Whetter L E, Day S P, Elroy-Stein O, Brown E A, Lemon S M
Department of Medicine, University of North Carolina at Chapel Hill 27599-7030.
J Virol. 1994 Aug;68(8):5253-63. doi: 10.1128/JVI.68.8.5253-5263.1994.
To characterize in vivo the translational control elements present in the 5' nontranslated region (5'NTR) of hepatitis A virus (HAV) RNA, we created an HAV-permissive monkey kidney cell line (BT7-H) that stably expresses T7 RNA polymerase and carries out cytoplasmic transcription of uncapped RNA from transfected DNA containing the T7 promoter. The presence of an internal ribosomal entry site (IRES) within the 5'NTR of HAV was confirmed by using BT7-H cells transcribing bicistronic RNAs in which the 5'NTR was placed within the intercistronic space, controlling translation of a downstream reporter protein (bacterial chloramphenicol acetyltransferase). However, translation directed by the 5'NTR in these bicistronic transcripts and in monocistronic T7 transcripts in which the HAV 5'NTR was placed upstream of the chloramphenicol acetyltransferase coding sequence was very inefficient compared with the translation of monocistronic transcripts containing either the IRES of encephalomyocarditis (EMC) virus or a short nonpicornavirus 5' nontranslated leader sequence. A large deletion within the HAV IRES (delta 355-532) eliminated IRES activity in bicistronic transcripts. In contrast, larger deletions within the IRES in monocistronic transcripts (delta 1-354, delta 1-532, delta 1-633, and delta 158-633) resulted in 4- to 14-fold increases in translation. In the latter case, this was most probably due to a shift from IRES-directed translation to translation initiation by 5'-end-dependent scanning. Translation of RNAs containing either the EMC virus IRES or the nonpicornavirus leader was significantly enhanced by cotransfection of the reporter constructs with pEP2A, which directs transcription of RNA containing the EMC virus IRES fused to the poliovirus 2Apro coding region. This 2Apro enhancement of cap-independent translation suggests a greater availability of limiting cellular translation factors following 2Apro-mediated cleavage of the p220 subunit of the eukaryotic initiation factor eIF-4F and subsequent shutdown of 5' cap-dependent translation. In contrast, pEP2A cotransfection resulted in severe inhibition of translation directed by the HAV IRES in either monocistronic or bicistronic transcripts. This inhibition was due to competition from the EMC virus IRES present in pEP-2A transcripts, as well as the expression of proteolytically active 2Apro. 2Apro-mediated suppression of HAV translation was not seen with transcripts containing large deletions in the HAV IRES (delta 158-633, delta 1-532, or delta 1-633). These data suggest that the HAV IRES may have a unique requirement for intact p220 or that it may be dependent on active expression of another cellular translation factor which is normally present in severely limiting quantities.(ABSTRACT TRUNCATED AT 400 WORDS)
为了在体内表征甲型肝炎病毒(HAV)RNA 5'非翻译区(5'NTR)中的翻译控制元件,我们构建了一种允许HAV感染的猴肾细胞系(BT7-H),该细胞系稳定表达T7 RNA聚合酶,并能对含有T7启动子的转染DNA进行无帽RNA的细胞质转录。通过使用BT7-H细胞转录双顺反子RNA来证实HAV的5'NTR内存在内部核糖体进入位点(IRES),在该双顺反子RNA中,5'NTR位于顺反子间空间内,控制下游报告蛋白(细菌氯霉素乙酰转移酶)的翻译。然而,与含有脑心肌炎(EMC)病毒IRES或短的非微小RNA病毒5'非翻译前导序列的单顺反子转录本的翻译相比,这些双顺反子转录本以及HAV 5'NTR位于氯霉素乙酰转移酶编码序列上游的单顺反子T7转录本中由5'NTR指导的翻译效率非常低。HAV IRES内的一个大缺失(Δ355 - 532)消除了双顺反子转录本中的IRES活性。相反,单顺反子转录本中IRES内更大的缺失(Δ1 - 354、Δ1 - 532、Δ1 - 633和Δ158 - 633)导致翻译增加4至14倍。在后一种情况下,这很可能是由于从IRES指导的翻译转变为5'端依赖性扫描的翻译起始。通过将报告构建体与pEP2A共转染,含有EMC病毒IRES或非微小RNA病毒前导序列的RNA的翻译显著增强,pEP2A指导含有与脊髓灰质炎病毒2A蛋白酶编码区融合的EMC病毒IRES的RNA的转录。这种2A蛋白酶对不依赖帽的翻译的增强表明,在2A蛋白酶介导真核起始因子eIF-4F的p220亚基裂解并随后关闭5'帽依赖性翻译后,有限的细胞翻译因子的可用性增加。相反,pEP2A共转染导致单顺反子或双顺反子转录本中由HAV IRES指导的翻译受到严重抑制。这种抑制是由于pEP-2A转录本中存在的EMC病毒IRES的竞争以及蛋白水解活性2A蛋白酶的表达。对于含有HAV IRES大缺失(Δ158 - 633、Δ1 - 532或Δ1 - 633)的转录本,未观察到2A蛋白酶介导的HAV翻译抑制。这些数据表明,HAV IRES可能对完整的p220有独特的需求,或者它可能依赖于另一种通常以极低数量存在的细胞翻译因子的活性表达。(摘要截断于400字)
