Kusakawa Takashi, Shimakami Tetsuro, Kaneko Shuichi, Yoshioka Katsuji, Murakami Seishi
Division of Signal Transduction, Cancer Research Institute, University Hospital, Kanazawa University, Takara-Machi, Kanazawa, Ishikawa, Japan.
J Biochem. 2007 Jun;141(6):917-27. doi: 10.1093/jb/mvm102.
Hepatitis C Virus (HCV) non-structural proteins are major components of replication complex that is modulated by several host factors. We previously reported that nucleolin, a representative nucleolar marker, interacts with the NS5B through two separated sequences, amino acids (aa) 208-214 and 500-506, and that W208 in the former stretch is essential for both nucleolin-binding and HCV replication. Here we evaluated the role of the latter stretch aa 500-506 of WRHRARS in nucleolin-binding and HCV replication scanned by alanine-substituted clustered mutant (cm) or point mutant (pm). One tryptophan and three arginine residues in the sequence were found to be essential both for nucleolin-binding in vivo and HCV replication detected with a HCV subgenomic replicon transfected into Huh7 cells. NS5B-binding of nucleolin was further delineated by truncation and clustered mutants of nucleolin. Arginine-glycine-glycine (RGG) repeat in the Glycine arginine rich (GAR) domain were defined to be indispensable for NS5B-binding immunologically detected in in vivo and in vitro although short internal-truncations of RGG repeat are tolerable for NS5B-binding. These results indicate that nucleolin is a critical host factor for HCV replication through the direct interaction between W208 and several residues at the sequence, aa 500-505, of NS5B, and the long-turn motif including RGG repeat at nucleolin C-terminal.
丙型肝炎病毒(HCV)非结构蛋白是复制复合体的主要组成部分,该复合体受多种宿主因子调控。我们之前报道过,作为典型核仁标志物的核仁素通过两个分开的序列,即氨基酸(aa)208 - 214和500 - 506与NS5B相互作用,并且前一个序列中的W208对于核仁素结合和HCV复制均至关重要。在此,我们通过丙氨酸取代的簇状突变体(cm)或点突变体(pm)评估了WRHRARS序列中后一个片段aa 500 - 506在核仁素结合和HCV复制中的作用。发现该序列中的一个色氨酸和三个精氨酸残基对于体内核仁素结合以及用转染到Huh7细胞中的HCV亚基因组复制子检测到的HCV复制均至关重要。通过核仁素的截短突变体和簇状突变体进一步明确了核仁素与NS5B的结合。富含甘氨酸精氨酸(GAR)结构域中的精氨酸 - 甘氨酸 - 甘氨酸(RGG)重复序列被确定对于体内和体外免疫检测到的NS5B结合是不可或缺的,尽管RGG重复序列的短内部截短对于NS5B结合是可耐受的。这些结果表明,核仁素是HCV复制的关键宿主因子,通过W208与NS5B序列aa 500 - 505处的几个残基之间的直接相互作用,以及核仁素C末端包含RGG重复序列的长链基序实现。
