Phosphomimetic mutations modulate the ability of HIV-1 Rev to bind human Importin β in vitro

Grief matters Pub Date : 2019-04-11 DOI:10.19185/MATTERS.201903000032

Nadia Ben Fadhel, L. Signor, C. Petosa, M. Noirclerc-Savoye

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Abstract

The HIV-1 Rev (Regulator of Expression of Virion) protein, an RNA-binding protein essential for viral replication, is imported into the host cell nucleus by human Importin β (Impβ). Rev is phosphorylated in vivo on serine residues by a nuclear kinase. In this study, we introduced glutamate substitution mutations that mimic phosphorylation at serine positions previously identified as potential phosphorylation sites and assessed their impact on the ability of Rev to bind Impβ in thermal shift, gel shift, and fluorescence polarization assays. Phosphomimetic mutations introduced in either the N-terminal tail, helical hairpin domain or C-terminal domain of Rev had a small but reproducible stabilizing effect on the Impβ/Rev complex. Moreover, the mutation of Rev residue Ser56, which localizes to one face of the helical hairpin domain, had a greater stabilizing effect than that of Ser54 located on the opposite face, suggesting that the helical hairpin orients its Ser56-containing face towards Impβ. Taken together, our results suggest that phosphorylation can significantly modulate the ability of Rev to associate with Impβ.

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拟磷突变调节HIV-1 Rev结合人输入蛋白β的能力

HIV-1 Rev (Regulator of Expression of Virion)蛋白是一种病毒复制所必需的rna结合蛋白，通过human importtin β (Impβ)导入宿主细胞核。Rev在体内通过核激酶在丝氨酸残基上磷酸化。在这项研究中，我们引入了谷氨酸取代突变，模拟了丝氨酸位点的磷酸化，并在热位移、凝胶位移和荧光极化分析中评估了它们对Rev结合Impβ能力的影响。在Rev的n端尾部、螺旋发卡结构域或c端结构域引入的拟磷突变对Impβ/Rev复合物具有较小但可重复的稳定作用。此外，位于螺旋发夹结构域一侧的Rev残基Ser56的突变比位于相反一侧的Ser54的突变具有更大的稳定作用，这表明螺旋发夹结构域的Ser56面朝向Impβ。综上所述，我们的研究结果表明，磷酸化可以显著调节Rev与Impβ结合的能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Grief matters

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