Fucoidan is a sulfated polysaccharide, purified from brown algae. It has multiple biological activities including anti-cancer and anti-inflammatory effects. Our previous reports demonstrated that fucoidan can stimulate spleen cells and especially high molecular weight fucoidan is responsible for the immunostimulatory activity. However, we recently found that the activity of fucoidan can be dependent on its individual batch or sources. Four different fucoidans (fucoidan A, fucoidan B, high molecular weight fucoidan, and low molecular weight fucoidan) were used for this study. MTT assay and flow cytometry analysis were performed for analysis of the activity of fucoidan. MTT assay showed that fucoidan B significantly decreased the cellular activity of spleen cells compared to fucoidan A. In addition, fucoidan B consistently killed spleen cells based on the cell size by flow cytometry analysis and the morphology by an inverted microscope. To elucidate the detailed mechanisms of cytotoxicity, fucoidan B-treated spleen cells were stained with Rhodamine 123 solution and Annexin V-FITC/propidium iodide for measurement of mitochondrial membrane potential (MMP) and early/late apoptosis, respectively. From these two assays, fucoidan B decreased the MMP and induced early apoptosis of spleen cells. Taken together, we suggest that different batches or origin of fucoidan may have differential activities on spleen cells, immunostimulatory and cytotoxic activity. The present study may provide some valuable information regarding use of fucoidan in the clinical area and in basic research.

Doxorubicin, a widely used chemotherapeutic agent, were found rapidly undergo morphological and biochemical changes via discrete effector signaling pathways consistent with the occurrence of apoptosis of oocyte, and a little known is actions of this drug in early embryos. Poly (ADP-ribose) polymerase (PARP), a DNA repair enzyme, also plays the important role during the apoptosis of cell. The cleavage of PARP by caspase-3 inactivates it and inhibits PARP's DNA-repairing abilities. Cleaved PARP (cPARP) can be a marker of apoptosis.Doxorubicin inhibited the early embryo development, but the treatment could still reach the BL (blastocyst) stagethat suggested that involved in DNA synthesis and repaired progress. Herein, the higher expression of PARP family shown especially in 2, 4 cell stagy. There was evidence of expression of Caspase3 and Bcl2l1 during embryogenesis (2 cell, 4 cell, morula and BL stage), suggesting that modulationsof apoptosis-related genes and PARP were cause by DXR. Furthermore, the effect of doxorubicin on early embryo development was assessed different stage rates, and apoptosis index also conformed doxorubicin modulate embryo development by regulating apoptosis- related genes and PARP family genes. In conclusion, Doxorubicin blocked pre- implantation development in early mouse embryos by altering apoptosis-related gene expression and inactivating DNA repair by Parp.

Doxorubicin, a widely used chemotherapeutic agent, were found rapidly undergo morphological and biochemical changes via discrete effector signaling pathways consistent with the occurrence of apoptosis of oocyte. In this report, we elucidated the molecular requirements for actions of this drug in early embryos. Poly (ADP-ribose) polymerase (PARP), a DNA repair enzyme, and its homologues have recently been shown in female oocyte cells. However, the cleavage of PARP by caspase-3 inactivates it and inhibits PARP's DNA-repairing abilities. Cleaved PARP (cPARP) may be considered a marker of apoptosis. Doxorubicin inhibited the early embryo development, but the treatment could still reach the BL (blastocyst) stage that suggested that involved in DNA synthesis and repaired progress. Herein, the higher expression of PARP family shown especially in 2, 4 cell stagy. There was evidence of expression of Caspase3 and Bcl2l1 during embryogenesis (2 cell, 4 cell, morula and BL stage), suggesting that modulations of apoptosis-related genes and PARP were cause by DXR. Furthermore, the effect of doxorubicin on early embryo development was assessed different stage rates, and apoptosis index also conformed doxorubicin modulate embryo development by regulating apoptosis-related genes and PARP family genes. In conclusion, Doxorubicin blocked pre-implantation development in early mouse embryos by altering apoptosis-related gene expression and inactivating DNA repair by Parp.

Heat shock protein 90 (Hsp90) is ATPase-directed molecular chaperon and affects survival of several cells. In our previous study, inhibitory effect of Hsp90 by inducing cell cycle arrest and apoptosis in the pig embryonic and primary cells was reported. However, its role during early bovine embryonic development is not sufficient. In this study, we traced the effects of Hsp90 inhibitor, 17-allylamino-17-demethoxygeldanamycin (17-AAG), on early bovine embryonic development. We also investigated several indicators of developmental potential, including structural integrity, gene expression (apoptosis-related genes), and apoptosis, which are affected by 17-AAG. Bovine embryos were cultured in the CR1-aa medium with or without 17-AAG for 7 days. In result, significant differences in developmental potential were detected between the embryos that were cultured with or without 17-AAG (33.1±9.6 vs 21.7± 8.3%). The structural integrity of the blastocysts was examined by differential staining. Blastocysts from the dbcAMP- treated group had higher numbers of ICM, TE, and total cells than those from the untreated group. Terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) showed that the number of containing fragmented DNA at the blastocyst stage increased in the 17-AAG treated group compared with control (11.2 vs 3.9, respectively). Blastocysts that developed in the 17-AAG treated group had low structural integrity and high apoptotic nuclei than those of the untreated control, resulting in decrease the embryonic qualities of preimplantation bovine blastocysts. The m-RNA expression of the pro-apoptotic gene (Bax) increased in 17-AAG treated group, whereas expression of the antiapoptotic gene (Bcl-XL) decreased. In conclusion, Hsp90 also appears to play a direct role in bovine early embryo developmental competence including structural integrity of blastocysts. Also, these results indicate that Hsp90 is closely associated with apoptosis-related genes expression in developing bovine embryos.

