The endometrium undergoes a cyclic growth and tissue remodeling as changes of epithelial cells, and plasminogen activators (PAs) are related to endometrium tissue remodeling. This study was to evulate expression of urokinase-type plasminogen activator (uPA) and tissue-type plasminogen activator (tPA) in porcine uterine epithelial cells. In results, the uPA and tPA were expressed in uterine tissue, epithelium and secretory glands in porcine endometrial cell. In addition, the uPA and tPA were expressed in cultured epithelial cells, and it were mainly expressed in cytoplasm. In porcine uterine tissue and epithelial cells, uPA activity was higher than activity in tPA. In PAs mRNA expression levels, uPA mRNA level was significantly higher than tPA mRNA level (P<0.05). The fluorescence intensity of uPA protein was also higher than fluorescence intensity of tPA protein, and uPA protein expression was significantly higher than in tPA protein expression (P<0.05). Therefore, we suggest that a physiological function in porcine uterine epithelial cells should be more influenced by uPA than in tPA during pre-ovulatory phase. The endometrium undergoes a cyclic growth and tissue remodeling as changes of epithelial cells, and plasminogen activators (PAs) are related to endometrium tissue remodeling. This study was to evulate expression of urokinase-type plasminogen activator (uPA) and tissue-type plasminogen activator (tPA) in porcine uterine epithelial cells. In results, the uPA and tPA were expressed in uterine tissue, epithelium and secretory glands in porcine endometrial cell. In addition, the uPA and tPA were expressed in cultured epithelial cells, and it were mainly expressed in cytoplasm. In porcine uterine tissue and epithelial cells, uPA activity was higher than activity in tPA. In PAs mRNA expression levels, uPA mRNA level was significantly higher than tPA mRNA level (P<0.05). The fluorescence intensity of uPA protein was also higher than fluorescence intensity of tPA protein, and uPA protein expression was significantly higher than in tPA protein expression (P<0.05). Therefore, we suggest that a physiological function in porcine uterine epithelial cells should be more influenced by uPA than in tPA during pre-ovulatory phase.

The present study was performed to identify the relationship between plasminogen activator (PA) and Heat Shock Protein-90 (HSP-90) in porcine uterus tissues during the estrous cycle. Porcine uterus tissues were obtained from preovulatory (Pre-Ov), post-ovulatory (Post-Ov) and early to mid-luteal (Early-mid L) stages. The protein was extracted from uterus tissue by using M-PER Mammalian Protein Extraction Reagent. Proteins were refined by RIPA Buffer and quantified by BCA methods. As results, t-PA expression was significantly (p<0.05) higher from pre-ovulatory(Epithelium tissue: 29,067 μg/μl, Myometrium tissue: 30,797 μg/μl) compared to the post-ovulatory stage(Epithelium tissue: 54,357 μg/μl, Myometrium tissue: 53,270 μg/μl) and early to mid-luteal stage(Epithelium tissue: 42,380 μg/μl, Myometrium tissue: 43,139 μg/μl). On the other hand, the uPA expression indicated higher from early to mid-luteal stage (Epithelium tissue: 0.02198 μg/μl, Myometrium tissue: 0.02412 μg/μl) than pre-ovulatory stage (Epithelium tissue: 0.01577 μg/μl, Myometrium tissue: 0.01531 μg/μl) and post-ovulatory stage(Epithelium tissue: 0.01414 μg/μl, Myometrium tissue: 0.01429 μg/μl). However, expression of u-PA did not differ from each estrous cycle in the epithelium tissue and myometrium tissue(p<0.05). Expression of HSP-90 was differ t-PA and u-PA from pre-ovulatory in Epithelium tissue(25,423 μg/μl) and early to mid-luteal stage in epithelium tissue(177,922 μg/μl) and myometrium tissue(26,664 μg/μl). These results suggest that HSP-90 and u-PA were related with change of uterus cycle according to the reformation of the tissues in porcine uterus.

The present study was performed to identify the role of plasminogen activator (PA) and the location of PA expression in porcine uterus tissues during the estrous cycle. Porcine uterus tissues were obtained from ovary in pre-ovulatory (Pre-Ov), post-ovulatory stage (Post-Ov) and early to mid-luteal stage (Early-mid L). The uterus tissue was immediately fixed by PBS with 10% formalin. There were fixed porcine uterus tissue for 24 hours at room temperature and porcine uterus tissue dehydrate for 12 hour in sucrose solution. For immunohistochemical staining, porcine uterus tissues were cut to 4 μm by micro frozen section microtome. The nucleus and cytoplasm of porcine uterus tissues were stained by Hematoxin and Eosin. Porcine uterus tissues were evaluated by Immunofluorescence using anti-tissue type PA (tPA) and urokinase type PA (uPA). The location of PA expression was identified by observing the PA fluorescence using fluorescent microscope and optical telescopes. As a results, when Pre-Ov and Post-Ov were identified endometrial blood vessel in an inner layer that were observed tPA and uPA. Especially, expression of PA was observed around secretory gland. But the expression of PA were not confirm in Early-mid L. Also, The expression of PA were higher in Post-Ov than Early-mid L. In conclusion, during the estrous cycle, the expression of PA were increased from Pre-Ov to Post-Ov and was decreased from Post-Ov to Early-mid L.

The present study was performed to identify the role of plasminogen activator (PA) and the location of PA expression in porcine uterus tissues during the estrous cycle. Porcine uterus tissues were obtained from ovary in pre-ovulatory (Pre-Ov), post-ovulatory stage (Post-Ov) and early to mid-luteal stage (Early-mid L). The uterus tissue was immediately fixed by PBS with 10% formalin. There were fixed porcine uterus tissue for 24 hours at room temperature and porcine uterus tissue dehydrate for 12 hour in sucrose solution. For immunohistochemical staining, porcine uterus tissues were cut to 4 μm by micro frozen section microtome. The nucleus and cytoplasm of porcine uterus tissues were stained by Hematoxin and Eosin. Porcine uterus tissues were evaluated by Immunofluorescence using anti-tissue type PA (tPA) and urokinase type PA (uPA). The location of PA expression was identified by observing the PA fluorescence using fluorescent microscope and optical telescopes. As a results, when Pre-Ov and Post-Ov were identified endometrial blood vessel in an inner layer that were observed tPA and uPA. Especially, expression of PA was observed around secretory gland. But the expression of PA were not confirm in Early-mid L. Also, The expression of PA were higher in Post-Ov than Early-mid L. In conclusion, during the estrous cycle, the expression of PA were increased from Pre-Ov to Post-Ov and was decreased from Post-Ov to Early-mid L.