• Korean Journal of Animal Reproduction
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• v.22 no.2
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• pp.177-186
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• 1998

While tubal pregnancy is frequently observed in human, it has been reported to rarely occur in other mammals. To investigate the reason of the absence of tubal pregnancy in other mammals, the ability of bovine tubal(oviductal) fluid to su, pp.rt the outgrowth of mouse embryos waw examined by using an in vitro model system wherein the trophoblast cells of hatched mouse blastocysts attach to and outgrow on tissue culture plates coated with FBS. When mouse blastocysts grwon in vitro from 2-cell embryos were cultrued in the dishes coated with FBS, human follicular fluid(hFF) and bovine follicular fluid(bFF), respectively, underwent outgrowth by spreading onto the plastic dishes during 48 hr. In contrast, none of the embryos cultured in the dishes coated with BSA or bovine obiductal fluid(bOF) did outgrow but remained as late blastocysts. Since addition of bOF at 5mg/ml or higher conc. to the culture medium resulted in degeneration of all embryos during 48 hr culture, 10mM conc. of glutathione(GSH) was added to the bOF-containing medium to circumvent the toxicity of bOF. In addition, bOF was heated $65^{\circ}C$ for 30 min(hbOF) to get rid of its precipitating properties and then added to the culture medium. When blastocysts were cultured in the presence of both hbOF and GSH 45.4% of embryos attached to the culture dishes. However, none of these embryos underwent outgrowth. Fially embryos were cultured in the presence of both hbOF and GSH but in the dishes coated with FBS. When they were examined after 48 hr, all of the blastocysts exhibited well-developed outgrwoth. Based upon these results, it is concluded that bovine oviductal fluid is capable of su, pp.rting the attchment of mouse blastocysts onto the culture plaste whereas it cannot promote the outgrwoth of mouse blastocysts in vitro, probably due to the lack of outgrwoth factor.

• Korean Journal of Animal Reproduction
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• v.18 no.4
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• pp.285-297
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• 1995

The mammalian oviduct is a place where ontogeny of an animal begins. Nowadays, however, it is possilbe to manipulate a part of physiological events occurring in the oviduct so that fertilization of gametes and early embryonic development of zygotes could proceed outside oviductal environment. Rabbit zygotes readily develop to blastocysts in a conventional culture condition. Most of the mouse fertilized eggs do so when cultured under a specific environment, e.g., in a medium containing ethylenediamine tetraacetic acid. Similarly, a significant number of zygotes from rat, sheep, pig or cattle can develop to blastocysts if they are cultured in the presence of particular component which appear to be somewhat species-specific. Instead of changing the components of medium, somatic cells including oviductal epithelial cells, have widely been used to improve mammalian embryonic development in vitro. Many investigators have reported that mammalian zygotes, whether fertilized in vivo or in vitro, could develop to blastocysts when they were cultured on a monolayer of various kinds of somatic cells or even in a somatic cell-conditioned medium. While little is known about the nature of embryotrophic factor(s) produced in vitro by somatic cells, the existence fo oviduct-specific protein(s) has consistently been demonstrated in many laboratories. Some of these proteins are reported to be associated with oviductal eggs. However, the physiological role of these proteins has still to be determined. Recently we observed that the perivitelline space of mouse oocytes was fluorescently stained with various fluorochrome-protein conjugates following ovulation into the oviducts or upon their expossure to oviductal extracts. Furthermore, it was also found that cattle or pig oviductal fluid gave similar results when examined using mouse ghost ZP. These observations lead to suggest that mammalian oviduct induces changes of biochemical properties of oocytes. Further studies are needed to clarify the nature of oviductal factor(s) and the physiological meaning of the reaction.

• 대한생식의학회:학술대회논문집
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• 1996.11a
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• pp.61.1-61.1
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• 1996

• 대한생식의학회:학술대회논문집
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• 1996.11a
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• pp.61.2-62
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• 1996

• Development and Reproduction
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• v.2 no.1
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• pp.29-37
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• 1998

To investigate the role of oviductal environment in early mammalian development, we examined the effects of bovine oviductal fluid (bOF) on the development of mouse 2-cell embryos in vitro. All of the embryos cultured in medium containing 5% or more of bOF underwent degeneration after 48 hr, whereas only 5% of embryos cultured in the absence of bOF degenerated. When bOF was heated at 65 \circ C for 30 min and then added to the culture medium, the embryotoxic effect of bOF was not removed at all such that none of the embryos remained alive after 48 hr. However, when bOF heated at 90 \circ C for 30 min was added to the culture, nearly most (95%) of embryos was alive. Similarly, pretreatment of bOF with 0.1% chymotrypsin for 1 hr or overnight following heating at 65 \circ C resulted in the development of 95.5% of mouse 2-cell embryos to early blastula after 48 hr culture in the presence of treated bOF. Interestingly addition of an anti-oxidant removed the evbryotoxic effect of bOF so that 91.0% of 2-cell embryos developed to morulae or blastulae in the presence of both 5% bOF and 10 mM of glutathione (GSH) after 48 hr culture. Neither oxidized form of GSH (GSSG) nor other antioxidants, however, could support the embryonic development in the presence of bOF. From these results, it is suggested that bOF contains a protein-like factor(s) which becomes embryotoxic by exposing in vitro, probably via oxidation reaction.

