Cellular SLC35B4 promotes internalization during influenza A virus entry.

IF 5.1 1区生物学 Q1 MICROBIOLOGY

mBio Pub Date : 2025-05-14 Epub Date: 2025-03-25 DOI:10.1128/mbio.00194-25

Guangwen Wang, Li Jiang, Ya Yan, Fandi Kong, Qibing Li, Jie Zhang, Shuangshuang Hou, Bo Wang, Xiurong Wang, Huihui Kong, Guohua Deng, Jianzhong Shi, Guobin Tian, Xianying Zeng, Hualan Chen, Chengjun Li

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Abstract

SLC35B4, a nucleotide sugar transporter that mediates the transport of UDP-GlcNAc and UDP-xylose, was found to be required for the replication of influenza A virus (IAV) of the H5N1 subtype in our genome-wide siRNA library screen. We found that defective IAV replication in SLC35B4-deficient A549 cells was independent of virus strain specificity, and the virulence of IAV in Slc35b4 knockdown mice was also decreased. By examining the individual stages of the IAV replication cycle, we discovered that the amount of internalized IAV was significantly reduced in SLC35B4-knockout A549 cells. Mechanistically, SLC35B4 facilitated IAV replication by transporting UDP-xylose, which attaches to the serine residue of heparan sulfate proteoglycans (HSPGs) in the heparan sulfate (HS) biosynthesis pathway. Knockdown of associated host factors (i.e., XYLT2, B4GALT7, EXT1, and EXT2) in the HS biosynthesis pathway also impaired IAV replication. Furthermore, we revealed that AGRN, a unique HSPG family member, was important for the endocytosis of IAV in A549 cells. Moreover, we found that the homeostasis of the AGRN protein was regulated by HS modification mediated by the initial UDP-xylose transporter SLC35B4, thereby affecting the expression level of endocytic adapter AP2B1 to influence IAV internalization. Collectively, these findings establish that SLC35B4 is an important regulator of IAV replication and uncover the underlying mechanisms by which SLC35B4 employs UDP-xylose transport activity to promote IAV internalization.IMPORTANCEThe entry process of IAV represents a favorable target for drug development. In this study, we identified SLC35B4 as an important host factor for the efficient replication of different subtypes of IAV in vitro and for the virulence of IAV in mice. We revealed that SLC35B4 employed its UDP-xylose transport activity to promote the HS biosynthesis pathway, thereby assisting IAV internalization into target cells in the early stage of viral infection. Consistently, several downstream factors in the HS biosynthesis pathway, i.e., XYLT2, B4GALT7, EXT1, and EXT2, as well as a specific HSPG member AGRN were also important for the replication of IAV. Furthermore, the UDP-xylose-transporting activity of SLC35B4 was involved in the regulation of the homeostasis of the AGRN protein by HS modification, which influenced virus internalization by affecting the expression levels of AP2B1. Together, the identification of the SLC35B4-XYLT2-B4GALT7-EXT1-EXT2-AGRN-AP2B1 axis may shed light on the development of potential anti-IAV therapeutics.

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细胞SLC35B4在甲型流感病毒进入过程中促进内化。

SLC35B4是一种介导UDP-GlcNAc和udp -木糖运输的核苷酸糖转运体，在我们的全基因组siRNA文库筛选中发现，SLC35B4是H5N1亚型甲型流感病毒（IAV）复制所必需的。我们发现，在Slc35b4缺失的A549细胞中，IAV复制缺陷与病毒株特异性无关，并且在Slc35b4缺失的小鼠中，IAV的毒力也降低了。通过检查IAV复制周期的各个阶段，我们发现在slc35b4敲除的A549细胞中，内化IAV的数量显著减少。在机制上，SLC35B4通过转运udp -木糖促进IAV复制，在硫酸肝素（HS）生物合成途径中，udp -木糖附着在硫酸肝素蛋白聚糖（HSPGs）的丝氨酸残基上。HS生物合成途径中相关宿主因子（XYLT2、B4GALT7、EXT1和EXT2）的敲低也会损害IAV的复制。此外，我们还发现HSPG家族的独特成员agn在A549细胞中对IAV的内吞作用很重要。此外，我们发现agn蛋白的稳态是通过初始的udp -木糖转运体SLC35B4介导的HS修饰来调节的，从而影响内吞适配器AP2B1的表达水平，从而影响IAV的内化。总之，这些发现表明SLC35B4是IAV复制的重要调节因子，并揭示了SLC35B4利用udp -木糖转运活性促进IAV内化的潜在机制。IAV的进入过程是药物开发的有利靶点。在这项研究中，我们发现SLC35B4是一个重要的宿主因子，在体外有效地复制不同亚型的IAV和IAV在小鼠体内的毒力。我们发现SLC35B4利用其udp -木糖转运活性促进HS生物合成途径，从而在病毒感染早期协助IAV内化到靶细胞。与此一致的是，HS生物合成途径中的几个下游因子XYLT2、B4GALT7、EXT1和EXT2以及HSPG的一个特定成员agn对IAV的复制也很重要。此外，SLC35B4的udp -木糖转运活性通过HS修饰参与了agn蛋白的稳态调节，从而通过影响AP2B1的表达水平影响病毒内化。总之，slc35b4 - xylt2 - b4galt7 - ext1 - ext2 - agn - ap2b1轴的鉴定可能有助于开发潜在的抗iav治疗方法。

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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来源期刊

mBio MICROBIOLOGY-

CiteScore

10.50

自引率

3.10%

发文量

762

审稿时长

1 months

期刊介绍： mBio® is ASM''s first broad-scope, online-only, open access journal. mBio offers streamlined review and publication of the best research in microbiology and allied fields.