RNA剪接和转录后调控对HIV-1生长的影响:一个定量和综合的视角。

Hwijin Kim, J Yin
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引用次数: 15

摘要

尽管在过去的二十年中,我们对人类免疫缺陷病毒1型(HIV-1)的RNA剪接和转录调控的理解取得了重大进展,但关于Rev蛋白对HIV-1生长的机制和影响的争论仍在继续。此外,关于HIV-1已被优化以促进其生长的观点在很大程度上是基于推测。在这里,我们通过开发HIV-1细胞内发育的详细动力学模型开始系统地解决这些问题。该模型考虑了转录、RNA剪接的连续步骤、mRNA的核输出、Rev和Tat的翻译和穿梭、Tat介导的转录反激活、Rev对mRNA核输出影响的阈值以及Rev对剪接的抑制作用。使用该模型,我们发现HIV-1 mRNA的低效率剪接通常有利于HIV-1的生长,但剪接效率的过度降低可能是有害的,这表明存在优化HIV-1生长的剪接效率。此外,我们确定了剪接效率的两个关键因素,固有剪接率和rev介导的剪接抑制程度,并展示了如何平衡这些因素以优化HIV-1的生长。最后,我们发现HIV-1的生长对Rev输出阈值的不同水平相对不敏感,我们认为这种机制的进化是为了延迟病毒的生长,可能是为了逃避宿主的防御反应。总之,我们的模型提供了一个定量和定性框架,用于探索组成机制如何促进HIV-1生长的复杂但合乎逻辑的过程。
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Effects of RNA splicing and post-transcriptional regulation on HIV-1 growth: a quantitative and integrated perspective.

Despite major advances over the last two decades in our understanding of RNA splicing and (post-) transcriptional regulation in human immunodeficiency virus type-1 (HIV-1), debate continues on the mechanisms and effects of Rev protein on HIV-1 growth. Moreover, arguments that HIV-1 has been optimised for growth have been largely based on speculation. Here, we begin systematically to address these issues by developing a detailed kinetic model for HIV-1 intracellular development. The model accounts for transcription, successive steps in RNA splicing, nuclear export of mRNAs, translation and shuttling of Rev and Tat, Tat-mediated transactivation of transcription, thresholds on Rev in its effects on nuclear export of mRNA, and inhibitory effects of Rev on splicing. Using the model, we found that inefficient splicing of HIV-1 mRNA was generally beneficial for HIV-1 growth, but that an excessive reduction in the splicing efficiency could be detrimental, suggesting that there exists a splicing efficiency that optimises HIV-1 growth. Further, we identified two key contributors to splicing efficiency, the intrinsic splicing rate and the extent of Rev-mediated splicing inhibition, and we showed how these should be balanced for HIV-1 to optimise its growth. Finally, we found that HIV-1 growth is relatively insensitive to different levels of the Rev export threshold, and we suggest that this mechanism evolved to delay viral growth, perhaps to enable evasion of host defensive responses. In summary, our model provides a quantitative and qualitative framework for probing how constituent mechanisms contribute to the complex, yet logical, process of HIV-1 growth.

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