Kenji Ohyama

Exposure to exogenous estrogen through intake of commercial milk produced from pregnant cows

Background:u2002 Modern genetically improved dairy cows continue to lactate throughout almost the entire pregnancy. Therefore, recent commercial cows milk contains large amounts of estrogens and progesterone. With regard to the exposure of prepubertal children to exogenous estrogens, the authors are particularly concerned about commercial milk produced from pregnant cows. The purpose of the present study was therefore to examine concentrations of serum and urine sex hormones after the intake of cow milk.

Aromatase Excess Syndrome: Identification of Cryptic Duplications and Deletions Leading to Gain of Function of CYP19A1 and Assessment of Phenotypic Determinants

CONTEXTnAromatase excess syndrome (AEXS) is a rare autosomal dominant disorder characterized by gynecomastia. Although cryptic inversions leading to abnormal fusions between CYP19A1 encoding aromatase and its neighboring genes have been identified in a few patients, the molecular basis remains largely unknown.nnnOBJECTIVEnThe objective of the study was to examine the genetic causes and phenotypic determinants in AEXS.nnnPATIENTSnEighteen affected males from six families participated in the study.nnnRESULTSnWe identified three types of heterozygous genomic rearrangements, i.e. a 79,156-bp tandem duplication involving seven of 11 noncoding CYP19A1 exons 1, a 211,631-bp deletion involving exons 2-43 of DMXL2 and exons 5-10 of GLDN, and a 165,901-bp deletion involving exons 2-43 of DMXL2. The duplicated exon 1 functioned as transcription start sites, and the two types of deletions produced the same chimeric mRNA consisting of DMXL2 exon 1 and CYP19A1 coding exons. The DMXL2 exon 1 harbored a translation start codon, and the DMXL2/CYP19A1 chimeric mRNA was identified in only 2-5% of CYP19A1-positive transcripts. This was in contrast to the inversion-mediated chimeric mRNA that had no coding sequence on the fused exon 1 and accounted for greater than 80% of CYP19A1-positive transcripts. CYP19A1 was expressed in a limited number of tissues, whereas its neighboring genes involved in the chimeric mRNA formation were expressed widely.nnnCONCLUSIONSnThis study provides novel mechanisms leading to gain of function of CYP19A1. Furthermore, it appears that clinical severity of AEXS is primarily determined by the tissue expression pattern of relevant genes and by the structural property of promoter-associated exons of chimeric mRNA.

Expression of the Ha-ras Suppressor Family Member 5 Gene in the Maturing Rat Testis

We analyzed the gene expression of Ha-ras suppressor family member 5 (Hrasls5), which is considered to modulate the Ha-ras signaling cascade, from maturing rat testis. Expression was detected primarily in the spermatocytes in the maturing rat testis. The Hrasls5 gene product might function as a tumor suppressor as well as in spermatogenesis, as deduced from its amino acid sequence.

Frequencies of spontaneous breast development and spontaneous menarche in Turner syndrome in Japan.

Abstract. The Growject® database on human GH treatment in Turner syndrome was analyzed in the Turner Syndrome Research Collaboration, and the relationships of the frequencies of spontaneous breast development and spontaneous menarche with karyotype and GH treatment were investigated. One hundred and three cases started GH treatment with 0.5 IU/kg/ week (0.5 IU group), and their dose was increased to 0.35 mg/kg/wk midway through the treatment course. Another 109 cases started GH at a dose of 0.35 mg/kg/wk (0.35 mg group). Spontaneous breast development was observed in 77 (36.3%) of the 212 patients, and spontaneous menarche occurred in 31 patients (14.6%). The frequency of spontaneous breast development was significantly lower in patients with the 45,X karyotype and significantly higher in patients with a structural abnormality of the second X chromosome. The frequency of spontaneous menarche was significantly higher in patients with mosaicism characterized by X monosomy and a cellular line with no structural abnormality of the X chromosome. No significant differences in frequencies of spontaneous breast development and spontaneous menarche were observed between the two dose groups, indicating that GH treatment does not increase the frequency of spontaneous puberty.

Expression of Rat Sperm Flagellum-Movement Associated Protein Genes under 2,3,7,8-Tetrachlorodibenzo-p-dioxin Treatment

We analyzed the gene expression of sperm flagellum-movement associated proteins, namely, adenylate kinase domain containing protein (RGD1303144) and outer dense fiber protein 1. These gene expressions were up-regulated in a maturing rat testis, and RGD1303144 gene was expressed dominantly in spermatocytes. Although 2,3,7,8-tetrachlorodibenzo-p-dioxin administration reduced sperm motility, these gene expressions were not affected.

Expression of the Centrosomal Colon Cancer Autoantigen Gene during Spermatogenesis in the Maturing Rat Testis

We analyzed the gene and protein expression of serologically defined colon cancer antigen 8. Gene expression was upregulated in the maturing rat testis, and was localized to the spermatocytes. Protein was detected in the spermatids and at the sites of mRNA expression. Specific expression of colon cancer antigen 8 was observed in the maturing rat testis.

