Symensma T L, Giver L, Zapp M, Takle G B, Ellington A D
Department of Chemistry, Indiana University, Bloomington 47405, USA.
J Virol. 1996 Jan;70(1):179-87. doi: 10.1128/JVI.70.1.179-187.1996.
RNA aptamers (binding sequences) that can interact tightly and specifically with the human immunodeficiency virus type 1 Rev protein have previously been selected from random sequence pools. Although the selected sequences compete with the wild-type Rev-binding element (RBE) in vitro, it was not known whether they would be able to functionally replace the RBE in vivo. Two aptamers that were different from the wild-type RBE in terms of both primary sequence and secondary structure were inserted into the full-length Rev-responsive element (RRE) in place of the RBE. The hybrid RREs were assayed for their ability to mediate Rev function in vivo using a reporter system. The aptamers were found to be functionally equivalent to the wild-type element when the assay system was saturated with Rev and better than the wild-type element when Rev was limiting. These results demonstrate that the affinity of the primary Rev-binding element rather than its particular sequence may be most responsible for conferring Rev responsiveness on viral mRNAs. Moreover, the fact that increased binding ability can lead to increased Rev responsiveness suggests that cellular factors do not directly influence the Rev:RBE interaction. Finally, since sequences distinct from the RBE are found to be Rev responsive, it may be possible for the RBE to readily mutate in response to drugs or gene therapy reagents that target the Rev:RBE interaction.
此前已从随机序列库中筛选出能与人类免疫缺陷病毒1型Rev蛋白紧密且特异性相互作用的RNA适配体(结合序列)。尽管所选序列在体外能与野生型Rev结合元件(RBE)竞争,但它们在体内是否能够功能性地取代RBE尚不清楚。将两个在一级序列和二级结构上均与野生型RBE不同的适配体插入全长Rev反应元件(RRE)中以取代RBE。使用报告系统检测杂交RRE在体内介导Rev功能的能力。当检测系统中Rev饱和时,发现这些适配体在功能上等同于野生型元件,而当Rev有限时,它们比野生型元件表现更好。这些结果表明,Rev主要结合元件的亲和力而非其特定序列可能是赋予病毒mRNA Rev反应性的主要原因。此外,结合能力增强可导致Rev反应性增加这一事实表明,细胞因子不会直接影响Rev:RBE相互作用。最后,由于发现与RBE不同的序列具有Rev反应性,RBE可能很容易因靶向Rev:RBE相互作用的药物或基因治疗试剂而发生突变。
