Mating with seminal vesicle-excised male can affect the uterus phospholipid fatty-acids composition during implantation in an experimental mouse model

ABSTRACT Purpose No comprehensive information is available about uterus fatty acid (FA) change during implantation period and possible effects of the seminal vesicle secretion on it. Materials and Methods In this study, we evaluated FA composition of uterus phospholipids during the implantation period in intact and seminal vesicle-excised (SVX) mated female mice. Forty NMRI female mice were divided into control (mated with intact male) and seminal vesicle excised (SVX)-mated (mated with SVX-male) groups. The phospholipid fatty acids composition was monitored during the first five days of pregnancy using gas chromatography and also implantation rate was evaluated on fifth day of pregnancy. Results We found that levels of linoleic acid (LNA) and arachidonic acid (ARA) showed a decreasing trend from the first to the third day of pregnancy and then started to increase on the fourth day and peaked on the fifth day. In contrast, the level of saturated FA (SFA) increased on the second and third day of pregnancy compared to the first (p<0.05) and then decreased on the fourth and fifth. We also found that the seminal vesicle secretion could affect the levels of LNA, ARA, SFA, and PUFA in uterine phospholipids especially on second and third day. Moreover, there was a positive correlation between ARA level and implantation rate in control but not SVX-mated groups. Conclusions It can be concluded that several uterus FA that have important roles in early pregnancy could be affected by seminal vesicle secretion.

Effect of Flutamide in Mouse Spermatogenesis and on the Function of Seminal Vesicle and Prostate

RESUMEN: La espermatogénesis está regulada por el eje hipotálamo-hipófisis-gónada, y los andrógenos juegan un rol fundamental en sus últimas etapas. La administración del antiandrógeno flutamida interfiere con ella y con la función de órganos andrógeno dependientes (próstata (P) y vesícula seminal (VS)). En este estudio se inyectó flutamida (10 mg/Kg peso corporal) a 10 ratones y vehículo al control(n=6). Los ratones se sacrificaron a las 24(n=5) y 72(n=5) horas. En cortes de testículo se midió el diámetro del túbulo (TD) y la altura del epitelio (EH). P y VS se maceraron, y se determinaron las concentraciones de fructosa (VS) y zinc (P). No existe diferencia significativa en el TD entre los grupos. Sin embargo, el grupo de 72 h presenta menor EH respecto al control (p<0.01). La fructosa es menor sólo a las 72 h (p<0.01), intervalo en el cual se presenta la mayor concentración de zinc (p<0.01). La disminución de la EH se explicaría por el desprendimiento de las espermátidas elongadas, debido al bloqueo del efecto de la testosterona, sin reflejarse en el TD a intervalo corto. La disminución de fructosa refleja claramente la deprivación de andrógenos, en tanto que la concentración prostática aumentada a 72 hrs sugiere deficiencia en la secreción de zinc.

Metallothionein in male reproductive organs of adrenalectomized and hydrocortisone-treated Wistar rats.

Adrenalectomy resulted in an increase in metallothionein (MT) levels in testes, caput and cauda epididymis and prostate of rats but not in seminal vesicles where its levels decreased significantly. Inspite of administration of hydrocortisone, MT in testes, prostate (1.2 mg), caput (0.3 mg days 2, 8; 0.6 mg and 1.2 mg) and seminal vesicles (0.3 mg day 2, 4; 0.6 mg and 1.2 mg) remained increased. Thus adrenal insufficiency/hydrocortisone has no direct influence on MT levels. However, the increased levels of MT can be related to its ability to protect the cells from free radical damage caused by atrophy of reproductive tissues in adrenalectomised rats. Exogenously administered hydrocortisone to ADX rats resulted in return to ADX state as hydrocortisone metabolizes (half-life < 12 hr) and hence MT levels remained increased. The observations could provide a clue for the physiological functioning of the male reproductive tissue in a state of adrenal deprivation and hormonal supplementation.

Polyamines in the male reproductive system

This review covers some common aspects of the biosynthesis, interconversion pathways and biochemical functions of polyamines. A particular emphasis is given in experitemtal models as well as humans, to their presence in the male gonad, postate gland, seminal vesicles, epididymis and semen. The interaction between hormones (androgens, LH, FSH and PRL) and the main enzymes involved on the polymine biosynthesis, and the relationship of these compounds on cell growth and differentation, are also discussed. In this regard, an attention is offered to the potential role of polymines during early spermatogenesis stages and the use of some enzymed involved in their biosynthesis as sensitive and specific markers of the action of androgens and antiandrogens in the epididymis. Finally, a special issue is addressed to the controversial information documented on polymines, their oxidation products and the relationship with male fertility.

Hormonal profiles in blood and seminal plasma of infertile men with and without varicocele

Follicle stimulating hormone [FSH], lutenizing hormone [LH], prolactin, testosterone and estradiol were determined in blood seminal plasma of 60 infertile males, 30 had varicocele and 30 without varicocele, together with 10 fertile men who served as controls. FSH was significantly higher in both blood and seminal plasma of infertile men with varicocele compared to the other two groups. LH and prolactin levels in seminal plasmae were insignificantly higher in infertile men with and without varicocele compared with controls. Testosterone and estradiol levels in blood and seminal plasma were significantly lower in the infertile group with varicocele compared to the group without varicocele and the control group. The decreased levels of both steroids in infertile men with varicocele could account for the disturbed function of spermatozoa observed in category of infertile men

Effect of low-intensity pulsed ultrasound on prepubertal rat testis

The testes of prepubertal male rats (N -12) aged 21 days were stimulated with low-intensity pulsed ultrasound (1.5-MHz frequency, 1-KHz repetion pulse rate, 200-*s pulse width, 30-V peak-to-peak amplitude and 20-mW/cm* intensity) applied to the skin for 20 min/day for 7 days. Control rats (N-8) were manipulated in the same manner but not submitted to ultrasound. Ultrasound stimulation promoted a significant increase in plasma testosterone (62%) leading to a significant increase in seminal vesicle relative weight (35%) as well as an increase in the fructose (92%) and DNA (200%) contents of the gland. No differences were detected between ultrasound-treated and control animals, in terms of body weight and the relative weights of testis, cauda epididymidis, testis DNA and mitosis

Lipids in accessory sex glands of immature, mature and castrated male rats.

The distribution of lipids in accessory sex glands of male rats (immature, adult and castrated) has been analysed. The total lipids and phospholipids in adult rats were maximum in caput epididymis and minimal in prostate. An intermediary picture existed in the cauda epididymis and seminal vesicle. In general, phosphatidyl choline and ethanolamine were the major phospholipids in the tissues. Castration depleted the phospholipids in all the tissues. Glycerides were found to accumulate in caput and cauda epididymis, but were depleted in seminal vesicle and prostate in castrated rats. In immature rats, the total lipids were more than that of adults in caput and cauda epididymis but were less in seminal vesicle and prostate. It is suggested that these discrepancies may be due to the differences in the endogenous titres of hormones, and/or associated with structural and functional specificity of the tissues.