Expression of anti-Müllerian hormone and its type II receptor in germ cells of maturing rat testis

This work aimed to clarify the expression and roles of anti-Müllerian hormone (AMH) and its type 2 receptor (AMHR2) in seminiferous tubules of maturing rat testes. By quantitative RT-PCR, we determined the relative expressions of Amh, Amhr2, Scp1, Rsbn1, Ngfr, and Rhox5 in rat testes aged 5-49 days (d), and in germ cells and Sertoli cells isolated from 21d testes. Smad 1,5 and 8 expressions were also determined in 21d testes and isolated germ cells. Moreover, we performed in situ hybridization (ISH) of Amh and Amhr2 in 21d testes, and immunohistochemical staining (IHCS) in 10, 15 and 21d testes using antibodies of AMH and AMHR2. In 21d testes, expression of the spermatocyte specific gene, Scp1, increased but that of the round spermatid specific gene, Rsbn1, was faint. By ISH and IHCS, expressions of AMH and AMHR2 were strongly observed in spermatocytes of 21d testes, but not in spermatogonia. In 21d testes, expressions of immature Sertoli cell specific gene, Ngfr, and mature Sertoli cell specific gene, Rhox5, were observed. IHCS confirmed the presence of AMH and AMHR2 in Sertoli cells. Smad 1, 5 and 8 were highly expressed in 21d testes and isolated germ cells. These results indicate that not only immature Sertoli cells but also spermatocytes express AMH and AMHR2 in maturing testes. In this study, we first clarified that spermatocytes coexpressed AMH and AMHR2 in rats. We speculated that AMH produced by spermatocytes and Sertoli cells binds AMHR2 of spermatocytes and acts through SMADs.

Favorable Impact of Growth Hormone Treatment on Cholesterol Levels in Turner Syndrome

Background: Patients with Turner syndrome (TS) are prone to having metabolic abnormalities, such as obesity, dyslipidemia, hypertension, hyperinsulinemia and type 2 diabetes mellitus, resulting in increased risks of developing atherosclerotic diseases. Objective: To determine the effect of growth hormone (GH) therapy on serum cholesterol levels in prepubertal girls with TS enrolled in the Turner syndrome Research Collaboration (TRC) in Japan. Patients and methods: Eighty-one girls with TS were enrolled in the TRC, and their total cholesterol (TC) levels before GH therapy were compared with reported levels of healthy school-aged Japanese girls. TC levels after 1, 2 and 3 yr of GH treatment were available for 28 of the 81 patients with TS. GH was administered by daily subcutaneous injections, 6 or 7 times/wk, with a weekly dose of 0.35 mg/kg body weight. Results: Baseline TC levels revealed an age-related increase in TS that was in contrast to healthy girls showing unchanged levels. During GH therapy, TC decreased significantly after 1 yr of GH treatment and remained low thereafter. Conclusions: Girls with untreated TS showed an age-related increase in TC that was a striking contrast to healthy girls, who showed unchanged levels. GH therapy in girls with TS brought about a favorable change in TC that indicates the beneficial impact of GH on atherogenic risk.

Expression of a Novel Sphingosine 1-Phosphate Receptor Motif Protein Gene in Maturing Rat Testes

We screened a novel sphingosine 1-phosphate receptor type 5 motif-containing gene, LOC290876, from maturing rat testes by differential display. Gene expression was testis-specific, increased at week 7, and continued for 15 weeks. PCR analysis clarified two gene transcript isoforms, which were expressed at the same level in all samples detected in Northern blot. The deduced amino acid sequences of the two isoforms revealed differences in carboxyl terminal sequences. Gene and protein expression in the testes was dominant in the spermatocytes, and protein expression was localized to the nucleus. Taken together, these findings suggest that the LOC290876-encoded gene product is not involved in sphingosine signaling, but has distinct roles in the nucleus during the processes of spermatocyte maturation and meiosis producing spermatids.

Rat Stem-Cell Leukemia Gene Expression Increased during Testis Maturation

We found that stem-cell leukemia (SCL), also known as T cell acute-lymphocytic leukemia (Tal-1) gene expression, was upregulated in the maturing rat testis. Strong expression of Tal-1 was detected in the normal maturing rat testis by Northern blotting. Western blotting revealed the protein size to be about 34 kDa. Protein expression was wide-spread in spermatocytes, spermtids and spermatogonia in accordance with the seminiferous epithelium cycle, as determined by an analysis of immunohistochemistry. Gene expression of Tal-1 regulatory gene, NKX3.1, was negatively correlated with Tal-1 expression. Human Tal-1 expression in the maturing testis as well as in bone marrow was observed, which suggests that the gene product is a novel cancer-testis antigen candidate. Taken together, TAL-1 may be involved in cell division, morphological changes, and the development of spermatogenic cells in the normal rat testis.