Tat-SF1并非Tat反式激活所必需，但它确实调控未剪接和已剪接的HIV-1 RNA的相对水平。

Tat-SF1 is not required for Tat transactivation but does regulate the relative levels of unspliced and spliced HIV-1 RNAs.

作者信息

Miller Heather B, Saunders Kevin O, Tomaras Georgia D, Garcia-Blanco Mariano A

机构信息

Department of Molecular Genetics and Microbiology, Duke University Medical Center, Durham, North Carolina, United States of America.

出版信息

PLoS One. 2009 May 27;4(5):e5710. doi: 10.1371/journal.pone.0005710.

DOI:10.1371/journal.pone.0005710

PMID:19479034

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2682658/

Abstract

BACKGROUND

HIV-1 relies on several host proteins for productive viral transcription. HIV-1 Tat-specific factor 1 (Tat-SF1) is among these cofactors that were identified by in vitro reconstituted transcription reactions with immunodepleted nuclear extracts. At the onset of this work, the prevailing hypothesis was that Tat-SF1 was a required cofactor for the viral regulatory protein, Tat; however, this had not previously been formally tested in vivo.

METHODOLOGY/PRINCIPAL FINDINGS: To directly address the involvement of Tat-SF1 in HIV-1 gene expression, we depleted Tat-SF1 in HeLa cells by conventional expression of shRNAs and in T- Rex -293 cells containing tetracycline-inducible shRNAs targeting Tat-SF1. We achieved efficient depletion of Tat-SF1 and demonstrated that this did not affect cell viability. HIV-1 infectivity decreased in Tat-SF1-depleted cells, but only when multiple rounds of infection occurred. Neither Tat-dependent nor basal transcription from the HIV-1 LTR was affected by Tat-SF1 depletion, suggesting that the decrease in infectivity was due to a deficiency at a later step in the viral lifecycle. Finally, Tat-SF1 depletion resulted in an increase in the ratio of unspliced to spliced viral transcripts.

CONCLUSIONS/SIGNIFICANCE: Tat-SF1 is not required for regulating HIV-1 transcription, but is required for maintaining the ratios of different classes of HIV-1 transcripts. These new findings highlight a novel, post-transcriptional role for Tat-SF1 in the HIV-1 life cycle.

摘要

背景

HIV-1的有效病毒转录依赖于多种宿主蛋白。HIV-1反式激活因子特异性因子1（Tat-SF1）是通过用免疫耗尽的核提取物进行体外重组转录反应鉴定出的这些辅助因子之一。在这项工作开始时，普遍的假设是Tat-SF1是病毒调节蛋白Tat所需的辅助因子；然而，此前尚未在体内进行过正式测试。

方法/主要发现：为了直接研究Tat-SF1在HIV-1基因表达中的作用，我们通过常规表达短发夹RNA（shRNAs）在HeLa细胞中耗尽Tat-SF1，并在含有靶向Tat-SF1的四环素诱导型shRNAs的T-Rex-293细胞中进行了同样操作。我们实现了Tat-SF1的有效耗尽，并证明这并不影响细胞活力。在Tat-SF1耗尽的细胞中，HIV-1感染性降低，但仅在发生多轮感染时才出现这种情况。HIV-1长末端重复序列（LTR）的Tat依赖性转录和基础转录均不受Tat-SF1耗尽的影响，这表明感染性降低是由于病毒生命周期后期的缺陷所致。最后，Tat-SF1耗尽导致未剪接与剪接的病毒转录本比例增加。

结论/意义：调节HIV-1转录不需要Tat-SF1，但维持不同类别的HIV-1转录本比例需要Tat-SF1。这些新发现突出了Tat-SF1在HIV-1生命周期中一种新的转录后作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e797/2682658/e48a2587f716/pone.0005710.g001.jpg

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Tat-SF1并非Tat反式激活所必需，但它确实调控未剪接和已剪接的HIV-1 RNA的相对水平。

Tat-SF1 is not required for Tat transactivation but does regulate the relative levels of unspliced and spliced HIV-1 RNAs.

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