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자궁근종과 자궁평활근 세포분열에 있어 Interferon-${\alpha}$ 및 basic Fibroblast Growth Factor (bFGF)의 효과
이병석,박정식,김진영,배상욱,박기현,조동제,이국,김재욱,송찬호,Lee, B.S.,Park, J.S.,Kim, J.Y.,Bae, S.W.,Park, K.H.,Cho, D.J.,Lee, K.d,Kim, J.W.,Song, C.H. 대한생식의학회 1997 Clinical and Experimental Reproductive Medicine Vol.24 No.3
Leiomyomas, which are the commonest pelvic tumors in women, are originated from myometrial cells. Although the exact initial pathophysiologic event of the leiomyoma is not known, recent evidences suggested that the effects of sex steroid hormones in the process of tumor growth are mediated by local production of growth factors including epidermal growth factor (EGF), insulin-like growth factor-I (IGF-I) and insulin-like growth factor-II (IGF-II). If we look at the effects of other cytokines, it was suggested that basic fibroblast growth factor (bFGF) may stimulate the proliferation of myometrial and leiomyomas cells. And it was reported that interferon-${\alpha}$ inhibit the action of bFGF. Therefore, we examined the effect of bFGF and interferon-${\alpha}$ on the proliferation of leiomyoma and myometrial cells. bFGF stimulated the myometrial and leiomyoma cells significantly at the concentration of 1ng/ml (p<0.05) and 5ng/ml (p<0.05). However, Interferon-${\alpha}$ inhibited the cell proliferation of myometrial and leiomyoma cells significantly at the concentration of 100U/ml (p<0.05) and 1000U/ml (p<0.05). And the stimulated effects of bFGF with the various concentration on the myometrial and leiomyoma cells ware inhibited by interferon-${\alpha}$ with 100U/ml. Therefore, we concluded that bFGF may stimulate the myometrial and leiomyoma cell proliferation and interferon-${\alpha}$ may inhibit the myometrial and leiomyoma cell proliferation through blocking the effect of basic fibroblast growth factor.
황체화된 인간 과립세포에서 Apoptosis 관련 유전자인 bcl-2와 TRPM-2의 발현
이병석,최은아,장경환,김진영,배상욱,박기현,조동제,이국,김재욱,송찬호,Lee, B.S.,Choi, E.A.,Chang, K.H.,Kim, J.Y.,Bae, S.W.,Park, K.H.,Cho, D.J.,Lee, K.,Kim, J.W.,Song, C.H. 대한생식의학회 1997 Clinical and Experimental Reproductive Medicine Vol.24 No.2
Apoptosis, programmed cell death, is posulated to occur in granulosa cells in ovarian follicular atresia. bcl-2 gene serves as protector from apoptosis and, thus, is associated with increased cell survival. TRPM-2 gene expression has been implicated as a trigger of apoptosis in rat prostate, uterus and mammary gland. Our objective was to determine if bcl-2 and TRPM-2 are expressed in luteinized human GC and, therefore, have regulatory functions for apoptosis in GC. Human GC were obtained via oocyte retrival from the infertile patients stimulated with exogeneous gonadotropins while undergoing IVF. GC were isolated from follicular fluid using Percoll gradient centrifugation. The GC were further purified with anti-CD45 magnetic beads to remove contaminating WBC's. RT-PCR were performed to analyze the mRNA expression of bcl-2 and TRPM-2 in the GC. The PCR primers were designed to amplify a 195 bp fragment of bcl-2 and a 174 bp fragment of TRPM-2. The PCR products were electrophoresed on 4% agarose gel. Three separate experiments indicated that both bcl-2 and TRPM-2 are concurrently expressed in human GC. We cultured granulosa cells with FSH (1 ng/ml) for 1 day to investigate the relative changes of TRPM-2 mRNA level with RNAse protection assay. When we cultured GC with serum free medium for 1 day TRPM-2 mRNA level increased with 1.3 fold, however it was decreased 0.64 fold with FSH. Therefore we conclude that bcl-2 and TRPM-2 are concurrently expressed and that the interaction of their products may be involved in GC apoptosis. And TRPM-2 may be regulated with FSH.