SpgC1qR与WSSV VP28相互作用,表现出抗病毒活性

IF 2.2 Q2 FISHERIES
Yue Wang , Bin Zhang , Shu Zhao , Yuan Wang , Xu Chu , Xin-Cang Li
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引用次数: 1

摘要

尽管人类gC1qR是一种具有多种生物学功能的多配体结合蛋白,但无脊椎动物gC1qR同源物的功能仍然未知。在本研究中,我们从泥蟹Scylla paramamosain中鉴定了一个新的gC1qR同源物,即SpgC1qR。SpgC1qR与人类gC1qR具有较高的同一性和相似的三维结构。白斑综合征病毒(White spot syndrome virus, WSSV)攻毒后,SpgC1qR的转录本显著增加,提示SpgC1qR可能参与抗病毒免疫应答。为了揭示SpgC1qR可能的抗病毒活性,我们检测了SpgC1qR沉默的螃蟹中WSSV的增殖谱。结果表明,RNAi敲低SpgC1qR促进了病毒在体内的增殖。SpgC1qR预孵育实验进一步证实了这一结果,在预孵育中,带有rSpgC1qR的WSSV颗粒显著抑制了病毒的复制。此外,GST下拉实验显示SpgC1qR特异性结合病毒包膜蛋白VP28。这些发现清楚地表明SpgC1qR与病毒包膜蛋白VP28特异性相互作用,限制了WSSV的复制,表明SpgC1qR在泥蟹抗WSSV免疫应答中发挥了至关重要的作用。该研究为SpgC1qR介导的抗病毒机制和无脊椎动物gC1qR同源物的生物学功能提供了新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SpgC1qR interacts with WSSV VP28 exhibiting antiviral activity

Although human gC1qR is a multi-ligand binding protein with diverse biological functions, the functions of invertebrate gC1qR homologues remain largely unknown. In the present study, we characterized a novel gC1qR homologue, namely SpgC1qR, from mud crab Scylla paramamosain. SpgC1qR shared high identity and similar three-dimensional structure with human gC1qR. After challenge with White spot syndrome virus (WSSV), the transcripts of SpgC1qR were significantly increased, suggesting that SpgC1qR may be involved in antiviral immune response. To reveal the likely antiviral activity of SpgC1qR, the proliferation profile of WSSV in SpgC1qR-silenced crabs was examined. The result showed that knockdown of SpgC1qR by RNAi facilitated viral proliferation in vivo. This result was further confirmed by a SpgC1qR pre-incubation assay, in which pre-incubating WSSV particles with rSpgC1qR dramatically suppressed viral replication. Moreover, a GST pull-down assay revealed that SpgC1qR specifically bound to the viral envelope protein VP28. These findings clearly demonstrated that SpgC1qR specifically interacted with viral envelope protein VP28 and restricted WSSV replication, suggesting that it played a crucial role in anti-WSSV immune response of mud crab. This study provided new insights into the antiviral mechanism mediated by SpgC1qR and the biological functions of invertebrate gC1qR homologues.

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来源期刊
CiteScore
2.60
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