Kim Young-Youl, Park Bum-Joon, Seo Gill-Ju, Lim Joong-Yeon, Lee Sang-Min, Kimm Kyu-Chan, Park Chan, Kim Joon, Park Sang Ick
National Genome Research Institute, National Institute of Health in Korea (KNIH) Nokbun-Dong 5, Eunpyung-Gu, 122-701, Seoul, Republic of Korea
Biochem Biophys Res Commun. 2003 Dec 12;312(2):426-33. doi: 10.1016/j.bbrc.2003.10.144.
Since Fas-induced apoptosis is major pathway to eliminate unwanted or uncontrolled cells, many types of human cancer cells develop tactful mechanisms to get resistance against the apoptosis. One of the resistant mechanisms in human cancer is overexpression of FLICE-inhibitory protein (c-FLIP), human homolog of viral protein v-FLIP. c-FLIP has multiple splice variants at transcriptional level or two isoforms at protein level, a long (c-FLIP(L)) and a short form of c-FLIP (c-FLIP(S)). However, functional differences between these variants are not fully understood. In this study, we show that c-FLIP(L) but not c-FLIP(S) physically binds to Daxx through interaction between C-terminal domain of c-FLIP(L) and Fas-binding domain of Daxx, an alternative Fas signaling adaptor. Fas-induced cell death and JNK activation are sensitive to Fas stimulation in cell lines carrying undetectable level of c-FLIP(L). To support this, overexpression of c-FLIP(L) but not of c-FLIP(S) renders the cells resistant to Fas-induced cell death and to JNK activation. In signaling context, the interaction of c-FLIP(L) with Daxx is likely to inhibit JNK activation by preventing the normal interaction of Daxx and Fas, which is known to lead to apoptosis via JNK activation. This study implies that through this new mechanism, c-FLIP(L), acting at both FADD- and Daxx-mediated signaling pathways, may be involved in complete inhibition of Fas-induced cell death and may provide an answer to why c-FLIP(L) is more abundant and effective than c-FLIP(S).
由于Fas诱导的细胞凋亡是清除不需要的或失控细胞的主要途径,许多类型的人类癌细胞会形成巧妙的机制来抵抗细胞凋亡。人类癌症中的一种抵抗机制是FLICE抑制蛋白(c-FLIP)的过表达,它是病毒蛋白v-FLIP的人类同源物。c-FLIP在转录水平有多个剪接变体,在蛋白质水平有两种异构体,一种是长形式(c-FLIP(L)),另一种是短形式的c-FLIP(c-FLIP(S))。然而,这些变体之间的功能差异尚未完全了解。在本研究中,我们发现c-FLIP(L)而非c-FLIP(S)通过c-FLIP(L)的C末端结构域与Daxx(一种替代性Fas信号衔接蛋白)的Fas结合结构域之间的相互作用与Daxx发生物理结合。在携带无法检测到的c-FLIP(L)水平的细胞系中,Fas诱导的细胞死亡和JNK激活对Fas刺激敏感。为了支持这一点,过表达c-FLIP(L)而非c-FLIP(S)会使细胞对Fas诱导的细胞死亡和JNK激活产生抗性。在信号传导背景下,c-FLIP(L)与Daxx的相互作用可能通过阻止Daxx与Fas的正常相互作用来抑制JNK激活,已知Daxx与Fas的正常相互作用会通过JNK激活导致细胞凋亡。这项研究表明,通过这种新机制,作用于FADD和Daxx介导的信号通路的c-FLIP(L)可能参与了对Fas诱导的细胞死亡的完全抑制,并可能解释为什么c-FLIP(L)比c-FLIP(S)更丰富且更有效。
