HIV-1与O-聚糖特异性细菌凝集素的相互作用增强了病毒感染性和细胞间病毒转移。

Daniel W Heindel, Dania M Figueroa Acosta, Marisa Goff, Clauvis Kunkeng Yengo, Muzafar Jan, Xiaomei Liu, Xiao-Hong Wang, Mariya I Petrova, Mo Zhang, Manish Sagar, Phillip Barnette, Shilpi Pandey, Ann J Hessell, Kun-Wei Chan, Xiang-Peng Kong, Benjamin K Chen, Lara K Mahal, Barbara A Bensing, Catarina E Hioe
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引用次数: 0

摘要

虽然细菌失调与HIV-1传播风险的增加有关,但对HIV-1与细菌之间的直接联系知之甚少。这项研究通过影响病毒传染性的聚糖结合凝集素评估了HIV-1与细菌的相互作用。链球菌Siglec样凝集素SLBR-N是覆盖细菌表面的菌毛的一部分,可识别α2,3唾液酸化的O-连接聚糖,在无细胞感染和细胞间转移的情况下,它具有增强HIV-1感染性的能力。SLBR-N被证明可以捕获HIV-1病毒粒子,与HIV-1Env上的O-聚糖结合,并增强CD4与Env的结合。其他识别不同O-聚糖的SLBR也增强了HIV-1的感染性,尽管程度较低,而N-聚糖结合的细菌凝集素FimH和Msl没有影响。用O-聚糖结合植物凝集素概括了增强作用。因此,本研究强调了O-聚糖通过利用粘膜共生细菌的O-聚糖结合凝集素在促进HIV-1感染中的潜在作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

HIV-1 interaction with an <i>O</i>-glycan-specific bacterial lectin enhances virus infectivity and resistance to neutralization by antibodies.

HIV-1 interaction with an <i>O</i>-glycan-specific bacterial lectin enhances virus infectivity and resistance to neutralization by antibodies.

HIV-1 interaction with an <i>O</i>-glycan-specific bacterial lectin enhances virus infectivity and resistance to neutralization by antibodies.

HIV-1 interaction with an O-glycan-specific bacterial lectin enhances virus infectivity and resistance to neutralization by antibodies.

Bacteria dysbiosis has been associated with an increased risk of HIV-1 transmission and acquisition. The prevalent idea is that bacteria dysbiosis compromises mucosal integrity and promotes inflammatory conditions to cause recruitment and activation of immune cells that harbor or are targeted by HIV-1. However, it is also possible that HIV-1 directly binds bacteria or bacterial products to impact virus infectivity and transmissibility. This study evaluated HIV-1 interactions with bacteria through glycan-binding lectins. The Streptococcal Siglec-like lectin SLBR-N, which is part of the fimbriae shrouding the bacteria surface and recognizes α2,3 sialyated O-linked glycans, was noted for its ability to enhance HIV-1 infectivity in the context of cell-free infection and cell-to-cell transfer. Enhancing effects were recapitulated with O-glycan-binding plant lectins, signifying the importance of O-glycans. Conversely, N-glycan-binding bacterial lectins FimH and Msl had no effect. SLBR-N was demonstrated to capture and transfer infectious HIV-1 virions, bind to O-glycans on HIV-1 Env, and increase HIV-1 resistance to broadly neutralizing antibodies targeting different regions of Env. Hence, this study highlights the potential contribution of O-glycans in promoting HIV-1 infection through the exploitation of O-glycan-binding lectins from commensal bacteria at the mucosa.

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