Structure-guided design of native-like HIV Env Single Chain Trimers for enhanced stability, immunogenicity, and versatile vaccine delivery
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Stabilizing the HIV envelope (Env) trimer in its native prefusion conformation is key to eliciting broadly neutralizing antibodies (bnAbs). We present a generalizable single-chain trimer-(SCT) design platform that enables the production of stable, native-like Env trimers across diverse HIV strains. Using a structure-guided approach, we developed CAP256.SU-SCT9, based on a CAP256.SU Env shown to induce V2-apex bnAbs in humans and rhesus macaques. CAP256.SU-SCT9 trimer exhibited native-like structure, bnAb-specific antigenicity, authentic glycosylation, and compatibility with nucleic acid and nanoparticle delivery. We extended this design strategy to a panel of HIV Envs representing global diversity, and immunogens known to initiate bnAb responses in humans. Structural analyses confirmed that SCTs consistently maintained prefusion-closed conformations, favorable glycan profiles, strong binding to trimer-specific bnAbs, and low reactivity with non-neutralizing antibodies. These findings establish SCT as a versatile platform for HIV trimer immunogen design, with potential to support next-generation vaccines aimed at eliciting protective bnAb responses.
