人巨细胞病毒立即早期蛋白的转录激活：简单启动子结构的要求以及与转录复合物多个组分的相互作用

Transcriptional activation by the human cytomegalovirus immediate-early proteins: requirements for simple promoter structures and interactions with multiple components of the transcription complex.

作者信息

Lukac D M, Manuppello J R, Alwine J C

机构信息

Department of Microbiology, School of Medicine, University of Pennsylvania, Philadelphia 19104.

出版信息

J Virol. 1994 Aug;68(8):5184-93. doi: 10.1128/JVI.68.8.5184-5193.1994.

DOI:10.1128/JVI.68.8.5184-5193.1994

PMID:8035517

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC236462/

Abstract

We have utilized a number of well-defined, simple, synthetic promoters (upstream factor binding sites and TATA elements) to analyze the activation mechanisms of the human cytomegalovirus immediate-early (IE) proteins. We found that the 86-kDa IE protein (known as IEP86, IE2(559aa), or ppUL122a) can recognize and activate a variety of simple promoters, in agreement with the observation that it is a promiscuous activator. However, in the comparison of otherwise identical promoters IEP86 does have preferences for specific TATA elements (hsp70 > adenovirus E2 > simian virus 40 early) and specific upstream transcription factor binding sites (CAAT > SP1 approximately Tef-1 > ATF; no activation with AP1 or OCT). In contrast, the 72-kDa IE protein (known as IEP72, IE1(491aa), or ppUL123) alone did not significantly activate the simple promoters under our experimental conditions. However, each promoter activated by IEP86 was synergistically affected by the addition of IEP72. In addition, the 55-kDa IE protein (IEP55, a splice variant form of IE2, IE2(425aa), or ppUL122b) repeatedly had a negative effect, downregulating the activation of promoters caused by IEP86 and the synergy of IEP86 and IEP72. We show that the ability of IEP86 to activate many simple promoters correlates not only with its previously described ability to interact with the TATA-binding protein (TBP) (B. A. Furnari, E. Poma, T. F. Kowalik, S.-M. Huong, and E.-S. Huang, J. Virol. 67:4981-4991, 1993; C. Hagemeier, S. Walker, R. Caswell, T. Kouzarides, and J. Sinclair, J. Virol. 66:4452-4456, 1992; R. Jupp, S. Hoffman, R. M. Stenberg, J. A. Nelson, and P. Ghazal, J. Virol. 67:7539-7546, 1993) but also with its ability to interact with the transcription factors which bind to the upstream element of promoters it activated (e.g., SP1 and Tef-1 but not Oct-1). This ability to have multiple interactions with the promoter complex may be crucial for transcriptional activation, since the IE proteins cannot activate promoters having only a TATA element or only an upstream transcription factor binding site. In addition, we show that proteins which bind IEP86 also bind to IEP55. Thus, the negative effect on transcription noted with IEP55 may be the result of competition with IEP86 for interaction with the promoter complex. The synergy caused by IEP72 appears to be mediated by a more indirect mechanism. This is suggested by our observation that IEP72 could not bind to any of the proteins tested (TBP, Tef-1, or Oct-1) or to IEP86.

摘要

我们利用了一些定义明确、简单的合成启动子（上游因子结合位点和TATA元件）来分析人巨细胞病毒立即早期（IE）蛋白的激活机制。我们发现86 kDa的IE蛋白（称为IEP86、IE2(559aa)或ppUL122a）能够识别并激活多种简单启动子，这与它是一种多能激活剂的观察结果一致。然而，在对其他方面相同的启动子进行比较时，IEP86确实对特定的TATA元件（热休克蛋白70启动子>腺病毒E2启动子>猴病毒40早期启动子）和特定的上游转录因子结合位点（CAAT元件>SP1元件≈Tef-1元件>ATF元件；对AP1元件或OCT元件无激活作用）有偏好。相比之下，在我们的实验条件下，单独的72 kDa IE蛋白（称为IEP72、IE1(491aa)或ppUL123）并未显著激活这些简单启动子。然而，添加IEP72会协同影响IEP86激活的每个启动子。此外，55 kDa的IE蛋白（IEP55，IE2的剪接变体形式，IE2(425aa)或ppUL122b）反复产生负面影响，下调IEP86引起的启动子激活以及IEP86和IEP72的协同作用。我们表明，IEP86激活许多简单启动子的能力不仅与其先前描述的与TATA结合蛋白（TBP）相互作用的能力相关（B.A. Furnari、E. Poma、T.F. Kowalik、S.-M. Huong和E.-S. Huang，《病毒学杂志》67:4981 - 4991，1993；C. Hagemeier、S. Walker、R. Caswell、T. Kouzarides和J. Sinclair，《病毒学杂志》66:4452 - 4456，1992；R. Jupp、S. Hoffman、R. M. Stenberg、J. A. Nelson和P. Ghazal，《病毒学杂志》67:7539 - 7546，1993），还与其与结合到其激活的启动子上游元件的转录因子相互作用的能力相关（例如SP1和Tef-1，但不包括Oct-1）。与启动子复合物进行多种相互作用的这种能力对于转录激活可能至关重要，因为IE蛋白无法激活仅具有TATA元件或仅具有上游转录因子结合位点的启动子。此外，我们表明结合IEP86的蛋白也结合IEP55。因此，IEP55对转录产生的负面影响可能是与IEP86竞争与启动子复合物相互作用的结果。IEP72引起的协同作用似乎是由一种更间接的机制介导的。我们观察到IEP72不能与所测试的任何蛋白（TBP、Tef-1或Oct-1）或IEP86结合，这表明了这一点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2010/236462/c4d91a622f20/jvirol00017-0495-a.jpg

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人巨细胞病毒立即早期蛋白的转录激活：简单启动子结构的要求以及与转录复合物多个组分的相互作用

Transcriptional activation by the human cytomegalovirus immediate-early proteins: requirements for simple promoter structures and interactions with multiple components of the transcription complex.

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