• Proceedings of the Korean Society of Developmental Biology Conference
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• 2002.02a
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• pp.44-44
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• 2002

• Clinical and Experimental Reproductive Medicine
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• v.23 no.3
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• pp.333-339
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• 1996

Cumulus cells have possibly influence on fertilization of mouse oocytes and their subsequent development in vitro, because they readily produce lactate and pyruvate and can modify the concentration of substrates in the medium. In vitro fertilization of mouse oocytes with cumulus mass and their developments in five media which were differently composed in concentrations of glucose, lactate and pyruvate were observed. In the absence of glucose (CZ2 medium) decreased (p<0.01) the percentage of fertilization and embryos reaching the blastocyst stage. But, in the same concentration of glucose, lactate and pyruvate as mouse oviductal fluid with (MT1 medium) and without (MT2 medium) cumulus mass and modified CZB medium containing glucose (CZ1 medium) had no effects (p>0.05). These studies indicate that the adjustments of energy substrates concentration to the physiological level did not improve the fertilization of mouse oocytes with cumulus mass and their development in vitro, and the deletion of glucose showed adverse effects.

• Development and Reproduction
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• v.6 no.2
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• pp.97-104
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• 2002

In most mammals, mature oocyte-cumulus complexer(OCCs) ovulate into the oviduct where fertilization by sperm takes place. However, the complex that fail to fertilize eventually undergoes degeneration while they reside in the oviduct. Yet there is no blown mechanism how both oocyte and cumulus cells degenerate. Using human follicular fluid (hFF), bovine oviductal tissue extract (BOX) and mouse OCC, the present study aimed to find how the oviduct influence the viability of the oocyte and cumulus cells in vitro. There was no difference of oocyte maturation rate between the control and BOX-treated groups. However, there was a significant difference in the survival of cumulus cells between two groups. Cumulus cells cultured in the presence of hFF alone underwent initially expansion and then they formed monolayer in the culture dish. Even after 72 hr, they proliferated well and showed fibroblast-like morphology. Cumulus cells cultured in the presence of both hFF and BOX also expanded after 24 hr, however, after 72 hr culture, they eventually detached and degenerated. Cumulus cells cultured in the BOX alone gave a similar drastic result. When the cumulus cells cultured in the presence of BOX were stained with DAPI, their nuclei showed partial condensation and fragmentation. After detailed analysis of these cells by TUNEL assay, many nuclei of them exhibited well stained spots indicating the signs of apoptosis. Based upon these observations, it is suggested that BOX might possess a factor that leads mouse cumulus cells to undergo apoptosis in vitro.

• Clinical and Experimental Reproductive Medicine
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• v.25 no.2
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• pp.161-170
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• 1998

Protein expression patterns of matrix metalloproteinases (MMPs) were examined in mouse reproductive organs during estrous cycle. Estrous cycle was classified into diestrus, proestrus, estrus or metestus and MMP expression was analyzed by zymography using gelatin as a substrate. Uterine fluid (UF) obtained both at diestrus and proestrus exhibited 4 major MMPs including 106kDa, 64kDa, 62kDa and 59kDa gelatinases. However, in UF at estrus, the gelatinolytic activity of 64kDa MMP disappeared and that of 106kDa and 62kDa MMPs dramatically decreased. At metestrus, 64kDa MMP activity reappeared and 106kDa and 62kDa MMP exhibited increased activities such that the band intensity of 106kDa was comparable to that in UF at diestrus. Gelatinolytic activity of 59kDa MMP was not changed throughout the cycle. Both ovarian and oviductal tissue homogenate revealed 4 MMPs which corresponded to the 4 MMPs of UF. However, unlike UF MMPs, gelatinolytic activity of these MMPs did not show distinct changes throughout the cycle. Either an inhibitor of MMP, 1,10-phenanthroline, or a metal chelator, EDTA, abolished the appearance of the above MMP activities in gelatinated gel whereas a serine proteinase inhibitor, phcnylmethylsulfonyl fluoride, failed to inhibit the appearance of MMP activities, proving that gelatinolytic activity of the above reproductive tissues were due to the enzymatic activity of MMP. When gclatinolytic activity of mouse serum was examined, it revealed 5 MMPs (131kDa, 106kDa, 89kDa, 64kDa and 62kDa bands) and one gelatinase (84kDa) band. From these results, it is concluded that the protein expression of MMPs of mouse reproductive organs, particularly uterus, is temporally regulated during estrous cycle and uterine 106kDa, 64kDa and 62kDa MMPs are suggested to play an important role in cyclic tissue remodeling of mouse uterus.