利血平和丘脑下部促黄体素释放激素类似物(LHRH-A)对大鳞副泥鳅促性腺激素细胞的分泌活动和排卵的促进作用

利血平能使神经分泌细胞的儿茶酚胺贮存量减少甚至消耗殆尽,导致多巴胺作为GRIF的作用减弱,从而显著增强LHRH-A促进GtH分泌和诱导排卵的效应。对大鳞副泥鳅,利血平和LHRH-A同时注射或者利血平比LHRH-A提前3小时注射,都能激活GtH细胞,显著增强其分泌活动并诱导排卵。利血平的最低有效剂量为1—5微克/克体重。利血平(25微克/克体重)+LHRH-A(0.05微克/克体重)的催产效果和多巴胺拮抗物pimozide(1微克/克体重)+LHRH-A(0.05微克/克体重)的催产效果一样,排卵率都达到了100％。

An association study of HFEgene mutation with idiopathic male infertility in the Chinese Han population

Mutations in the haemochromatosis gene （HFE） influence iron status in the general population of Northern Europe, and excess iron is associated with the impairment of spermatogenesis. The aim of this study is to investigate the association between three mutations （C282Y, H63D and S65C） in the HFEgene with idiopathic male infertility in the Chinese Han population. Two groups of Chinese men were recruited： 444 infertile men （including 169 with idiopathic azoospermia） and 423 controls with proven fertility. The HFEgene was detected using polymerase chain reaction-restriction fragment length polymorphism （PCR-RFLP） technique. The experimental results demonstrated that no C282Y or $65C mutations were detected. Idiopathic male infertility was not significantly associated with heterozygous H63D mutation （odds ratio=O.801, 95% confidence interval=0.452-1.421, X2=0.577, P=0.448）. The H63D mutation frequency did not correlate significantly with the serum luteinizing hormone （LH）, follicle-stimulating hormone （FSH） and testosterone （T） levels in infertile men （P=0.896, P=0.404 and P=O.05, respectively）. Our data suggest that the HFEH63D mutation is not associated with idiopathic male reproductive dysfunction.

Russian Collaborative Development of Reproduction Technologies for the Sustainable Management of Amphibian Biodiversity

Reproduction technologies(RTs)can provide for the reliable reproduction of amphibians,as well as perpetuation of species genetic variation with the use of biobanks.In 1982,in anticipation of the biodiversity conservation crisis,major Russian institutions collaborated in a dynamic program to develop and implement RTs for the sustainable management of amphibian biodiversity.An initial primary focus was the captive breeding of threatened Russian endemic anuran and caudate species,using RTs that varied from environmental manipulation to the use of exogenous gonadotropic hormones to stimulate reproduction.These species were mostly from Palearctic or cool mountain regions,but also included a wide range of species from warm regions.Other early achievements included the successful cryopreservation of anuran spermatozoa and anuran diploid pluripotent cell nuclei,in order to store both the matrilineal and patrilineal genomes in biobanks,with their subsequent development to the blastula stage after implantation into enucleated oocytes.After the turn of the 21st Century,in support of the priorities of the Amphibian Conservation Action Plan(2007),we developed RTs for the refrigerated storage of testicular or urinary spermatozoa for days to weeks at 4℃,the cryopreservation of urinary spermatozoa using anovel cryoprotectant,the in vitro fertilisation of hormonally induced oocytes either fresh or after refrigerated ex situ or in situ storage,and the artificial insemination of salamanders with fresh spermatozoa.In this article,we describe previously unpublished techniques and techniques from obscure Russian sources.

A Qualitative Model of the Interaction of Sexual Behavior and Hormone Gene Transcription in Male Blue Gourami during Reproduction

In the present study, a model is suggested to describe hormone control in male blue gourami (Trichogaster trichopterus) along the gonadotropic brain-pituitary- gonad axis (BPG axis) and the hypothalamic-pituitary-somatotropic axis (HPS axis). This model is based on the cloning and transcription of genes encoding hormones of the two axes involved in spermatogenesis during blue gourami reproduction. Gene transcription is affected by environmental, biological, and behavioral factors. Mature males were examined in two different stages—nonreproductive in high-density habitats and reproductive in low-density habitats. Based on gene transcription, gonadotropin-releasing hormone 1 (GnRH1) was involved in controlling spermatogenesis (spermatogonia to spermatids) via the BPG axis in nonreproductive and reproductive stages by controlling follicle-stimulating hormone (FSH), 11-ketotestosterone (11KT) and 17β-estradiol (E2). However, GnRH3 had a larger effect during the reproductive stage via the BPG axis (spermatids to sperm) on luteinizing hormone (LH), 11KT, and 17α-hydroxyprogesterone (17P). At the same time, the HPS axis was involved in spermatogenesis via pituitary adenylate cyclase-activating polypeptide (PACAP) and its related peptide PRP (formerly known as GHRH-like peptide) in the brain, and growth hormone (GH) in the pituitary affected synthesis of insulin-like growth factor 1 (IGF1) in the liver.

CLINICAL STUDY ON EFFECT OF TRIPTERYGIUM WILFORDII HOOK. F. GLYCOSIDES ON UTERINE LEIOMYOMA

Objective To observe the therapeutic effect and side reactions of Tripterygium wilfordii Hook,f. ( GTW) glycosides on patients with uterine leiomyomas. Methods 65 normally cycling women with symptomatic uterine leiomyomas received 40mg daily dose GTW for 3 to 6 months. Baseline ultrasound tests were obtained to evaluate the sizes of myomas and uterus, then repeated three and six months after treatment. Blood samples were collected to determine the hormonal levels of in the mid-follicular and mid-luteal phases of the menstrual cycles before GTW therapy and at 3~4 months and 5~6 months after treatment. Results Significant decrease in leiomy-oma volume was shown in 39 of 65 (60% ) and 28 of 40 ( 70% ) patients after 3~4 months and 5~6 months of treatment, respectively. The decrease of the volume of leiomyoma was time-dependent as while 27. 84% and 51.60% in 3~4 months and 5 ~ 6months, respectively. 25 of 65 patients had amenorrhea during the course of treatment. Tripterygium wilfordii glycosides treatment induced a significant increase in LH and FSH levels (P < 0. 01) as compared with pretreatment values. In contrary, a significant decrease in E2 and P levels (P <0. 05) was found, but no changes were observed in T and PRL levels after treatment. Conclusion Tripterygium wilfordii might serve as an effective therapeutic agent for leiomyomas with fewer side effects. A reversible inhibitory effect on the ovary by Tripterygium wilfordii glycosides may be one of the mechanisms of Tripterygium wilfordii in decreasing leiomyoma volume.

ULTRASTRUCTURAL STUDY OF THE HATSCHEK'S PIT EPITHELIAL CELLS OF AMPHIOXUS

The authors have observed, using an electron microscope, that the number of thesecretory granules and the development of various organelles in the apical epithelial cellof the Hatschek’s pit showed a positive correlation with the gonadal development andmaturity. At the same time, only the epithelial cells respond to GnRH-A(gonadotropin-releasing hormone analogue). Both cytological and endocrinological experiments demon-strate that the cell may be the primitive gonadotropic cell of amphioxus.