組織培養研究 25 巻, 3-4 号

UVC IRRADIATION INDUCES NEURITE OUTGROWTH IN PC12M3 CELLS VIA THE P38 MITOGEN-ACTIVATED PROTEIN KINASE AND TRANSCRIPTION FACTOR CREB PATHWAY

We investigated cellular damage and differentiation of drug- hypersensitive PC12 mutant (PC12m3) cells caused by UVC irradiation. When PC12m3 cells were exposed to UVC irradiation, the frequency of neurite outgrowth rapidly increased in a dose-dependent manner in the presence of nerve growth factor (NGF). The frequency of neurite outgrowth was maximized at 40 J/m² of UVC irradiation, and this dose of UVC irradiation induced approximately 25-fold greater neurite outgrowth than that induced by NGF alone. However, the cells showed a strong toxicity at this dose of UVC irradiation. We also investigated whether the ability of UVC irradiation stimulus to induce neurite outgrowth of PC12m3 cells is a reflection of its effect on p38 MAPK activity. The results showed that p38 MAPK is strongly activated but that JNK and ERK were not so strongly activated in PC12m3 cells exposed to UVC irradiation of 40 J/m². Furthermore, UVC irradiation rapidly and strongly activated cyclic-AMP response element (CRE)-binding protein (CREB) in PC12m3 cells. CREB is a transcription factor that is the target of MAPK. These findings suggest that UVC irradiation induced neurite outgrowth through p38 MAPK and CREB pathways in PC12m3 cells.

エゾウコギ成分エレウテロサイドEの抗炎症作用と抑制メ力ニズム

エレウテロサイドEは、エゾウコギ(Acanthopanax senticosus)の主要活性成分であるリグナン系化合物であり、抗疲労、抗ストレス、胃潰瘍抑制ならびに免疫機能の向上などの作用を有する。しかし、抗炎症作用についてはこれまでほとんど検討されていない。本研究では、エレウテロサイドEの抗炎症作用について明らかにする目的で、ヒト滑膜肉腫細胞株SW982にIL-1β を添加した細胞培養系を用い、エレウテロサイドEの炎症性タンパクの遺伝子発現ならびに転写因子AP-1、N-κBのDNA結合活性におよぼす影響について検討した。
エレウテロサイドEは、SW982細胞の増殖ならびに形態に対し、ほとんど影響を示さなかった。対照として用いたイソフラキシジンおよびエレウテロサイドBと比較して、エレウテロサイドEはIL-6、MMP-1、COX-2の遺伝子発現およびPGE2の産生をより低濃度で抑制した。加えてエレウテロサイドEは、MMP-1プロモーター活性、AP-1およびNF-κBのDNA結合活性を抑制した。イソフラキシジンではこれらの活性の抑制は認められなかった。
以上の結果、エレウテロサイドEは、AP-1およびNF-κBのDNA結合活性を阻害することにより各種炎症性タンパクの遺伝子発現を抑制するものと考えられる。

水道水でつくったEagle's minimum essential mediumの培養細胞への傷害作用は同じ水道水でつくったDulbecoo's modified Eagle's medium培地で消失する

我々は水道水でつくったイーグル最少必須培地(Eagle's Minimum Essential Medium: EMEM)のヒト肝培養細胞に対する傷害作用について報告した。今回、EMEM培地で細胞傷害性(細胞のコロニー形成率の低下)を示す水道水を用いて、ダルベッコ改変イーグル培地をつくりその傷害を調べると、細胞傷害が消失することを見出した。そして、ダルベッコ培地が細胞傷害を消失させる原因として、ダルベッコ培地に含まれるピルビンの酸であることを同定した。このことは、水道水に含まれる細胞毒性物質は細胞のエネルギー産生系に関与するミトコンドリアの機能傷害をおこしている可能性を示唆する。

EFFECT OF KERATINOCYTE GROWTH FACTOR ON OOCYTE GROWTH AND MEIOTIC COMPETENCE OF IN VITRO GROWN OOCYTES DERIVED FROM BOVINE EARLY ANTRAL FOLLICLES

There are only limited informations available for essential factors which lead to attain complete growth of bovine oocytes derived from early antral follicles. This study was designed to examine factor(s) necessary for achieving full growth of bovine oocytes from early antral follicles. The effect of keratinocyte growth factor (KGF) on the stimulation of the oocyte growth and development was investigated in a culture of cumulus-oocyte complexes with granulosa cells (COCGs) for up to 16 days. A high proportion of COCGs with normal morphology could be maintained even in the control growth medium, and the addition of KGF showed no further increase in the proportion of COCGs with normal morphology. However, the mean oocyte diameter of COCGs was significantly increased in the KGF-containing medium compared to the control after 16 days. After a subsequent in vitro maturation, the in vitro grown oocytes treated by KGF apparently increased the rate of meiotic competence as indicated by an increase in the number of oocytes reaching the M II phase as compared to the control. Furthermore, the in vitro grown oocytes cultured in KGF-containing medium resulted in high rate of developmental competence after in vitro maturation, in vitro fertilization and in vitro embryo culture. These results strongly suggest that KGF may be an important regulator for growing oocytes to reach their full growth potential.