单克隆抗体
病毒学
抗体
接种疫苗
人类免疫缺陷病毒(HIV)
异源的
三聚体
艾滋病疫苗
生物
第41页
慢病毒
艾滋病疫苗
病毒
单克隆
免疫学
医学
抗体反应
顶点(几何体)
HIV抗原
作者
Javier Guenaga,Mónika Ádori,Shridhar Bale,Swastik Phulera,Ioannis Zygouras,Fabian-Alexander Schleich,Xaquín Castro Dopico,Sashank Agrawal,Miyo Ota,Richard Wilson,Jocelyn Cluff,Tamar Dzvelaia,Marco Mandolesi,Wen-Hsin Lee,Agnes A. Walsh,Mariane B. Melo,Laurent Verkoczy,Darrell J Irvine,Martin Corcoran,Ian A Wilson
出处
期刊:Nature
[Nature Portfolio]
日期:2026-04-29
卷期号:654 (8119): 777-785
被引量:1
标识
DOI:10.1038/s41586-026-10429-3
摘要
Abstract As a chronically replicating virus, HIV has evolved extreme sequence variability and effective shielding of functionally constrained spike protein determinants by host-derived glycans 1 . Broadly neutralizing antibodies, although rare, can be isolated from people living with HIV, revealing conserved envelope glycoprotein (Env) sites as key targets for vaccine development 2–4 . One such target is the apex of the Env spike. Here we identify a vaccination strategy using heterologous HIV Env trimers covalently coupled to liposomes for multivalent display that resulted in the elicitation of cross-neutralizing HIV serum antibody responses in all trimer-liposome-immunized non-human primates. Critically, we isolated monoclonal antibodies from multiple macaques that cross-neutralize divergent HIV clinical isolates. High-resolution cryogenic electron microscopy structural analyses of monoclonal antibodies from four different macaques demonstrate that they target the Env trimer apex in a manner highly similar to that of the human-infection-elicited, apex-directed broadly neutralizing antibody PG9, representing a substantial advance in HIV vaccine development.
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