repository that provides additional options to explore the relationship between DNA methylation and sex differentiation or maintenance.     

Elevated CpG island methylation of GCK gene predicts the risk of type 2 diabetes in Chinese males

Background

The GCK gene encodes hexokinase 4, which catalyzes the first step in most glucose metabolism pathways. The purpose of our study is to assess the contribution of GCK methylation to type 2 diabetes (T2D).

Methods and results

GCK methylation was evaluated in 48 T2D cases and 48 age- and gender-matched controls using the bisulphite pyrosequencing technology. Among the four CpG sites in the methylation assay, CpG4 and the other three CpGs (CpG1-3) were not in high correlation (r < 0.5). Significantly elevated methylation levels of GCK CpG4 methylation were observed in T2D patients than in the healthy controls (P = 0.004). A breakdown analysis by gender indicated that the association between CpG4 methylation and T2D was specific to males (P = 0.002). It is intriguing that another significant male-specific association was also found between GCK CpG4 methylation and total cholesterol (TC) concentration (r = 0.304, P = 0.036).

Conclusion

Our results showed that elevated GCK CpG4 methylation might suggest a risk of T2D in Chinese males. Gender disparity in GCK CpG4 methylation might provide a clue to elaborate the pathogenesis of T2D.     

Knockdown of a putative Halloween gene Shade reveals its role in ecdysteroidogenesis in the small brown planthopper Laodelphax striatellus

Ecdysteroid hormone 20-hydroxyecdysone (20E) plays fundamental roles in insect development and reproduction, whereas the primary role of ecdysone (E) is the precursor for 20E. A cytochrome P450 monooxygenase (CYP), encoded by a Halloween gene Shade (Shd, cyp314a1), catalyzes the conversion of E into 20E in representative insect species in Diptera, Lepidoptera and Orthoptera. We describe here the cloning and characterization of LsShd in a hemipteran insect species, the small brown planthopper Laodelphax striatellus. LsSHD has five insect conserved P450 motifs, i.e., Helix-C, Helix-I, Helix-K, PERF and heme-binding motifs. Temporal expression pattern of LsShd was determined through the fourth-instar and the early fifth-instar stages by qPCR. LsShd showed two expression peaks in day 2 and day 5 fourth-instar nymphs, and two troughs in day 1 fourth and fifth instars. Dietary introduction of double-stranded RNA (dsRNA) of LsShd into nymphs successfully knocked down the target gene, decreased expression level of ecdysone receptor (LsEcR) gene, and caused nymphal lethality and delayed development. Ingestion of 20E did not increase LsShd expression level, but almost completely rescued LsEcR mRNA level, and relieved the negative effects on the survival and development in LsShd-dsRNA-exposed nymphs. In contrast, dietary introduction of E had little rescue effects. Thus, our data suggest that the ecdysteroidogenic pathway is conserved in insects, and LsSHD functions to regulate metamorphotic processes by converting E to 20E even in a hemipteran insect, L. striatellus.     

Conjugation of androgens and estrogens by human breast tumors in vitro

The metabolism of ³H-androstenedione (Δ⁴ -A) and ³H-estriol (E³) was studied in 12 human breast tumors. Part of each tumor was analyzed for estrogen receptor content. Aliquots of tumor homogenates were incubated for 2 hr separately with ³H-δ⁴-A and ³H-E₃ in the presence of appropriate cofactors. No distinct differences emerged in the profiles of the unconjugated metabolites of ³H-δ⁴-A, the major compounds in the approximate order of descendence being androsterone, androstanedione, testosterone, 5α-androstane-3α,17β-diol, epiandrosterone, and dihydrotestosterone. One tumor homogenate from an infiltrating lobular carcinoma converted ³H-Δ⁴-A to glucosiduronate metabolites (11%), of which androsterone, 6.4%; testosterone, 1.6%; and androstanediol, 0.6% predominated. The homogenate of this tumor and two other tumors converted ³H-E₃ to ³H-E₃-3S. Conversions of E₃ to E₃-3S In the other tumor homogenates were less than 0.6%. No correlation between receptor content and the capability of the tumor to conjugate Δ⁴-A or E₃ evolved. However, correlations between steroid hormone metabolism and tumor histopathology may exist.     

Identification and gene expression analyses of natriuretic peptide system in the ovary of goat (Capra hircus)

Natriuretic peptides (NPs) are involved in maintaining cardiovascular and fluid homeostasis, regulating reproductive processes and bone growth, and other numerous functions. To better understand the role of NPs in goat (Capra hircus), in the present study, full-length cDNAs of goat Nppa (natriuretic peptide precursor A), Nppb (natriuretic peptide precursor B) and Nppc (natriuretic peptide precursor C), respectively encoding ANP, BNP and CNP, were cloned from adult goat heart and ovary. The putative prepropeptide ANP (prepro-ANP) and prepro-CNP share a high amino acid sequence identity with other species. Real-time PCR showed that Nppa, Nppb and Nppc were widely expressed in adult goat tissues. The mRNA expression of Nppa and Nppb in the heart was extremely higher compared with other tissues. Nppc mRNA expression in the lung and uterus was also higher than in other tissues. The expression of Nppa, Nppb and Nppc genes was examined at different ovarian follicle stages using RT-PCR. The mRNAs of Nppa and Nppb were detected in secondary follicles as well as in COCs (cumulus–oocyte-complexes) and granulosa cells of antral follicles. However, the mRNA expression of Nppc was observed throughout ovarian follicle development, and it was especially higher in granulosa cells of antral follicles. In vitro, stimulating goat granulosa cells with FSH led to an increase in the expression of Nppc by dose- and time-dependent manners and a rapid decline was induced by LH stimulation, but the expression of Nppa and Nppb did not change after FSH or LH treatment. These results suggest that Nppc is a gonadotropin-induced gene in granulosa cells of goat ovary and CNP may be involved in the regulation of ovarian follicle development and oocyte maturation.     

Methylation of CpG dinucleotides in the open reading frame of a testicular germ cell-specific intronless gene,Tact1/Actl7b,represses its expression in somatic cells

Methylation of CpG islands spanning promoter regions is associated with control of gene expression. However, it is considered that methylation of exonic CpG islands without promoter is not related to gene expression, because such exonic CpG islands are usually distant from the promoter. Whether methylation of exonic CpG islands near the promoter, as in the case of a CpG-rich intronless gene, causes repression of the promoter remains unknown. To gain insight into this issue, we investigated the distribution and methylation status of CpG dinucleotides in the mouse Tact1/Actl7b gene, which is intronless and expressed exclusively in testicular germ cells. The region upstream to the gene was poor in CpG, with CpG dinucleotides absent from the core promoter. However, a CpG island was found inside the open reading frame (ORF). Analysis of the methylation status of the Tact1/Actl7b gene including the 5′-flanking area demonstrated that all CpG sites were methylated in somatic cells, whereas these sites were unmethylated in the Tact1/Actl7b-positive testis. Trans fection experiments with in vitro-methylated constructs indicated that methylation of the ORF but not 5′ upstream repressed Tact1/Actl7b promoter activity in somatic cells. Similar effects of ORF methylation on the promoter activity were observed in testicular germ cells. These are the first results indicating that methylation of the CpG island in the ORF represses its promoter in somatic cells and demethylation is necessary for gene expression in spermatogenic cells.