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Spermiation is the final phase of spermatogenesis leading to release of mature spermatids into the lumen of the seminiferous tubules. Morphologically, it involves a series of events, namely removal of excess spermatid cytoplasm, removal of ectoplasmic specialization, formation of tubulobulbar complex, and final disengagement of the spermatid from the Sertoli cell. Previous studies in our laboratory have shown that administration of 17beta-estradiol at a dose of 100 microg/kg body weight for 10 d resulted in failure of spermiation. This was accompanied by a suppression of FSH and intratesticular testosterone with a concomitant rise in intratesticular 17beta-estradiol. The present study was undertaken to determine the cause of failure and subsequently the molecular events in spermiation. Electron microscopic and confocal studies revealed an absence of tubulobulbar complex in step 19 spermatids after estradiol treatment, highlighting the significance of these structures in spermiation. It was further observed that treatment affected the Sertoli cell cytoskeleton and Arp2/3 complex that is critical for de novo polymerization of actin during tubulobulbar complex formation. In conclusion, the present study reports the role of 17beta-estradiol in inhibiting the formation of tubulobulbar complex, which could be one of the mechanism by which environmental estrogens influence male fertility.

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OBJECTIVE: To determine the effect of tamoxifen treatment on global and insulin-like growth factor 2-H19 imprinting control region (Igf2-H19 ICR)-specific DNA methylation in rat spermatozoa and analyze its association with postimplantation loss. DESIGN: Experimental prospective study. SETTING: Animal research and academic research facility. SUBJECT(S): Male and female 75-day-old Holtzman rats. INTERVENTION(S): Global and Igf2-H19 ICR-specific DNA methylation was analyzed in an epididymal sperm sample in control and tamoxifen-treated rats at a dose of 0.4 mg tamoxifen/kg/day. DNA methylation status was correlated to postimplantation loss in females mated with tamoxifen-treated males. MAIN OUTCOME MEASURE(S): Global sperm DNA methylation level, methylation status of Igf2-H19 ICR in sperm, postimplantation loss. RESULT(S): Tamoxifen treatment significantly reduced methylation at Igf2-H19 ICR in epididymal sperm. However, the global methylation level was not altered. A mating experiment confirmed a significant increase in postimplantation loss upon tamoxifen treatment and showed significant correlation with methylation at Igf2-H19 ICR. CONCLUSION(S): Reduced DNA methylation at Igf2-H19 ICR in rat spermatozoa upon tamoxifen treatment indicated a role of estrogen-associated signaling in the acquisition of paternal-specific imprints during spermatogenesis. In addition, association between DNA methylation and postimplantation loss suggests that errors in paternal imprints at Igf2-H19 ICR could affect embryo development.

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The presence of estrogen receptor beta and aromatase in the germ cell has highlighted the physiological role of the traditionally female hormone, estrogen, in spermatogenesis. Estrogen receptor alpha knockouts and aromatase knockouts have further accentuated the role of estrogen in germ cell maturation. To delineate the direct action of estrogen in the seminiferous epithelium, we studied the effects of high intratesticular estradiol. The study was based on the fact that administration of exogenous estradiol suppresses the hypothalamus pituitary gonadal axis (HPG) with a dose-dependant concomitant increase in intratesticular estrogen levels. Three doses of 17-beta estradiol, namely 20, 100 and 200 microg/kg/day were administered subcutaneously to different batches of adult male rats for 10 days. The effect of the three doses on serum hormonal profile, intratesticular testosterone (T) and estradiol (E) levels were studied. Twenty micrograms per kilograms per day of 17-beta estradiol affected the hypothalamus-pituitary axis, reducing serum gonadotropins and intratesticular testosterone; however, 100 microg/kg/day of 17-beta estradiol decreased serum FSH and intratesticular testosterone, increased intratesticular estradiol, but had no effect on serum LH. Interestingly, 200 microg/kg/day of 17-beta estradiol decreased serum and intratesticular T without any effect on serum gonadotropins. This could be attributed to the positive feedback effect of estrogens on gonadotropins. In the testis, morphologically two visible effects were seen, namely 'spermiation failure' in all three doses attributed to the suppression of T and FSH and a 'maintenance effect' in the 100 microg/kg/day attributed to E and/or 10% of available intratesticular T. The direct effect of an increase in intratesticular estradiol levels was observed in terms of a decrease in apoptosis in germ cell. The study, therefore, suggests that 100 microg/kg/day of 17-beta estradiol could be used to study the effects of high intratesticular estradiol with a concomitant decrease in intratesticular T and serum FSH levels on spermatogenesis.