Heat shock protein 90 (Hsp90) is ATPase-directed molecular chaperon and affects survival of cancer cell. Inhibitory effect of Hsp90 by inducing cell cycle arrest and apoptosis in the cancer cell was reported. However, its role during oocyte maturation and early embryo development is very insufficient. In this study, we traced the effects of Hsp90 inhibitor, 17-allylamino-17-demethoxygeldanamycin (17-AAG), on meiotic maturation and early embryonic development in pigs. We also investigated several indicators of developmental potential, including structural integrity, gene expression (Hsp90-, cell cycle-, and apoptosis-related genes), and apoptosis, which are affected by 17-AAG. Then, we examined the roles of Hsp90 inhibitor on viability of primary cells in pigs. Porcine oocytes were cultured in the NCSU-23 medium with or without 17-AAG for 44 h. The proportion of GV arrested oocytes was significantly different between the 17-AAG treated and untreated group (78.2 vs 34.8%, p<0.05). After completion of meiotic maturation, the proportion of MII oocytes was lower in the 17-AAG treated group than in the control group (27.9 vs 71.0%, p<0.05). After IVF, the percentage of penetrated oocytes was significantly lower in the 17-AAG treated group (25.2%), resulting in lower normal pronucleus formation (2PN of 14.6%). Therefore, the inhibition of meiotic progression by Hsp90 inhibitor played a critical role in fertilization status. Porcine embryo were cultured in the PZM-3 medium with or without 17-AAG for 6 days. In result, significant differences in developmental potential were detected between the embryos that were cultured with or without 17-AAG. Terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) showed that the number of containing fragmented DNA at the blastocyst stage increased in the 17-AAG treated group compared with control (7.5 vs 4.4, respectively). Blastocysts that developed in the 17-AAG treated group had low structural integrity and high apoptotic nuclei than those of the untreated control, resulting in decrease the embryonic qualities of preimplantation porcine blastocysts. The mRNA expressions of cell cycle-related genes were down-regulated in the 17-AAG treated group compared with control. Also, the expression of the pro-apoptotic gene Bax increased in 17-AAG treated group, whereas expression of the anti-apoptotic gene Bcl-XL decreased. However, the expression of ER stress-related genes did not changed by 17-AAG. Cultured pESF cells were treated with or without 17-AAG and used for MTT assay. The results showed that viability of pESF cells were decreased by treatment of 17-AAG (2 μM) for 24 hr. These results indicated that 17-AAG decreased cell proliferation and increased cell death. Expression patterns Hsp90 complex genes (Hsp70 and p23), cell cycle-related genes (cdc2 and cdc25c) and apoptosis-related genes (Bax and Bcl-XL) were significantly changed by using RT-PCR analysis. The spliced form of pXbp-1 product (pXbp-1s) was detected in the tunicamycin (TM) treated cells, but it is not detected in 17-AAG treated cells. In conclusion, Hsp90 appears to play a direct role in porcine early embryo developmental competence including structural integrity of blastocysts. Also, these results indicate that Hsp90 is closely associated with cell cycle- and apoptosis-related genes expression in developing porcine embryos.

피부에 가해지는 스트레스는 헤어조절 및 사이클에 직⋅간접적으로 중요한 영향을 미친다고 알려져 있 다. 특히, 모근세포는 스트레스에 의한 부신피질관련호르몬과 세포손상 및 사멸과 밀접한 관련이 있다고 보고되 고 있지만, 현재까지 실험적으로 입증된 사실은 매우 제한되어 있다. 보고에 의하면, 부신피질자극호르몬방출인 자가 증가되면 모근세포의 마이토콘드리아 활성을 저해하여 초기단계의 세포사멸을 가져올 수 있다고 임상학적 으로 보고된바가 있다. 특히 아토피 피부염으로 인한 스트레스는 부신피질자극호르몬방출인자와 부신피질관련 호르몬의 양을 증가시키며, 이는 모발의 outer epithelial sheath에 영향을 준다고 알려져 있으며, 이러한 스트 레스의 변화는 마이토콘드리아 손상을 초래하여 초기단계세포손상을 준다고 한다. 따라서 본 연구는 아토피피부 염스트레스가 피부의 모근세포에 주는 영향에 대하여 연구를 하였는데, 이에 대한 연구는 현재까지 전무한 실정 이다. 우리는 NC/Nga 마우스에 2,4-dinitrochlorobenzene (DNCB)로 아토피피부염을 유발 후, 피부 스트레스 생성에 의한 초기단계 세포손상을 스트레스관련 인자, 부신피질자극호르몬방출인자 및 그 관련 인자, annexin V 및 마이토콘드리아 반응을 이용하여 연구하였다. 그 결과, 아토피피부염에 의한 스트레스는 체내의 부신피질 자극호르몬방출인자 및 관련인자의 활성을 증가시킬 뿐 아니라, 모근세포에 영향을 주어 초기단계세포사멸을 초래하는 것으로 나타났다. 이는 아토피피부염관련 헤어손상을 일으킨다는 중요한 연구결과를 보고하는 바이며, 부신피질자극호르몬 조절관련 의약품 및 화장품 등과 같은 보조적 요법이 필요함을 제안한다.