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Nuclear transplantation studies demonstrated the importance of paternal contribution to embryogenesis. Paternal treatment with agents like cyclophosphamide and 5-azacytidine has been shown to cause an increase in pre-implantation loss (PIL) and post-implantation loss (POL). Studies from our laboratory have shown that paternal tamoxifen treatment increases PIL and POL. It was observed that the PIL occurred at day 2 of gestation (embryo at 2-4 cell stage) and the POL occurred around day 9 of gestation (mid-gestation). The insulin-like growth factor (IGF) system represents one of the major growth-controlling system expressed in the embryo. Several studies suggest that in rodents, insulin-like growth factor 2 (Igf2) signaling through the insulin-like growth factor type 1 receptor (Igf1r) modulates embryo growth at around days 9-11 of gestation (mid-gestation). The present study was undertaken to evaluate the expression of Igf2 and Igf1r transcript by RT-PCR in the post-implantation embryos obtained after paternal tamoxifen treatment. It was observed that both the genes were down regulated in resorbed embryos (POL). Since Igf2 is an imprinted gene and the imprint mark is established during spermatogenesis, the present study suggests that paternal tamoxifen treatment may have affected imprinting of the gene during spermatogenesis thereby decreasing its expression and leading to increase in POL. This is to our knowledge the first study correlating the increase in post-implantation embryo loss obtained after paternal drug treatment with the decrease in the expression of Igf2 in these embryos.

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Cell-based bioassays have been suggested for screening of hormones and drug bioactivities. They are a plausible alternative to animal based methods. The technique used is called receptor/reporter system. Receptor/reporter system was initially developed as a research technique to understand gene function. Often reporter constructs containing viral promoters were used because they could be expressed with very 'high' magnitude in a variety of cell types in the laboratory. On the other hand mammalian genes are expressed in a cell/tissue specific manner, which makes them (i.e. cells/tissues) specialized for specific function in vivo. Therefore, if the receptor/reporter system is to be used as a cell-based screen for testing of hormones and drugs for human therapy then the choice of cell line as well as the promoter in the reporter module is of prime importance so as to get a realistic measure of the bioactivities of 'test' compounds. We evaluated two conventionally used viral promoters and a natural mammalian promoter, regulated by steroid hormone progesterone, in a cell-based receptor/reporter system. The promoters were spliced into vectors expressing enzyme CAT (chloramphenicol acetyl transferase), which served as a reporter of their magnitudes and consistencies in controlling gene expressions. They were introduced into breast cell lines T47D and MCF-7, which served as a cell-based source of progesterone receptors. The yardstick of their reliability was highest magnitude as well as consistency in CAT expression on induction by sequential doses of progesterone. All the promoters responded to induction by progesterone doses ranging from 10-12 to 10-6 molar by expressing CAT enzyme, albeit with varying magnitudes and consistencies. The natural mammalian promoter showed the most coherence in magnitude as well as dose dependent expression profile in both the cell lines. Our study casts doubts on use of viral promoters in a cell-based bioassay for measuring bioactivities of drugs and hormones for human therapy and suggests caution regardingtranslation in toto, of a research technique as a cell-based bioassay for drug screening.

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Tamoxifen at a dose of 400 microg/kg/day has been reported to reduce the fertility of adult male rats and alter the pattern of cauda sperm motility from forward progressive to circular yawing type. Since sperm motility is powered by mitochondria, the effect of tamoxifen on mitochondrial function was studied. Tamoxifen treatment significantly increased rhodamine 123 fluorescent dye uptake by sperm mitochondria, reflecting an altered mitochondrial membrane potential. ATP and DAG levels, activities of glycolytic enzymes, creatine kinase and PKC all remained unaffected by tamoxifen. This is also the first report describing the presence of PKC alpha and beta in rat sperm. Morphological and biochemical integrity of sperm membranes was determined by electron microscopy and malondialdehyde levels, which were unaltered after tamoxifen treatment. This study indicates that the altered sperm motility induced by tamoxifen is accompanied by changes in mitochondrial membrane potential, but in the absence of any detectable change in membrane integrity, lipid peroxidation, ATP levels and activities of glycolytic enzymes, creatine kinase and PKC.

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We have earlier reported that oral administration of tamoxifen causes a dose-dependent reduction in the fertility of adult male rats. The decrease in fertility was mainly due to an increase in pre-implantation loss without an effect on fertilizing ability. During the study, an increased incidence of post-implantation loss of conceptuses sired by tamoxifen-treated male rats was observed. A detailed study was undertaken to investigate dose-related changes in pre- and post-implantation loss and the stage(s) of development at which these losses occurred. The present study demonstrates that tamoxifen treatment produced few normal litters as well as significantly increased pre-implantation loss without affecting the rate of fertilization. Also a significant increase in the number of degenerating embryos at the 2-4-cell stage (days 1-2 of gestation), retrieved from the oviduct/uterus of females mated with tamoxifen-treated males was observed. Histology of the resorbed fetuses, in both control and treated groups, showed presence of trophoblast outgrowth indicative of early placenta formation, which normally occurs on days 8-9 of gestation. The present results suggest that pre-implantation loss occurred at the 2-4-cell stage and the post-implantation loss occurred around days 8-9 of gestation, i.e. around midgestation. The possible effects of paternal tamoxifen treatment on embryogenesis may be due to the reduction of androgens or by the blockage of the estrogen receptor by tamoxifen, thereby affecting germ cell maturation during spermatogenesis.

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